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/*************************************************************************/
/* visual_server_scene.cpp */
/*************************************************************************/
/* This file is part of: */
/* GODOT ENGINE */
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/* https://godotengine.org */
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/*************************************************************************/
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/* Copyright (c) 2007-2021 Juan Linietsky, Ariel Manzur. */
/* Copyright (c) 2014-2021 Godot Engine contributors (cf. AUTHORS.md). */
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/* */
/* 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. */
/*************************************************************************/
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# include "visual_server_scene.h"
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# include "core/os/os.h"
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# include "visual_server_globals.h"
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# include "visual_server_raster.h"
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# include <new>
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/* CAMERA API */
RID VisualServerScene : : camera_create ( ) {
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Camera * camera = memnew ( Camera ) ;
return camera_owner . make_rid ( camera ) ;
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}
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void VisualServerScene : : camera_set_perspective ( RID p_camera , float p_fovy_degrees , float p_z_near , float p_z_far ) {
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Camera * camera = camera_owner . get ( p_camera ) ;
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ERR_FAIL_COND ( ! camera ) ;
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camera - > type = Camera : : PERSPECTIVE ;
camera - > fov = p_fovy_degrees ;
camera - > znear = p_z_near ;
camera - > zfar = p_z_far ;
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}
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void VisualServerScene : : camera_set_orthogonal ( RID p_camera , float p_size , float p_z_near , float p_z_far ) {
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Camera * camera = camera_owner . get ( p_camera ) ;
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ERR_FAIL_COND ( ! camera ) ;
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camera - > type = Camera : : ORTHOGONAL ;
camera - > size = p_size ;
camera - > znear = p_z_near ;
camera - > zfar = p_z_far ;
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}
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void VisualServerScene : : camera_set_frustum ( RID p_camera , float p_size , Vector2 p_offset , float p_z_near , float p_z_far ) {
Camera * camera = camera_owner . get ( p_camera ) ;
ERR_FAIL_COND ( ! camera ) ;
camera - > type = Camera : : FRUSTUM ;
camera - > size = p_size ;
camera - > offset = p_offset ;
camera - > znear = p_z_near ;
camera - > zfar = p_z_far ;
}
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void VisualServerScene : : camera_set_transform ( RID p_camera , const Transform & p_transform ) {
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Camera * camera = camera_owner . get ( p_camera ) ;
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ERR_FAIL_COND ( ! camera ) ;
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camera - > transform = p_transform . orthonormalized ( ) ;
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}
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void VisualServerScene : : camera_set_cull_mask ( RID p_camera , uint32_t p_layers ) {
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Camera * camera = camera_owner . get ( p_camera ) ;
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ERR_FAIL_COND ( ! camera ) ;
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camera - > visible_layers = p_layers ;
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}
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void VisualServerScene : : camera_set_environment ( RID p_camera , RID p_env ) {
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Camera * camera = camera_owner . get ( p_camera ) ;
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ERR_FAIL_COND ( ! camera ) ;
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camera - > env = p_env ;
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}
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void VisualServerScene : : camera_set_use_vertical_aspect ( RID p_camera , bool p_enable ) {
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Camera * camera = camera_owner . get ( p_camera ) ;
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ERR_FAIL_COND ( ! camera ) ;
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camera - > vaspect = p_enable ;
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}
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/* SPATIAL PARTITIONING */
VisualServerScene : : SpatialPartitionID VisualServerScene : : SpatialPartitioningScene_BVH : : create ( Instance * p_userdata , const AABB & p_aabb , int p_subindex , bool p_pairable , uint32_t p_pairable_type , uint32_t p_pairable_mask ) {
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# if defined(DEBUG_ENABLED) && defined(TOOLS_ENABLED)
// we are relying on this instance to be valid in order to pass
// the visible flag to the bvh.
CRASH_COND ( ! p_userdata ) ;
# endif
return _bvh . create ( p_userdata , p_userdata - > visible , p_aabb , p_subindex , p_pairable , p_pairable_type , p_pairable_mask ) + 1 ;
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}
void VisualServerScene : : SpatialPartitioningScene_BVH : : erase ( SpatialPartitionID p_handle ) {
_bvh . erase ( p_handle - 1 ) ;
}
void VisualServerScene : : SpatialPartitioningScene_BVH : : move ( SpatialPartitionID p_handle , const AABB & p_aabb ) {
_bvh . move ( p_handle - 1 , p_aabb ) ;
}
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void VisualServerScene : : SpatialPartitioningScene_BVH : : activate ( SpatialPartitionID p_handle , const AABB & p_aabb ) {
// be very careful here, we are deferring the collision check, expecting a set_pairable to be called
// immediately after.
// see the notes in the BVH function.
_bvh . activate ( p_handle - 1 , p_aabb , true ) ;
}
void VisualServerScene : : SpatialPartitioningScene_BVH : : deactivate ( SpatialPartitionID p_handle ) {
_bvh . deactivate ( p_handle - 1 ) ;
}
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void VisualServerScene : : SpatialPartitioningScene_BVH : : force_collision_check ( SpatialPartitionID p_handle ) {
_bvh . force_collision_check ( p_handle - 1 ) ;
}
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void VisualServerScene : : SpatialPartitioningScene_BVH : : update ( ) {
_bvh . update ( ) ;
}
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void VisualServerScene : : SpatialPartitioningScene_BVH : : update_collisions ( ) {
_bvh . update_collisions ( ) ;
}
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void VisualServerScene : : SpatialPartitioningScene_BVH : : set_pairable ( SpatialPartitionID p_handle , bool p_pairable , uint32_t p_pairable_type , uint32_t p_pairable_mask ) {
_bvh . set_pairable ( p_handle - 1 , p_pairable , p_pairable_type , p_pairable_mask ) ;
}
int VisualServerScene : : SpatialPartitioningScene_BVH : : cull_convex ( const Vector < Plane > & p_convex , Instance * * p_result_array , int p_result_max , uint32_t p_mask ) {
return _bvh . cull_convex ( p_convex , p_result_array , p_result_max , p_mask ) ;
}
int VisualServerScene : : SpatialPartitioningScene_BVH : : cull_aabb ( const AABB & p_aabb , Instance * * p_result_array , int p_result_max , int * p_subindex_array , uint32_t p_mask ) {
return _bvh . cull_aabb ( p_aabb , p_result_array , p_result_max , p_subindex_array , p_mask ) ;
}
int VisualServerScene : : SpatialPartitioningScene_BVH : : cull_segment ( const Vector3 & p_from , const Vector3 & p_to , Instance * * p_result_array , int p_result_max , int * p_subindex_array , uint32_t p_mask ) {
return _bvh . cull_segment ( p_from , p_to , p_result_array , p_result_max , p_subindex_array , p_mask ) ;
}
void VisualServerScene : : SpatialPartitioningScene_BVH : : set_pair_callback ( PairCallback p_callback , void * p_userdata ) {
_bvh . set_pair_callback ( p_callback , p_userdata ) ;
}
void VisualServerScene : : SpatialPartitioningScene_BVH : : set_unpair_callback ( UnpairCallback p_callback , void * p_userdata ) {
_bvh . set_unpair_callback ( p_callback , p_userdata ) ;
}
///////////////////////
VisualServerScene : : SpatialPartitionID VisualServerScene : : SpatialPartitioningScene_Octree : : create ( Instance * p_userdata , const AABB & p_aabb , int p_subindex , bool p_pairable , uint32_t p_pairable_type , uint32_t p_pairable_mask ) {
return _octree . create ( p_userdata , p_aabb , p_subindex , p_pairable , p_pairable_type , p_pairable_mask ) ;
}
void VisualServerScene : : SpatialPartitioningScene_Octree : : erase ( SpatialPartitionID p_handle ) {
_octree . erase ( p_handle ) ;
}
void VisualServerScene : : SpatialPartitioningScene_Octree : : move ( SpatialPartitionID p_handle , const AABB & p_aabb ) {
_octree . move ( p_handle , p_aabb ) ;
}
void VisualServerScene : : SpatialPartitioningScene_Octree : : set_pairable ( SpatialPartitionID p_handle , bool p_pairable , uint32_t p_pairable_type , uint32_t p_pairable_mask ) {
_octree . set_pairable ( p_handle , p_pairable , p_pairable_type , p_pairable_mask ) ;
}
int VisualServerScene : : SpatialPartitioningScene_Octree : : cull_convex ( const Vector < Plane > & p_convex , Instance * * p_result_array , int p_result_max , uint32_t p_mask ) {
return _octree . cull_convex ( p_convex , p_result_array , p_result_max , p_mask ) ;
}
int VisualServerScene : : SpatialPartitioningScene_Octree : : cull_aabb ( const AABB & p_aabb , Instance * * p_result_array , int p_result_max , int * p_subindex_array , uint32_t p_mask ) {
return _octree . cull_aabb ( p_aabb , p_result_array , p_result_max , p_subindex_array , p_mask ) ;
}
int VisualServerScene : : SpatialPartitioningScene_Octree : : cull_segment ( const Vector3 & p_from , const Vector3 & p_to , Instance * * p_result_array , int p_result_max , int * p_subindex_array , uint32_t p_mask ) {
return _octree . cull_segment ( p_from , p_to , p_result_array , p_result_max , p_subindex_array , p_mask ) ;
}
void VisualServerScene : : SpatialPartitioningScene_Octree : : set_pair_callback ( PairCallback p_callback , void * p_userdata ) {
_octree . set_pair_callback ( p_callback , p_userdata ) ;
}
void VisualServerScene : : SpatialPartitioningScene_Octree : : set_unpair_callback ( UnpairCallback p_callback , void * p_userdata ) {
_octree . set_unpair_callback ( p_callback , p_userdata ) ;
}
void VisualServerScene : : SpatialPartitioningScene_Octree : : set_balance ( float p_balance ) {
_octree . set_balance ( p_balance ) ;
}
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/* SCENARIO API */
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VisualServerScene : : Scenario : : Scenario ( ) {
debug = VS : : SCENARIO_DEBUG_DISABLED ;
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bool use_bvh_or_octree = GLOBAL_GET ( " rendering/quality/spatial_partitioning/use_bvh " ) ;
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if ( use_bvh_or_octree ) {
sps = memnew ( SpatialPartitioningScene_BVH ) ;
} else {
sps = memnew ( SpatialPartitioningScene_Octree ) ;
}
}
void * VisualServerScene : : _instance_pair ( void * p_self , SpatialPartitionID , Instance * p_A , int , SpatialPartitionID , Instance * p_B , int ) {
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//VisualServerScene *self = (VisualServerScene*)p_self;
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Instance * A = p_A ;
Instance * B = p_B ;
//instance indices are designed so greater always contains lesser
if ( A - > base_type > B - > base_type ) {
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SWAP ( A , B ) ; //lesser always first
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}
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if ( B - > base_type = = VS : : INSTANCE_LIGHT & & ( ( 1 < < A - > base_type ) & VS : : INSTANCE_GEOMETRY_MASK ) ) {
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InstanceLightData * light = static_cast < InstanceLightData * > ( B - > base_data ) ;
InstanceGeometryData * geom = static_cast < InstanceGeometryData * > ( A - > base_data ) ;
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InstanceLightData : : PairInfo pinfo ;
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pinfo . geometry = A ;
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pinfo . L = geom - > lighting . push_back ( B ) ;
List < InstanceLightData : : PairInfo > : : Element * E = light - > geometries . push_back ( pinfo ) ;
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if ( geom - > can_cast_shadows ) {
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light - > shadow_dirty = true ;
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}
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geom - > lighting_dirty = true ;
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return E ; //this element should make freeing faster
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} else if ( B - > base_type = = VS : : INSTANCE_REFLECTION_PROBE & & ( ( 1 < < A - > base_type ) & VS : : INSTANCE_GEOMETRY_MASK ) ) {
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InstanceReflectionProbeData * reflection_probe = static_cast < InstanceReflectionProbeData * > ( B - > base_data ) ;
InstanceGeometryData * geom = static_cast < InstanceGeometryData * > ( A - > base_data ) ;
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InstanceReflectionProbeData : : PairInfo pinfo ;
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pinfo . geometry = A ;
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pinfo . L = geom - > reflection_probes . push_back ( B ) ;
List < InstanceReflectionProbeData : : PairInfo > : : Element * E = reflection_probe - > geometries . push_back ( pinfo ) ;
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geom - > reflection_dirty = true ;
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return E ; //this element should make freeing faster
} else if ( B - > base_type = = VS : : INSTANCE_LIGHTMAP_CAPTURE & & ( ( 1 < < A - > base_type ) & VS : : INSTANCE_GEOMETRY_MASK ) ) {
InstanceLightmapCaptureData * lightmap_capture = static_cast < InstanceLightmapCaptureData * > ( B - > base_data ) ;
InstanceGeometryData * geom = static_cast < InstanceGeometryData * > ( A - > base_data ) ;
InstanceLightmapCaptureData : : PairInfo pinfo ;
pinfo . geometry = A ;
pinfo . L = geom - > lightmap_captures . push_back ( B ) ;
List < InstanceLightmapCaptureData : : PairInfo > : : Element * E = lightmap_capture - > geometries . push_back ( pinfo ) ;
( ( VisualServerScene * ) p_self ) - > _instance_queue_update ( A , false , false ) ; //need to update capture
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return E ; //this element should make freeing faster
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} else if ( B - > base_type = = VS : : INSTANCE_GI_PROBE & & ( ( 1 < < A - > base_type ) & VS : : INSTANCE_GEOMETRY_MASK ) ) {
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InstanceGIProbeData * gi_probe = static_cast < InstanceGIProbeData * > ( B - > base_data ) ;
InstanceGeometryData * geom = static_cast < InstanceGeometryData * > ( A - > base_data ) ;
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InstanceGIProbeData : : PairInfo pinfo ;
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pinfo . geometry = A ;
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pinfo . L = geom - > gi_probes . push_back ( B ) ;
List < InstanceGIProbeData : : PairInfo > : : Element * E = gi_probe - > geometries . push_back ( pinfo ) ;
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geom - > gi_probes_dirty = true ;
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return E ; //this element should make freeing faster
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} else if ( B - > base_type = = VS : : INSTANCE_GI_PROBE & & A - > base_type = = VS : : INSTANCE_LIGHT ) {
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InstanceGIProbeData * gi_probe = static_cast < InstanceGIProbeData * > ( B - > base_data ) ;
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return gi_probe - > lights . insert ( A ) ;
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}
return NULL ;
}
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void VisualServerScene : : _instance_unpair ( void * p_self , SpatialPartitionID , Instance * p_A , int , SpatialPartitionID , Instance * p_B , int , void * udata ) {
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//VisualServerScene *self = (VisualServerScene*)p_self;
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Instance * A = p_A ;
Instance * B = p_B ;
//instance indices are designed so greater always contains lesser
if ( A - > base_type > B - > base_type ) {
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SWAP ( A , B ) ; //lesser always first
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}
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if ( B - > base_type = = VS : : INSTANCE_LIGHT & & ( ( 1 < < A - > base_type ) & VS : : INSTANCE_GEOMETRY_MASK ) ) {
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InstanceLightData * light = static_cast < InstanceLightData * > ( B - > base_data ) ;
InstanceGeometryData * geom = static_cast < InstanceGeometryData * > ( A - > base_data ) ;
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List < InstanceLightData : : PairInfo > : : Element * E = reinterpret_cast < List < InstanceLightData : : PairInfo > : : Element * > ( udata ) ;
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geom - > lighting . erase ( E - > get ( ) . L ) ;
light - > geometries . erase ( E ) ;
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if ( geom - > can_cast_shadows ) {
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light - > shadow_dirty = true ;
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}
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geom - > lighting_dirty = true ;
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} else if ( B - > base_type = = VS : : INSTANCE_REFLECTION_PROBE & & ( ( 1 < < A - > base_type ) & VS : : INSTANCE_GEOMETRY_MASK ) ) {
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InstanceReflectionProbeData * reflection_probe = static_cast < InstanceReflectionProbeData * > ( B - > base_data ) ;
InstanceGeometryData * geom = static_cast < InstanceGeometryData * > ( A - > base_data ) ;
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List < InstanceReflectionProbeData : : PairInfo > : : Element * E = reinterpret_cast < List < InstanceReflectionProbeData : : PairInfo > : : Element * > ( udata ) ;
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geom - > reflection_probes . erase ( E - > get ( ) . L ) ;
reflection_probe - > geometries . erase ( E ) ;
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geom - > reflection_dirty = true ;
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} else if ( B - > base_type = = VS : : INSTANCE_LIGHTMAP_CAPTURE & & ( ( 1 < < A - > base_type ) & VS : : INSTANCE_GEOMETRY_MASK ) ) {
InstanceLightmapCaptureData * lightmap_capture = static_cast < InstanceLightmapCaptureData * > ( B - > base_data ) ;
InstanceGeometryData * geom = static_cast < InstanceGeometryData * > ( A - > base_data ) ;
List < InstanceLightmapCaptureData : : PairInfo > : : Element * E = reinterpret_cast < List < InstanceLightmapCaptureData : : PairInfo > : : Element * > ( udata ) ;
geom - > lightmap_captures . erase ( E - > get ( ) . L ) ;
lightmap_capture - > geometries . erase ( E ) ;
( ( VisualServerScene * ) p_self ) - > _instance_queue_update ( A , false , false ) ; //need to update capture
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} else if ( B - > base_type = = VS : : INSTANCE_GI_PROBE & & ( ( 1 < < A - > base_type ) & VS : : INSTANCE_GEOMETRY_MASK ) ) {
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InstanceGIProbeData * gi_probe = static_cast < InstanceGIProbeData * > ( B - > base_data ) ;
InstanceGeometryData * geom = static_cast < InstanceGeometryData * > ( A - > base_data ) ;
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List < InstanceGIProbeData : : PairInfo > : : Element * E = reinterpret_cast < List < InstanceGIProbeData : : PairInfo > : : Element * > ( udata ) ;
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geom - > gi_probes . erase ( E - > get ( ) . L ) ;
gi_probe - > geometries . erase ( E ) ;
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geom - > gi_probes_dirty = true ;
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} else if ( B - > base_type = = VS : : INSTANCE_GI_PROBE & & A - > base_type = = VS : : INSTANCE_LIGHT ) {
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InstanceGIProbeData * gi_probe = static_cast < InstanceGIProbeData * > ( B - > base_data ) ;
Set < Instance * > : : Element * E = reinterpret_cast < Set < Instance * > : : Element * > ( udata ) ;
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gi_probe - > lights . erase ( E ) ;
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}
}
RID VisualServerScene : : scenario_create ( ) {
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Scenario * scenario = memnew ( Scenario ) ;
ERR_FAIL_COND_V ( ! scenario , RID ( ) ) ;
RID scenario_rid = scenario_owner . make_rid ( scenario ) ;
scenario - > self = scenario_rid ;
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scenario - > sps - > set_balance ( GLOBAL_GET ( " rendering/quality/spatial_partitioning/render_tree_balance " ) ) ;
scenario - > sps - > set_pair_callback ( _instance_pair , this ) ;
scenario - > sps - > set_unpair_callback ( _instance_unpair , this ) ;
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scenario - > reflection_probe_shadow_atlas = VSG : : scene_render - > shadow_atlas_create ( ) ;
VSG : : scene_render - > shadow_atlas_set_size ( scenario - > reflection_probe_shadow_atlas , 1024 ) ; //make enough shadows for close distance, don't bother with rest
VSG : : scene_render - > shadow_atlas_set_quadrant_subdivision ( scenario - > reflection_probe_shadow_atlas , 0 , 4 ) ;
VSG : : scene_render - > shadow_atlas_set_quadrant_subdivision ( scenario - > reflection_probe_shadow_atlas , 1 , 4 ) ;
VSG : : scene_render - > shadow_atlas_set_quadrant_subdivision ( scenario - > reflection_probe_shadow_atlas , 2 , 4 ) ;
VSG : : scene_render - > shadow_atlas_set_quadrant_subdivision ( scenario - > reflection_probe_shadow_atlas , 3 , 8 ) ;
scenario - > reflection_atlas = VSG : : scene_render - > reflection_atlas_create ( ) ;
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return scenario_rid ;
}
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void VisualServerScene : : scenario_set_debug ( RID p_scenario , VS : : ScenarioDebugMode p_debug_mode ) {
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Scenario * scenario = scenario_owner . get ( p_scenario ) ;
ERR_FAIL_COND ( ! scenario ) ;
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scenario - > debug = p_debug_mode ;
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}
void VisualServerScene : : scenario_set_environment ( RID p_scenario , RID p_environment ) {
Scenario * scenario = scenario_owner . get ( p_scenario ) ;
ERR_FAIL_COND ( ! scenario ) ;
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scenario - > environment = p_environment ;
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}
void VisualServerScene : : scenario_set_fallback_environment ( RID p_scenario , RID p_environment ) {
Scenario * scenario = scenario_owner . get ( p_scenario ) ;
ERR_FAIL_COND ( ! scenario ) ;
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scenario - > fallback_environment = p_environment ;
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}
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void VisualServerScene : : scenario_set_reflection_atlas_size ( RID p_scenario , int p_size , int p_subdiv ) {
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Scenario * scenario = scenario_owner . get ( p_scenario ) ;
ERR_FAIL_COND ( ! scenario ) ;
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VSG : : scene_render - > reflection_atlas_set_size ( scenario - > reflection_atlas , p_size ) ;
VSG : : scene_render - > reflection_atlas_set_subdivision ( scenario - > reflection_atlas , p_subdiv ) ;
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}
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/* INSTANCING API */
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void VisualServerScene : : _instance_queue_update ( Instance * p_instance , bool p_update_aabb , bool p_update_materials ) {
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if ( p_update_aabb )
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p_instance - > update_aabb = true ;
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if ( p_update_materials )
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p_instance - > update_materials = true ;
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if ( p_instance - > update_item . in_list ( ) )
return ;
_instance_update_list . add ( & p_instance - > update_item ) ;
}
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RID VisualServerScene : : instance_create ( ) {
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Instance * instance = memnew ( Instance ) ;
ERR_FAIL_COND_V ( ! instance , RID ( ) ) ;
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RID instance_rid = instance_owner . make_rid ( instance ) ;
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instance - > self = instance_rid ;
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return instance_rid ;
}
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void VisualServerScene : : instance_set_base ( RID p_instance , RID p_base ) {
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Instance * instance = instance_owner . get ( p_instance ) ;
ERR_FAIL_COND ( ! instance ) ;
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Scenario * scenario = instance - > scenario ;
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if ( instance - > base_type ! = VS : : INSTANCE_NONE ) {
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//free anything related to that base
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VSG : : storage - > instance_remove_dependency ( instance - > base , instance ) ;
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if ( instance - > base_type = = VS : : INSTANCE_GI_PROBE ) {
//if gi probe is baking, wait until done baking, else race condition may happen when removing it
//from octree
InstanceGIProbeData * gi_probe = static_cast < InstanceGIProbeData * > ( instance - > base_data ) ;
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//make sure probes are done baking
while ( ! probe_bake_list . empty ( ) ) {
OS : : get_singleton ( ) - > delay_usec ( 1 ) ;
}
//make sure this one is done baking
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while ( gi_probe - > dynamic . updating_stage = = GI_UPDATE_STAGE_LIGHTING ) {
//wait until bake is done if it's baking
OS : : get_singleton ( ) - > delay_usec ( 1 ) ;
}
}
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if ( scenario & & instance - > spatial_partition_id ) {
scenario - > sps - > erase ( instance - > spatial_partition_id ) ;
instance - > spatial_partition_id = 0 ;
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}
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switch ( instance - > base_type ) {
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case VS : : INSTANCE_LIGHT : {
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InstanceLightData * light = static_cast < InstanceLightData * > ( instance - > base_data ) ;
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if ( instance - > scenario & & light - > D ) {
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instance - > scenario - > directional_lights . erase ( light - > D ) ;
light - > D = NULL ;
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}
VSG : : scene_render - > free ( light - > instance ) ;
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} break ;
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case VS : : INSTANCE_REFLECTION_PROBE : {
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InstanceReflectionProbeData * reflection_probe = static_cast < InstanceReflectionProbeData * > ( instance - > base_data ) ;
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VSG : : scene_render - > free ( reflection_probe - > instance ) ;
if ( reflection_probe - > update_list . in_list ( ) ) {
reflection_probe_render_list . remove ( & reflection_probe - > update_list ) ;
}
} break ;
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case VS : : INSTANCE_LIGHTMAP_CAPTURE : {
InstanceLightmapCaptureData * lightmap_capture = static_cast < InstanceLightmapCaptureData * > ( instance - > base_data ) ;
//erase dependencies, since no longer a lightmap
while ( lightmap_capture - > users . front ( ) ) {
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instance_set_use_lightmap ( lightmap_capture - > users . front ( ) - > get ( ) - > self , RID ( ) , RID ( ) , - 1 , Rect2 ( 0 , 0 , 1 , 1 ) ) ;
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}
} break ;
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case VS : : INSTANCE_GI_PROBE : {
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InstanceGIProbeData * gi_probe = static_cast < InstanceGIProbeData * > ( instance - > base_data ) ;
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if ( gi_probe - > update_element . in_list ( ) ) {
gi_probe_update_list . remove ( & gi_probe - > update_element ) ;
}
if ( gi_probe - > dynamic . probe_data . is_valid ( ) ) {
VSG : : storage - > free ( gi_probe - > dynamic . probe_data ) ;
}
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if ( instance - > lightmap_capture ) {
Instance * capture = ( Instance * ) instance - > lightmap_capture ;
InstanceLightmapCaptureData * lightmap_capture = static_cast < InstanceLightmapCaptureData * > ( capture - > base_data ) ;
lightmap_capture - > users . erase ( instance ) ;
instance - > lightmap_capture = NULL ;
instance - > lightmap = RID ( ) ;
}
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VSG : : scene_render - > free ( gi_probe - > probe_instance ) ;
} break ;
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default : {
}
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}
if ( instance - > base_data ) {
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memdelete ( instance - > base_data ) ;
instance - > base_data = NULL ;
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}
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instance - > blend_values . clear ( ) ;
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for ( int i = 0 ; i < instance - > materials . size ( ) ; i + + ) {
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if ( instance - > materials [ i ] . is_valid ( ) ) {
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VSG : : storage - > material_remove_instance_owner ( instance - > materials [ i ] , instance ) ;
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}
}
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instance - > materials . clear ( ) ;
}
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instance - > base_type = VS : : INSTANCE_NONE ;
instance - > base = RID ( ) ;
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if ( p_base . is_valid ( ) ) {
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instance - > base_type = VSG : : storage - > get_base_type ( p_base ) ;
ERR_FAIL_COND ( instance - > base_type = = VS : : INSTANCE_NONE ) ;
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switch ( instance - > base_type ) {
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case VS : : INSTANCE_LIGHT : {
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InstanceLightData * light = memnew ( InstanceLightData ) ;
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if ( scenario & & VSG : : storage - > light_get_type ( p_base ) = = VS : : LIGHT_DIRECTIONAL ) {
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light - > D = scenario - > directional_lights . push_back ( instance ) ;
}
light - > instance = VSG : : scene_render - > light_instance_create ( p_base ) ;
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instance - > base_data = light ;
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} break ;
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case VS : : INSTANCE_MESH :
case VS : : INSTANCE_MULTIMESH :
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case VS : : INSTANCE_IMMEDIATE :
case VS : : INSTANCE_PARTICLES : {
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InstanceGeometryData * geom = memnew ( InstanceGeometryData ) ;
instance - > base_data = geom ;
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if ( instance - > base_type = = VS : : INSTANCE_MESH ) {
instance - > blend_values . resize ( VSG : : storage - > mesh_get_blend_shape_count ( p_base ) ) ;
}
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} break ;
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case VS : : INSTANCE_REFLECTION_PROBE : {
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InstanceReflectionProbeData * reflection_probe = memnew ( InstanceReflectionProbeData ) ;
reflection_probe - > owner = instance ;
instance - > base_data = reflection_probe ;
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reflection_probe - > instance = VSG : : scene_render - > reflection_probe_instance_create ( p_base ) ;
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} break ;
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case VS : : INSTANCE_LIGHTMAP_CAPTURE : {
InstanceLightmapCaptureData * lightmap_capture = memnew ( InstanceLightmapCaptureData ) ;
instance - > base_data = lightmap_capture ;
//lightmap_capture->instance = VSG::scene_render->lightmap_capture_instance_create(p_base);
} break ;
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case VS : : INSTANCE_GI_PROBE : {
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InstanceGIProbeData * gi_probe = memnew ( InstanceGIProbeData ) ;
instance - > base_data = gi_probe ;
gi_probe - > owner = instance ;
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if ( scenario & & ! gi_probe - > update_element . in_list ( ) ) {
gi_probe_update_list . add ( & gi_probe - > update_element ) ;
}
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gi_probe - > probe_instance = VSG : : scene_render - > gi_probe_instance_create ( ) ;
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} break ;
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default : {
}
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}
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VSG : : storage - > instance_add_dependency ( p_base , instance ) ;
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instance - > base = p_base ;
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if ( scenario )
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_instance_queue_update ( instance , true , true ) ;
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}
}
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void VisualServerScene : : instance_set_scenario ( RID p_instance , RID p_scenario ) {
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Instance * instance = instance_owner . get ( p_instance ) ;
ERR_FAIL_COND ( ! instance ) ;
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if ( instance - > scenario ) {
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instance - > scenario - > instances . remove ( & instance - > scenario_item ) ;
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if ( instance - > spatial_partition_id ) {
instance - > scenario - > sps - > erase ( instance - > spatial_partition_id ) ;
instance - > spatial_partition_id = 0 ;
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}
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switch ( instance - > base_type ) {
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case VS : : INSTANCE_LIGHT : {
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InstanceLightData * light = static_cast < InstanceLightData * > ( instance - > base_data ) ;
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if ( light - > D ) {
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instance - > scenario - > directional_lights . erase ( light - > D ) ;
light - > D = NULL ;
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}
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} break ;
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case VS : : INSTANCE_REFLECTION_PROBE : {
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InstanceReflectionProbeData * reflection_probe = static_cast < InstanceReflectionProbeData * > ( instance - > base_data ) ;
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VSG : : scene_render - > reflection_probe_release_atlas_index ( reflection_probe - > instance ) ;
} break ;
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case VS : : INSTANCE_GI_PROBE : {
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InstanceGIProbeData * gi_probe = static_cast < InstanceGIProbeData * > ( instance - > base_data ) ;
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if ( gi_probe - > update_element . in_list ( ) ) {
gi_probe_update_list . remove ( & gi_probe - > update_element ) ;
}
} break ;
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default : {
}
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}
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instance - > scenario = NULL ;
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}
if ( p_scenario . is_valid ( ) ) {
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Scenario * scenario = scenario_owner . get ( p_scenario ) ;
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ERR_FAIL_COND ( ! scenario ) ;
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instance - > scenario = scenario ;
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scenario - > instances . add ( & instance - > scenario_item ) ;
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switch ( instance - > base_type ) {
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case VS : : INSTANCE_LIGHT : {
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InstanceLightData * light = static_cast < InstanceLightData * > ( instance - > base_data ) ;
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if ( VSG : : storage - > light_get_type ( instance - > base ) = = VS : : LIGHT_DIRECTIONAL ) {
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light - > D = scenario - > directional_lights . push_back ( instance ) ;
}
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} break ;
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case VS : : INSTANCE_GI_PROBE : {
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InstanceGIProbeData * gi_probe = static_cast < InstanceGIProbeData * > ( instance - > base_data ) ;
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if ( ! gi_probe - > update_element . in_list ( ) ) {
gi_probe_update_list . add ( & gi_probe - > update_element ) ;
}
} break ;
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default : {
}
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}
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_instance_queue_update ( instance , true , true ) ;
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}
}
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void VisualServerScene : : instance_set_layer_mask ( RID p_instance , uint32_t p_mask ) {
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Instance * instance = instance_owner . get ( p_instance ) ;
ERR_FAIL_COND ( ! instance ) ;
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instance - > layer_mask = p_mask ;
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}
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void VisualServerScene : : instance_set_transform ( RID p_instance , const Transform & p_transform ) {
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Instance * instance = instance_owner . get ( p_instance ) ;
ERR_FAIL_COND ( ! instance ) ;
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if ( instance - > transform = = p_transform )
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return ; //must be checked to avoid worst evil
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# ifdef DEBUG_ENABLED
for ( int i = 0 ; i < 4 ; i + + ) {
const Vector3 & v = i < 3 ? p_transform . basis . elements [ i ] : p_transform . origin ;
ERR_FAIL_COND ( Math : : is_inf ( v . x ) ) ;
ERR_FAIL_COND ( Math : : is_nan ( v . x ) ) ;
ERR_FAIL_COND ( Math : : is_inf ( v . y ) ) ;
ERR_FAIL_COND ( Math : : is_nan ( v . y ) ) ;
ERR_FAIL_COND ( Math : : is_inf ( v . z ) ) ;
ERR_FAIL_COND ( Math : : is_nan ( v . z ) ) ;
}
# endif
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instance - > transform = p_transform ;
_instance_queue_update ( instance , true ) ;
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}
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void VisualServerScene : : instance_attach_object_instance_id ( RID p_instance , ObjectID p_id ) {
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Instance * instance = instance_owner . get ( p_instance ) ;
ERR_FAIL_COND ( ! instance ) ;
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instance - > object_id = p_id ;
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}
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void VisualServerScene : : instance_set_blend_shape_weight ( RID p_instance , int p_shape , float p_weight ) {
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Instance * instance = instance_owner . get ( p_instance ) ;
ERR_FAIL_COND ( ! instance ) ;
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if ( instance - > update_item . in_list ( ) ) {
_update_dirty_instance ( instance ) ;
}
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ERR_FAIL_INDEX ( p_shape , instance - > blend_values . size ( ) ) ;
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instance - > blend_values . write [ p_shape ] = p_weight ;
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}
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void VisualServerScene : : instance_set_surface_material ( RID p_instance , int p_surface , RID p_material ) {
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Instance * instance = instance_owner . get ( p_instance ) ;
ERR_FAIL_COND ( ! instance ) ;
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if ( instance - > base_type = = VS : : INSTANCE_MESH ) {
//may not have been updated yet
instance - > materials . resize ( VSG : : storage - > mesh_get_surface_count ( instance - > base ) ) ;
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}
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ERR_FAIL_INDEX ( p_surface , instance - > materials . size ( ) ) ;
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if ( instance - > materials [ p_surface ] . is_valid ( ) ) {
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VSG : : storage - > material_remove_instance_owner ( instance - > materials [ p_surface ] , instance ) ;
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}
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instance - > materials . write [ p_surface ] = p_material ;
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instance - > base_changed ( false , true ) ;
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if ( instance - > materials [ p_surface ] . is_valid ( ) ) {
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VSG : : storage - > material_add_instance_owner ( instance - > materials [ p_surface ] , instance ) ;
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}
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}
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void VisualServerScene : : instance_set_visible ( RID p_instance , bool p_visible ) {
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Instance * instance = instance_owner . get ( p_instance ) ;
ERR_FAIL_COND ( ! instance ) ;
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if ( instance - > visible = = p_visible )
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return ;
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instance - > visible = p_visible ;
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// give the opportunity for the spatial paritioning scene to use a special implementation of visibility
// for efficiency (supported in BVH but not octree)
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// slightly bug prone optimization here - we want to avoid doing a collision check twice
// once when activating, and once when calling set_pairable. We do this by deferring the collision check.
// However, in some cases (notably meshes), set_pairable never gets called. So we want to catch this case
// and force a collision check (see later in this function).
// This is only done in two stages to maintain compatibility with the octree.
if ( instance - > spatial_partition_id & & instance - > scenario ) {
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if ( p_visible ) {
instance - > scenario - > sps - > activate ( instance - > spatial_partition_id , instance - > transformed_aabb ) ;
} else {
instance - > scenario - > sps - > deactivate ( instance - > spatial_partition_id ) ;
}
}
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// when showing or hiding geometry, lights must be kept up to date to show / hide shadows
if ( ( 1 < < instance - > base_type ) & VS : : INSTANCE_GEOMETRY_MASK ) {
InstanceGeometryData * geom = static_cast < InstanceGeometryData * > ( instance - > base_data ) ;
if ( geom - > can_cast_shadows ) {
for ( List < Instance * > : : Element * E = geom - > lighting . front ( ) ; E ; E = E - > next ( ) ) {
InstanceLightData * light = static_cast < InstanceLightData * > ( E - > get ( ) - > base_data ) ;
light - > shadow_dirty = true ;
}
}
}
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switch ( instance - > base_type ) {
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case VS : : INSTANCE_LIGHT : {
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if ( VSG : : storage - > light_get_type ( instance - > base ) ! = VS : : LIGHT_DIRECTIONAL & & instance - > spatial_partition_id & & instance - > scenario ) {
instance - > scenario - > sps - > set_pairable ( instance - > spatial_partition_id , p_visible , 1 < < VS : : INSTANCE_LIGHT , p_visible ? VS : : INSTANCE_GEOMETRY_MASK : 0 ) ;
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}
} break ;
case VS : : INSTANCE_REFLECTION_PROBE : {
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if ( instance - > spatial_partition_id & & instance - > scenario ) {
instance - > scenario - > sps - > set_pairable ( instance - > spatial_partition_id , p_visible , 1 < < VS : : INSTANCE_REFLECTION_PROBE , p_visible ? VS : : INSTANCE_GEOMETRY_MASK : 0 ) ;
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}
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} break ;
case VS : : INSTANCE_LIGHTMAP_CAPTURE : {
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if ( instance - > spatial_partition_id & & instance - > scenario ) {
instance - > scenario - > sps - > set_pairable ( instance - > spatial_partition_id , p_visible , 1 < < VS : : INSTANCE_LIGHTMAP_CAPTURE , p_visible ? VS : : INSTANCE_GEOMETRY_MASK : 0 ) ;
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}
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} break ;
case VS : : INSTANCE_GI_PROBE : {
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if ( instance - > spatial_partition_id & & instance - > scenario ) {
instance - > scenario - > sps - > set_pairable ( instance - > spatial_partition_id , p_visible , 1 < < VS : : INSTANCE_GI_PROBE , p_visible ? ( VS : : INSTANCE_GEOMETRY_MASK | ( 1 < < VS : : INSTANCE_LIGHT ) ) : 0 ) ;
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}
} break ;
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default : {
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// if we haven't called set_pairable, we STILL need to do a collision check
// for activated items because we deferred it earlier in the call to activate.
if ( instance - > spatial_partition_id & & instance - > scenario & & p_visible ) {
instance - > scenario - > sps - > force_collision_check ( instance - > spatial_partition_id ) ;
}
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}
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}
}
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inline bool is_geometry_instance ( VisualServer : : InstanceType p_type ) {
return p_type = = VS : : INSTANCE_MESH | | p_type = = VS : : INSTANCE_MULTIMESH | | p_type = = VS : : INSTANCE_PARTICLES | | p_type = = VS : : INSTANCE_IMMEDIATE ;
}
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void VisualServerScene : : instance_set_use_lightmap ( RID p_instance , RID p_lightmap_instance , RID p_lightmap , int p_lightmap_slice , const Rect2 & p_lightmap_uv_rect ) {
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Instance * instance = instance_owner . get ( p_instance ) ;
ERR_FAIL_COND ( ! instance ) ;
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instance - > lightmap = RID ( ) ;
instance - > lightmap_slice = - 1 ;
instance - > lightmap_uv_rect = Rect2 ( 0 , 0 , 1 , 1 ) ;
instance - > baked_light = false ;
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if ( instance - > lightmap_capture ) {
InstanceLightmapCaptureData * lightmap_capture = static_cast < InstanceLightmapCaptureData * > ( ( ( Instance * ) instance - > lightmap_capture ) - > base_data ) ;
lightmap_capture - > users . erase ( instance ) ;
instance - > lightmap_capture = NULL ;
}
if ( p_lightmap_instance . is_valid ( ) ) {
Instance * lightmap_instance = instance_owner . get ( p_lightmap_instance ) ;
ERR_FAIL_COND ( ! lightmap_instance ) ;
ERR_FAIL_COND ( lightmap_instance - > base_type ! = VS : : INSTANCE_LIGHTMAP_CAPTURE ) ;
instance - > lightmap_capture = lightmap_instance ;
InstanceLightmapCaptureData * lightmap_capture = static_cast < InstanceLightmapCaptureData * > ( ( ( Instance * ) instance - > lightmap_capture ) - > base_data ) ;
lightmap_capture - > users . insert ( instance ) ;
instance - > lightmap = p_lightmap ;
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instance - > lightmap_slice = p_lightmap_slice ;
instance - > lightmap_uv_rect = p_lightmap_uv_rect ;
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instance - > baked_light = true ;
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}
}
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void VisualServerScene : : instance_set_custom_aabb ( RID p_instance , AABB p_aabb ) {
Instance * instance = instance_owner . get ( p_instance ) ;
ERR_FAIL_COND ( ! instance ) ;
ERR_FAIL_COND ( ! is_geometry_instance ( instance - > base_type ) ) ;
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if ( p_aabb ! = AABB ( ) ) {
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// Set custom AABB
if ( instance - > custom_aabb = = NULL )
instance - > custom_aabb = memnew ( AABB ) ;
* instance - > custom_aabb = p_aabb ;
} else {
// Clear custom AABB
if ( instance - > custom_aabb ! = NULL ) {
memdelete ( instance - > custom_aabb ) ;
instance - > custom_aabb = NULL ;
}
}
if ( instance - > scenario )
_instance_queue_update ( instance , true , false ) ;
}
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void VisualServerScene : : instance_attach_skeleton ( RID p_instance , RID p_skeleton ) {
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Instance * instance = instance_owner . get ( p_instance ) ;
ERR_FAIL_COND ( ! instance ) ;
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if ( instance - > skeleton = = p_skeleton )
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return ;
if ( instance - > skeleton . is_valid ( ) ) {
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VSG : : storage - > instance_remove_skeleton ( instance - > skeleton , instance ) ;
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}
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instance - > skeleton = p_skeleton ;
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if ( instance - > skeleton . is_valid ( ) ) {
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VSG : : storage - > instance_add_skeleton ( instance - > skeleton , instance ) ;
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}
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_instance_queue_update ( instance , true ) ;
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}
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void VisualServerScene : : instance_set_exterior ( RID p_instance , bool p_enabled ) {
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}
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void VisualServerScene : : instance_set_extra_visibility_margin ( RID p_instance , real_t p_margin ) {
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Instance * instance = instance_owner . get ( p_instance ) ;
ERR_FAIL_COND ( ! instance ) ;
instance - > extra_margin = p_margin ;
_instance_queue_update ( instance , true , false ) ;
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}
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Vector < ObjectID > VisualServerScene : : instances_cull_aabb ( const AABB & p_aabb , RID p_scenario ) const {
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Vector < ObjectID > instances ;
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Scenario * scenario = scenario_owner . get ( p_scenario ) ;
ERR_FAIL_COND_V ( ! scenario , instances ) ;
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const_cast < VisualServerScene * > ( this ) - > update_dirty_instances ( ) ; // check dirty instances before culling
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int culled = 0 ;
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Instance * cull [ 1024 ] ;
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culled = scenario - > sps - > cull_aabb ( p_aabb , cull , 1024 ) ;
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for ( int i = 0 ; i < culled ; i + + ) {
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Instance * instance = cull [ i ] ;
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ERR_CONTINUE ( ! instance ) ;
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if ( instance - > object_id = = 0 )
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continue ;
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instances . push_back ( instance - > object_id ) ;
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}
return instances ;
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}
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Vector < ObjectID > VisualServerScene : : instances_cull_ray ( const Vector3 & p_from , const Vector3 & p_to , RID p_scenario ) const {
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Vector < ObjectID > instances ;
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Scenario * scenario = scenario_owner . get ( p_scenario ) ;
ERR_FAIL_COND_V ( ! scenario , instances ) ;
const_cast < VisualServerScene * > ( this ) - > update_dirty_instances ( ) ; // check dirty instances before culling
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int culled = 0 ;
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Instance * cull [ 1024 ] ;
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culled = scenario - > sps - > cull_segment ( p_from , p_from + p_to * 10000 , cull , 1024 ) ;
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for ( int i = 0 ; i < culled ; i + + ) {
Instance * instance = cull [ i ] ;
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ERR_CONTINUE ( ! instance ) ;
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if ( instance - > object_id = = 0 )
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continue ;
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instances . push_back ( instance - > object_id ) ;
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}
return instances ;
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}
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Vector < ObjectID > VisualServerScene : : instances_cull_convex ( const Vector < Plane > & p_convex , RID p_scenario ) const {
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Vector < ObjectID > instances ;
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Scenario * scenario = scenario_owner . get ( p_scenario ) ;
ERR_FAIL_COND_V ( ! scenario , instances ) ;
const_cast < VisualServerScene * > ( this ) - > update_dirty_instances ( ) ; // check dirty instances before culling
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int culled = 0 ;
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Instance * cull [ 1024 ] ;
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culled = scenario - > sps - > cull_convex ( p_convex , cull , 1024 ) ;
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for ( int i = 0 ; i < culled ; i + + ) {
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Instance * instance = cull [ i ] ;
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ERR_CONTINUE ( ! instance ) ;
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if ( instance - > object_id = = 0 )
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continue ;
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instances . push_back ( instance - > object_id ) ;
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}
return instances ;
}
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void VisualServerScene : : instance_geometry_set_flag ( RID p_instance , VS : : InstanceFlags p_flags , bool p_enabled ) {
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Instance * instance = instance_owner . get ( p_instance ) ;
ERR_FAIL_COND ( ! instance ) ;
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switch ( p_flags ) {
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case VS : : INSTANCE_FLAG_USE_BAKED_LIGHT : {
instance - > baked_light = p_enabled ;
} break ;
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case VS : : INSTANCE_FLAG_DRAW_NEXT_FRAME_IF_VISIBLE : {
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instance - > redraw_if_visible = p_enabled ;
} break ;
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default : {
}
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}
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}
void VisualServerScene : : instance_geometry_set_cast_shadows_setting ( RID p_instance , VS : : ShadowCastingSetting p_shadow_casting_setting ) {
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Instance * instance = instance_owner . get ( p_instance ) ;
ERR_FAIL_COND ( ! instance ) ;
instance - > cast_shadows = p_shadow_casting_setting ;
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instance - > base_changed ( false , true ) ; // to actually compute if shadows are visible or not
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}
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void VisualServerScene : : instance_geometry_set_material_override ( RID p_instance , RID p_material ) {
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Instance * instance = instance_owner . get ( p_instance ) ;
ERR_FAIL_COND ( ! instance ) ;
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if ( instance - > material_override . is_valid ( ) ) {
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VSG : : storage - > material_remove_instance_owner ( instance - > material_override , instance ) ;
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}
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instance - > material_override = p_material ;
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instance - > base_changed ( false , true ) ;
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if ( instance - > material_override . is_valid ( ) ) {
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VSG : : storage - > material_add_instance_owner ( instance - > material_override , instance ) ;
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}
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}
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void VisualServerScene : : instance_geometry_set_draw_range ( RID p_instance , float p_min , float p_max , float p_min_margin , float p_max_margin ) {
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}
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void VisualServerScene : : instance_geometry_set_as_instance_lod ( RID p_instance , RID p_as_lod_of_instance ) {
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}
void VisualServerScene : : _update_instance ( Instance * p_instance ) {
p_instance - > version + + ;
if ( p_instance - > base_type = = VS : : INSTANCE_LIGHT ) {
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InstanceLightData * light = static_cast < InstanceLightData * > ( p_instance - > base_data ) ;
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VSG : : scene_render - > light_instance_set_transform ( light - > instance , p_instance - > transform ) ;
light - > shadow_dirty = true ;
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}
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if ( p_instance - > base_type = = VS : : INSTANCE_REFLECTION_PROBE ) {
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InstanceReflectionProbeData * reflection_probe = static_cast < InstanceReflectionProbeData * > ( p_instance - > base_data ) ;
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VSG : : scene_render - > reflection_probe_instance_set_transform ( reflection_probe - > instance , p_instance - > transform ) ;
reflection_probe - > reflection_dirty = true ;
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}
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if ( p_instance - > base_type = = VS : : INSTANCE_PARTICLES ) {
VSG : : storage - > particles_set_emission_transform ( p_instance - > base , p_instance - > transform ) ;
}
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if ( p_instance - > base_type = = VS : : INSTANCE_LIGHTMAP_CAPTURE ) {
InstanceLightmapCaptureData * capture = static_cast < InstanceLightmapCaptureData * > ( p_instance - > base_data ) ;
for ( List < InstanceLightmapCaptureData : : PairInfo > : : Element * E = capture - > geometries . front ( ) ; E ; E = E - > next ( ) ) {
_instance_queue_update ( E - > get ( ) . geometry , false , true ) ;
}
}
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if ( p_instance - > aabb . has_no_surface ( ) ) {
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return ;
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}
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if ( ( 1 < < p_instance - > base_type ) & VS : : INSTANCE_GEOMETRY_MASK ) {
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InstanceGeometryData * geom = static_cast < InstanceGeometryData * > ( p_instance - > base_data ) ;
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//make sure lights are updated if it casts shadow
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if ( geom - > can_cast_shadows ) {
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for ( List < Instance * > : : Element * E = geom - > lighting . front ( ) ; E ; E = E - > next ( ) ) {
InstanceLightData * light = static_cast < InstanceLightData * > ( E - > get ( ) - > base_data ) ;
light - > shadow_dirty = true ;
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}
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}
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if ( ! p_instance - > lightmap_capture & & geom - > lightmap_captures . size ( ) ) {
//affected by lightmap captures, must update capture info!
_update_instance_lightmap_captures ( p_instance ) ;
} else {
if ( ! p_instance - > lightmap_capture_data . empty ( ) ) {
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p_instance - > lightmap_capture_data . resize ( 0 ) ; //not in use, clear capture data
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}
}
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}
p_instance - > mirror = p_instance - > transform . basis . determinant ( ) < 0.0 ;
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AABB new_aabb ;
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new_aabb = p_instance - > transform . xform ( p_instance - > aabb ) ;
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p_instance - > transformed_aabb = new_aabb ;
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if ( ! p_instance - > scenario ) {
return ;
}
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if ( p_instance - > spatial_partition_id = = 0 ) {
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uint32_t base_type = 1 < < p_instance - > base_type ;
uint32_t pairable_mask = 0 ;
bool pairable = false ;
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if ( p_instance - > base_type = = VS : : INSTANCE_LIGHT | | p_instance - > base_type = = VS : : INSTANCE_REFLECTION_PROBE | | p_instance - > base_type = = VS : : INSTANCE_LIGHTMAP_CAPTURE ) {
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pairable_mask = p_instance - > visible ? VS : : INSTANCE_GEOMETRY_MASK : 0 ;
pairable = true ;
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}
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if ( p_instance - > base_type = = VS : : INSTANCE_GI_PROBE ) {
//lights and geometries
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pairable_mask = p_instance - > visible ? VS : : INSTANCE_GEOMETRY_MASK | ( 1 < < VS : : INSTANCE_LIGHT ) : 0 ;
pairable = true ;
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}
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// not inside octree
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p_instance - > spatial_partition_id = p_instance - > scenario - > sps - > create ( p_instance , new_aabb , 0 , pairable , base_type , pairable_mask ) ;
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} else {
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/*
if ( new_aabb = = p_instance - > data . transformed_aabb )
return ;
*/
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p_instance - > scenario - > sps - > move ( p_instance - > spatial_partition_id , new_aabb ) ;
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}
}
void VisualServerScene : : _update_instance_aabb ( Instance * p_instance ) {
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AABB new_aabb ;
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ERR_FAIL_COND ( p_instance - > base_type ! = VS : : INSTANCE_NONE & & ! p_instance - > base . is_valid ( ) ) ;
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switch ( p_instance - > base_type ) {
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case VisualServer : : INSTANCE_NONE : {
// do nothing
} break ;
case VisualServer : : INSTANCE_MESH : {
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if ( p_instance - > custom_aabb )
new_aabb = * p_instance - > custom_aabb ;
else
new_aabb = VSG : : storage - > mesh_get_aabb ( p_instance - > base , p_instance - > skeleton ) ;
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} break ;
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case VisualServer : : INSTANCE_MULTIMESH : {
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if ( p_instance - > custom_aabb )
new_aabb = * p_instance - > custom_aabb ;
else
new_aabb = VSG : : storage - > multimesh_get_aabb ( p_instance - > base ) ;
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} break ;
case VisualServer : : INSTANCE_IMMEDIATE : {
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if ( p_instance - > custom_aabb )
new_aabb = * p_instance - > custom_aabb ;
else
new_aabb = VSG : : storage - > immediate_get_aabb ( p_instance - > base ) ;
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} break ;
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case VisualServer : : INSTANCE_PARTICLES : {
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if ( p_instance - > custom_aabb )
new_aabb = * p_instance - > custom_aabb ;
else
new_aabb = VSG : : storage - > particles_get_aabb ( p_instance - > base ) ;
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} break ;
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case VisualServer : : INSTANCE_LIGHT : {
new_aabb = VSG : : storage - > light_get_aabb ( p_instance - > base ) ;
} break ;
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case VisualServer : : INSTANCE_REFLECTION_PROBE : {
new_aabb = VSG : : storage - > reflection_probe_get_aabb ( p_instance - > base ) ;
} break ;
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case VisualServer : : INSTANCE_GI_PROBE : {
new_aabb = VSG : : storage - > gi_probe_get_bounds ( p_instance - > base ) ;
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} break ;
case VisualServer : : INSTANCE_LIGHTMAP_CAPTURE : {
new_aabb = VSG : : storage - > lightmap_capture_get_bounds ( p_instance - > base ) ;
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} break ;
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default : {
}
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}
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// <Zylann> This is why I didn't re-use Instance::aabb to implement custom AABBs
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if ( p_instance - > extra_margin )
new_aabb . grow_by ( p_instance - > extra_margin ) ;
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p_instance - > aabb = new_aabb ;
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}
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_FORCE_INLINE_ static void _light_capture_sample_octree ( const RasterizerStorage : : LightmapCaptureOctree * p_octree , int p_cell_subdiv , const Vector3 & p_pos , const Vector3 & p_dir , float p_level , Vector3 & r_color , float & r_alpha ) {
static const Vector3 aniso_normal [ 6 ] = {
Vector3 ( - 1 , 0 , 0 ) ,
Vector3 ( 1 , 0 , 0 ) ,
Vector3 ( 0 , - 1 , 0 ) ,
Vector3 ( 0 , 1 , 0 ) ,
Vector3 ( 0 , 0 , - 1 ) ,
Vector3 ( 0 , 0 , 1 )
} ;
int size = 1 < < ( p_cell_subdiv - 1 ) ;
int clamp_v = size - 1 ;
//first of all, clamp
Vector3 pos ;
pos . x = CLAMP ( p_pos . x , 0 , clamp_v ) ;
pos . y = CLAMP ( p_pos . y , 0 , clamp_v ) ;
pos . z = CLAMP ( p_pos . z , 0 , clamp_v ) ;
float level = ( p_cell_subdiv - 1 ) - p_level ;
int target_level ;
float level_filter ;
if ( level < = 0.0 ) {
level_filter = 0 ;
target_level = 0 ;
} else {
target_level = Math : : ceil ( level ) ;
level_filter = target_level - level ;
}
Vector3 color [ 2 ] [ 8 ] ;
float alpha [ 2 ] [ 8 ] ;
zeromem ( alpha , sizeof ( float ) * 2 * 8 ) ;
//find cell at given level first
for ( int c = 0 ; c < 2 ; c + + ) {
int current_level = MAX ( 0 , target_level - c ) ;
int level_cell_size = ( 1 < < ( p_cell_subdiv - 1 ) ) > > current_level ;
for ( int n = 0 ; n < 8 ; n + + ) {
int x = int ( pos . x ) ;
int y = int ( pos . y ) ;
int z = int ( pos . z ) ;
if ( n & 1 )
x + = level_cell_size ;
if ( n & 2 )
y + = level_cell_size ;
if ( n & 4 )
z + = level_cell_size ;
int ofs_x = 0 ;
int ofs_y = 0 ;
int ofs_z = 0 ;
x = CLAMP ( x , 0 , clamp_v ) ;
y = CLAMP ( y , 0 , clamp_v ) ;
z = CLAMP ( z , 0 , clamp_v ) ;
int half = size / 2 ;
uint32_t cell = 0 ;
for ( int i = 0 ; i < current_level ; i + + ) {
const RasterizerStorage : : LightmapCaptureOctree * bc = & p_octree [ cell ] ;
int child = 0 ;
if ( x > = ofs_x + half ) {
child | = 1 ;
ofs_x + = half ;
}
if ( y > = ofs_y + half ) {
child | = 2 ;
ofs_y + = half ;
}
if ( z > = ofs_z + half ) {
child | = 4 ;
ofs_z + = half ;
}
cell = bc - > children [ child ] ;
if ( cell = = RasterizerStorage : : LightmapCaptureOctree : : CHILD_EMPTY )
break ;
half > > = 1 ;
}
if ( cell = = RasterizerStorage : : LightmapCaptureOctree : : CHILD_EMPTY ) {
alpha [ c ] [ n ] = 0 ;
} else {
alpha [ c ] [ n ] = p_octree [ cell ] . alpha ;
for ( int i = 0 ; i < 6 ; i + + ) {
//anisotropic read light
float amount = p_dir . dot ( aniso_normal [ i ] ) ;
if ( amount < 0 )
amount = 0 ;
color [ c ] [ n ] . x + = p_octree [ cell ] . light [ i ] [ 0 ] / 1024.0 * amount ;
color [ c ] [ n ] . y + = p_octree [ cell ] . light [ i ] [ 1 ] / 1024.0 * amount ;
color [ c ] [ n ] . z + = p_octree [ cell ] . light [ i ] [ 2 ] / 1024.0 * amount ;
}
}
//print_line("\tlev " + itos(c) + " - " + itos(n) + " alpha: " + rtos(cells[test_cell].alpha) + " col: " + color[c][n]);
}
}
float target_level_size = size > > target_level ;
Vector3 pos_fract [ 2 ] ;
pos_fract [ 0 ] . x = Math : : fmod ( pos . x , target_level_size ) / target_level_size ;
pos_fract [ 0 ] . y = Math : : fmod ( pos . y , target_level_size ) / target_level_size ;
pos_fract [ 0 ] . z = Math : : fmod ( pos . z , target_level_size ) / target_level_size ;
target_level_size = size > > MAX ( 0 , target_level - 1 ) ;
pos_fract [ 1 ] . x = Math : : fmod ( pos . x , target_level_size ) / target_level_size ;
pos_fract [ 1 ] . y = Math : : fmod ( pos . y , target_level_size ) / target_level_size ;
pos_fract [ 1 ] . z = Math : : fmod ( pos . z , target_level_size ) / target_level_size ;
float alpha_interp [ 2 ] ;
Vector3 color_interp [ 2 ] ;
for ( int i = 0 ; i < 2 ; i + + ) {
Vector3 color_x00 = color [ i ] [ 0 ] . linear_interpolate ( color [ i ] [ 1 ] , pos_fract [ i ] . x ) ;
Vector3 color_xy0 = color [ i ] [ 2 ] . linear_interpolate ( color [ i ] [ 3 ] , pos_fract [ i ] . x ) ;
Vector3 blend_z0 = color_x00 . linear_interpolate ( color_xy0 , pos_fract [ i ] . y ) ;
Vector3 color_x0z = color [ i ] [ 4 ] . linear_interpolate ( color [ i ] [ 5 ] , pos_fract [ i ] . x ) ;
Vector3 color_xyz = color [ i ] [ 6 ] . linear_interpolate ( color [ i ] [ 7 ] , pos_fract [ i ] . x ) ;
Vector3 blend_z1 = color_x0z . linear_interpolate ( color_xyz , pos_fract [ i ] . y ) ;
color_interp [ i ] = blend_z0 . linear_interpolate ( blend_z1 , pos_fract [ i ] . z ) ;
float alpha_x00 = Math : : lerp ( alpha [ i ] [ 0 ] , alpha [ i ] [ 1 ] , pos_fract [ i ] . x ) ;
float alpha_xy0 = Math : : lerp ( alpha [ i ] [ 2 ] , alpha [ i ] [ 3 ] , pos_fract [ i ] . x ) ;
float alpha_z0 = Math : : lerp ( alpha_x00 , alpha_xy0 , pos_fract [ i ] . y ) ;
float alpha_x0z = Math : : lerp ( alpha [ i ] [ 4 ] , alpha [ i ] [ 5 ] , pos_fract [ i ] . x ) ;
float alpha_xyz = Math : : lerp ( alpha [ i ] [ 6 ] , alpha [ i ] [ 7 ] , pos_fract [ i ] . x ) ;
float alpha_z1 = Math : : lerp ( alpha_x0z , alpha_xyz , pos_fract [ i ] . y ) ;
alpha_interp [ i ] = Math : : lerp ( alpha_z0 , alpha_z1 , pos_fract [ i ] . z ) ;
}
r_color = color_interp [ 0 ] . linear_interpolate ( color_interp [ 1 ] , level_filter ) ;
r_alpha = Math : : lerp ( alpha_interp [ 0 ] , alpha_interp [ 1 ] , level_filter ) ;
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//print_line("pos: " + p_posf + " level " + rtos(p_level) + " down to " + itos(target_level) + "." + rtos(level_filter) + " color " + r_color + " alpha " + rtos(r_alpha));
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}
_FORCE_INLINE_ static Color _light_capture_voxel_cone_trace ( const RasterizerStorage : : LightmapCaptureOctree * p_octree , const Vector3 & p_pos , const Vector3 & p_dir , float p_aperture , int p_cell_subdiv ) {
float bias = 0.0 ; //no need for bias here
float max_distance = ( Vector3 ( 1 , 1 , 1 ) * ( 1 < < ( p_cell_subdiv - 1 ) ) ) . length ( ) ;
float dist = bias ;
float alpha = 0.0 ;
Vector3 color ;
Vector3 scolor ;
float salpha ;
while ( dist < max_distance & & alpha < 0.95 ) {
float diameter = MAX ( 1.0 , 2.0 * p_aperture * dist ) ;
_light_capture_sample_octree ( p_octree , p_cell_subdiv , p_pos + dist * p_dir , p_dir , log2 ( diameter ) , scolor , salpha ) ;
float a = ( 1.0 - alpha ) ;
color + = scolor * a ;
alpha + = a * salpha ;
dist + = diameter * 0.5 ;
}
return Color ( color . x , color . y , color . z , alpha ) ;
}
void VisualServerScene : : _update_instance_lightmap_captures ( Instance * p_instance ) {
InstanceGeometryData * geom = static_cast < InstanceGeometryData * > ( p_instance - > base_data ) ;
static const Vector3 cone_traces [ 12 ] = {
Vector3 ( 0 , 0 , 1 ) ,
Vector3 ( 0.866025 , 0 , 0.5 ) ,
Vector3 ( 0.267617 , 0.823639 , 0.5 ) ,
Vector3 ( - 0.700629 , 0.509037 , 0.5 ) ,
Vector3 ( - 0.700629 , - 0.509037 , 0.5 ) ,
Vector3 ( 0.267617 , - 0.823639 , 0.5 ) ,
Vector3 ( 0 , 0 , - 1 ) ,
Vector3 ( 0.866025 , 0 , - 0.5 ) ,
Vector3 ( 0.267617 , 0.823639 , - 0.5 ) ,
Vector3 ( - 0.700629 , 0.509037 , - 0.5 ) ,
Vector3 ( - 0.700629 , - 0.509037 , - 0.5 ) ,
Vector3 ( 0.267617 , - 0.823639 , - 0.5 )
} ;
float cone_aperture = 0.577 ; // tan(angle) 60 degrees
if ( p_instance - > lightmap_capture_data . empty ( ) ) {
p_instance - > lightmap_capture_data . resize ( 12 ) ;
}
//print_line("update captures for pos: " + p_instance->transform.origin);
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for ( int i = 0 ; i < 12 ; i + + )
new ( & p_instance - > lightmap_capture_data . ptrw ( ) [ i ] ) Color ;
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bool interior = true ;
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//this could use some sort of blending..
for ( List < Instance * > : : Element * E = geom - > lightmap_captures . front ( ) ; E ; E = E - > next ( ) ) {
const PoolVector < RasterizerStorage : : LightmapCaptureOctree > * octree = VSG : : storage - > lightmap_capture_get_octree_ptr ( E - > get ( ) - > base ) ;
//print_line("octree size: " + itos(octree->size()));
if ( octree - > size ( ) = = 0 )
continue ;
Transform to_cell_xform = VSG : : storage - > lightmap_capture_get_octree_cell_transform ( E - > get ( ) - > base ) ;
int cell_subdiv = VSG : : storage - > lightmap_capture_get_octree_cell_subdiv ( E - > get ( ) - > base ) ;
to_cell_xform = to_cell_xform * E - > get ( ) - > transform . affine_inverse ( ) ;
PoolVector < RasterizerStorage : : LightmapCaptureOctree > : : Read octree_r = octree - > read ( ) ;
Vector3 pos = to_cell_xform . xform ( p_instance - > transform . origin ) ;
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const float capture_energy = VSG : : storage - > lightmap_capture_get_energy ( E - > get ( ) - > base ) ;
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interior = interior & & VSG : : storage - > lightmap_capture_is_interior ( E - > get ( ) - > base ) ;
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for ( int i = 0 ; i < 12 ; i + + ) {
Vector3 dir = to_cell_xform . basis . xform ( cone_traces [ i ] ) . normalized ( ) ;
Color capture = _light_capture_voxel_cone_trace ( octree_r . ptr ( ) , pos , dir , cone_aperture , cell_subdiv ) ;
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capture . r * = capture_energy ;
capture . g * = capture_energy ;
capture . b * = capture_energy ;
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p_instance - > lightmap_capture_data . write [ i ] + = capture ;
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}
}
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p_instance - > lightmap_capture_data . write [ 0 ] . a = interior ? 0.0f : 1.0f ;
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}
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bool VisualServerScene : : _light_instance_update_shadow ( Instance * p_instance , const Transform p_cam_transform , const CameraMatrix & p_cam_projection , bool p_cam_orthogonal , RID p_shadow_atlas , Scenario * p_scenario ) {
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InstanceLightData * light = static_cast < InstanceLightData * > ( p_instance - > base_data ) ;
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Transform light_transform = p_instance - > transform ;
light_transform . orthonormalize ( ) ; //scale does not count on lights
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bool animated_material_found = false ;
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switch ( VSG : : storage - > light_get_type ( p_instance - > base ) ) {
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case VS : : LIGHT_DIRECTIONAL : {
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float max_distance = p_cam_projection . get_z_far ( ) ;
float shadow_max = VSG : : storage - > light_get_param ( p_instance - > base , VS : : LIGHT_PARAM_SHADOW_MAX_DISTANCE ) ;
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if ( shadow_max > 0 & & ! p_cam_orthogonal ) { //its impractical (and leads to unwanted behaviors) to set max distance in orthogonal camera
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max_distance = MIN ( shadow_max , max_distance ) ;
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}
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max_distance = MAX ( max_distance , p_cam_projection . get_z_near ( ) + 0.001 ) ;
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float min_distance = MIN ( p_cam_projection . get_z_near ( ) , max_distance ) ;
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VS : : LightDirectionalShadowDepthRangeMode depth_range_mode = VSG : : storage - > light_directional_get_shadow_depth_range_mode ( p_instance - > base ) ;
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if ( depth_range_mode = = VS : : LIGHT_DIRECTIONAL_SHADOW_DEPTH_RANGE_OPTIMIZED ) {
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//optimize min/max
Vector < Plane > planes = p_cam_projection . get_projection_planes ( p_cam_transform ) ;
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int cull_count = p_scenario - > sps - > cull_convex ( planes , instance_shadow_cull_result , MAX_INSTANCE_CULL , VS : : INSTANCE_GEOMETRY_MASK ) ;
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Plane base ( p_cam_transform . origin , - p_cam_transform . basis . get_axis ( 2 ) ) ;
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//check distance max and min
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bool found_items = false ;
float z_max = - 1e20 ;
float z_min = 1e20 ;
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for ( int i = 0 ; i < cull_count ; i + + ) {
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Instance * instance = instance_shadow_cull_result [ i ] ;
if ( ! instance - > visible | | ! ( ( 1 < < instance - > base_type ) & VS : : INSTANCE_GEOMETRY_MASK ) | | ! static_cast < InstanceGeometryData * > ( instance - > base_data ) - > can_cast_shadows ) {
continue ;
}
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if ( static_cast < InstanceGeometryData * > ( instance - > base_data ) - > material_is_animated ) {
animated_material_found = true ;
}
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float max , min ;
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instance - > transformed_aabb . project_range_in_plane ( base , min , max ) ;
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if ( max > z_max ) {
z_max = max ;
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}
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if ( min < z_min ) {
z_min = min ;
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}
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found_items = true ;
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}
if ( found_items ) {
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min_distance = MAX ( min_distance , z_min ) ;
max_distance = MIN ( max_distance , z_max ) ;
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}
}
float range = max_distance - min_distance ;
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int splits = 0 ;
switch ( VSG : : storage - > light_directional_get_shadow_mode ( p_instance - > base ) ) {
case VS : : LIGHT_DIRECTIONAL_SHADOW_ORTHOGONAL : splits = 1 ; break ;
case VS : : LIGHT_DIRECTIONAL_SHADOW_PARALLEL_2_SPLITS : splits = 2 ; break ;
case VS : : LIGHT_DIRECTIONAL_SHADOW_PARALLEL_4_SPLITS : splits = 4 ; break ;
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}
float distances [ 5 ] ;
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distances [ 0 ] = min_distance ;
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for ( int i = 0 ; i < splits ; i + + ) {
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distances [ i + 1 ] = min_distance + VSG : : storage - > light_get_param ( p_instance - > base , VS : : LightParam ( VS : : LIGHT_PARAM_SHADOW_SPLIT_1_OFFSET + i ) ) * range ;
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} ;
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distances [ splits ] = max_distance ;
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float texture_size = VSG : : scene_render - > get_directional_light_shadow_size ( light - > instance ) ;
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bool overlap = VSG : : storage - > light_directional_get_blend_splits ( p_instance - > base ) ;
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float first_radius = 0.0 ;
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for ( int i = 0 ; i < splits ; i + + ) {
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// setup a camera matrix for that range!
CameraMatrix camera_matrix ;
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float aspect = p_cam_projection . get_aspect ( ) ;
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if ( p_cam_orthogonal ) {
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Vector2 vp_he = p_cam_projection . get_viewport_half_extents ( ) ;
camera_matrix . set_orthogonal ( vp_he . y * 2.0 , aspect , distances [ ( i = = 0 | | ! overlap ) ? i : i - 1 ] , distances [ i + 1 ] , false ) ;
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} else {
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float fov = p_cam_projection . get_fov ( ) ;
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camera_matrix . set_perspective ( fov , aspect , distances [ ( i = = 0 | | ! overlap ) ? i : i - 1 ] , distances [ i + 1 ] , false ) ;
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}
//obtain the frustum endpoints
Vector3 endpoints [ 8 ] ; // frustum plane endpoints
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bool res = camera_matrix . get_endpoints ( p_cam_transform , endpoints ) ;
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ERR_CONTINUE ( ! res ) ;
// obtain the light frustm ranges (given endpoints)
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Transform transform = light_transform ; //discard scale and stabilize light
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Vector3 x_vec = transform . basis . get_axis ( Vector3 : : AXIS_X ) . normalized ( ) ;
Vector3 y_vec = transform . basis . get_axis ( Vector3 : : AXIS_Y ) . normalized ( ) ;
Vector3 z_vec = transform . basis . get_axis ( Vector3 : : AXIS_Z ) . normalized ( ) ;
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//z_vec points agsint the camera, like in default opengl
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float x_min = 0.f , x_max = 0.f ;
float y_min = 0.f , y_max = 0.f ;
float z_min = 0.f , z_max = 0.f ;
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// FIXME: z_max_cam is defined, computed, but not used below when setting up
// ortho_camera. Commented out for now to fix warnings but should be investigated.
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float x_min_cam = 0.f , x_max_cam = 0.f ;
float y_min_cam = 0.f , y_max_cam = 0.f ;
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float z_min_cam = 0.f ;
//float z_max_cam = 0.f;
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float bias_scale = 1.0 ;
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//used for culling
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for ( int j = 0 ; j < 8 ; j + + ) {
float d_x = x_vec . dot ( endpoints [ j ] ) ;
float d_y = y_vec . dot ( endpoints [ j ] ) ;
float d_z = z_vec . dot ( endpoints [ j ] ) ;
if ( j = = 0 | | d_x < x_min )
x_min = d_x ;
if ( j = = 0 | | d_x > x_max )
x_max = d_x ;
if ( j = = 0 | | d_y < y_min )
y_min = d_y ;
if ( j = = 0 | | d_y > y_max )
y_max = d_y ;
if ( j = = 0 | | d_z < z_min )
z_min = d_z ;
if ( j = = 0 | | d_z > z_max )
z_max = d_z ;
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}
{
//camera viewport stuff
Vector3 center ;
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for ( int j = 0 ; j < 8 ; j + + ) {
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center + = endpoints [ j ] ;
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}
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center / = 8.0 ;
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//center=x_vec*(x_max-x_min)*0.5 + y_vec*(y_max-y_min)*0.5 + z_vec*(z_max-z_min)*0.5;
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float radius = 0 ;
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for ( int j = 0 ; j < 8 ; j + + ) {
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float d = center . distance_to ( endpoints [ j ] ) ;
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if ( d > radius )
radius = d ;
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}
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radius * = texture_size / ( texture_size - 2.0 ) ; //add a texel by each side
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if ( i = = 0 ) {
first_radius = radius ;
} else {
bias_scale = radius / first_radius ;
}
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x_max_cam = x_vec . dot ( center ) + radius ;
x_min_cam = x_vec . dot ( center ) - radius ;
y_max_cam = y_vec . dot ( center ) + radius ;
y_min_cam = y_vec . dot ( center ) - radius ;
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//z_max_cam = z_vec.dot(center) + radius;
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z_min_cam = z_vec . dot ( center ) - radius ;
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if ( depth_range_mode = = VS : : LIGHT_DIRECTIONAL_SHADOW_DEPTH_RANGE_STABLE ) {
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//this trick here is what stabilizes the shadow (make potential jaggies to not move)
//at the cost of some wasted resolution. Still the quality increase is very well worth it
float unit = radius * 2.0 / texture_size ;
x_max_cam = Math : : stepify ( x_max_cam , unit ) ;
x_min_cam = Math : : stepify ( x_min_cam , unit ) ;
y_max_cam = Math : : stepify ( y_max_cam , unit ) ;
y_min_cam = Math : : stepify ( y_min_cam , unit ) ;
}
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}
//now that we now all ranges, we can proceed to make the light frustum planes, for culling octree
Vector < Plane > light_frustum_planes ;
light_frustum_planes . resize ( 6 ) ;
//right/left
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light_frustum_planes . write [ 0 ] = Plane ( x_vec , x_max ) ;
light_frustum_planes . write [ 1 ] = Plane ( - x_vec , - x_min ) ;
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//top/bottom
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light_frustum_planes . write [ 2 ] = Plane ( y_vec , y_max ) ;
light_frustum_planes . write [ 3 ] = Plane ( - y_vec , - y_min ) ;
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//near/far
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light_frustum_planes . write [ 4 ] = Plane ( z_vec , z_max + 1e6 ) ;
light_frustum_planes . write [ 5 ] = Plane ( - z_vec , - z_min ) ; // z_min is ok, since casters further than far-light plane are not needed
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int cull_count = p_scenario - > sps - > cull_convex ( light_frustum_planes , instance_shadow_cull_result , MAX_INSTANCE_CULL , VS : : INSTANCE_GEOMETRY_MASK ) ;
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// a pre pass will need to be needed to determine the actual z-near to be used
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Plane near_plane ( light_transform . origin , - light_transform . basis . get_axis ( 2 ) ) ;
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for ( int j = 0 ; j < cull_count ; j + + ) {
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float min , max ;
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Instance * instance = instance_shadow_cull_result [ j ] ;
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if ( ! instance - > visible | | ! ( ( 1 < < instance - > base_type ) & VS : : INSTANCE_GEOMETRY_MASK ) | | ! static_cast < InstanceGeometryData * > ( instance - > base_data ) - > can_cast_shadows ) {
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cull_count - - ;
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SWAP ( instance_shadow_cull_result [ j ] , instance_shadow_cull_result [ cull_count ] ) ;
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j - - ;
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continue ;
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}
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instance - > transformed_aabb . project_range_in_plane ( Plane ( z_vec , 0 ) , min , max ) ;
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instance - > depth = near_plane . distance_to ( instance - > transform . origin ) ;
instance - > depth_layer = 0 ;
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if ( max > z_max )
z_max = max ;
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}
{
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CameraMatrix ortho_camera ;
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real_t half_x = ( x_max_cam - x_min_cam ) * 0.5 ;
real_t half_y = ( y_max_cam - y_min_cam ) * 0.5 ;
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ortho_camera . set_orthogonal ( - half_x , half_x , - half_y , half_y , 0 , ( z_max - z_min_cam ) ) ;
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Transform ortho_transform ;
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ortho_transform . basis = transform . basis ;
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ortho_transform . origin = x_vec * ( x_min_cam + half_x ) + y_vec * ( y_min_cam + half_y ) + z_vec * z_max ;
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VSG : : scene_render - > light_instance_set_shadow_transform ( light - > instance , ortho_camera , ortho_transform , 0 , distances [ i + 1 ] , i , bias_scale ) ;
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}
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VSG : : scene_render - > render_shadow ( light - > instance , p_shadow_atlas , i , ( RasterizerScene : : InstanceBase * * ) instance_shadow_cull_result , cull_count ) ;
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}
} break ;
case VS : : LIGHT_OMNI : {
VS : : LightOmniShadowMode shadow_mode = VSG : : storage - > light_omni_get_shadow_mode ( p_instance - > base ) ;
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if ( shadow_mode = = VS : : LIGHT_OMNI_SHADOW_DUAL_PARABOLOID | | ! VSG : : scene_render - > light_instances_can_render_shadow_cube ( ) ) {
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for ( int i = 0 ; i < 2 ; i + + ) {
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//using this one ensures that raster deferred will have it
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float radius = VSG : : storage - > light_get_param ( p_instance - > base , VS : : LIGHT_PARAM_RANGE ) ;
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float z = i = = 0 ? - 1 : 1 ;
Vector < Plane > planes ;
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planes . resize ( 6 ) ;
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planes . write [ 0 ] = light_transform . xform ( Plane ( Vector3 ( 0 , 0 , z ) , radius ) ) ;
planes . write [ 1 ] = light_transform . xform ( Plane ( Vector3 ( 1 , 0 , z ) . normalized ( ) , radius ) ) ;
planes . write [ 2 ] = light_transform . xform ( Plane ( Vector3 ( - 1 , 0 , z ) . normalized ( ) , radius ) ) ;
planes . write [ 3 ] = light_transform . xform ( Plane ( Vector3 ( 0 , 1 , z ) . normalized ( ) , radius ) ) ;
planes . write [ 4 ] = light_transform . xform ( Plane ( Vector3 ( 0 , - 1 , z ) . normalized ( ) , radius ) ) ;
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planes . write [ 5 ] = light_transform . xform ( Plane ( Vector3 ( 0 , 0 , - z ) , 0 ) ) ;
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int cull_count = p_scenario - > sps - > cull_convex ( planes , instance_shadow_cull_result , MAX_INSTANCE_CULL , VS : : INSTANCE_GEOMETRY_MASK ) ;
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Plane near_plane ( light_transform . origin , light_transform . basis . get_axis ( 2 ) * z ) ;
for ( int j = 0 ; j < cull_count ; j + + ) {
Instance * instance = instance_shadow_cull_result [ j ] ;
if ( ! instance - > visible | | ! ( ( 1 < < instance - > base_type ) & VS : : INSTANCE_GEOMETRY_MASK ) | | ! static_cast < InstanceGeometryData * > ( instance - > base_data ) - > can_cast_shadows ) {
cull_count - - ;
SWAP ( instance_shadow_cull_result [ j ] , instance_shadow_cull_result [ cull_count ] ) ;
j - - ;
} else {
if ( static_cast < InstanceGeometryData * > ( instance - > base_data ) - > material_is_animated ) {
animated_material_found = true ;
}
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instance - > depth = near_plane . distance_to ( instance - > transform . origin ) ;
instance - > depth_layer = 0 ;
}
}
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VSG : : scene_render - > light_instance_set_shadow_transform ( light - > instance , CameraMatrix ( ) , light_transform , radius , 0 , i ) ;
VSG : : scene_render - > render_shadow ( light - > instance , p_shadow_atlas , i , ( RasterizerScene : : InstanceBase * * ) instance_shadow_cull_result , cull_count ) ;
}
} else { //shadow cube
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float radius = VSG : : storage - > light_get_param ( p_instance - > base , VS : : LIGHT_PARAM_RANGE ) ;
CameraMatrix cm ;
cm . set_perspective ( 90 , 1 , 0.01 , radius ) ;
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for ( int i = 0 ; i < 6 ; i + + ) {
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//using this one ensures that raster deferred will have it
static const Vector3 view_normals [ 6 ] = {
Vector3 ( - 1 , 0 , 0 ) ,
Vector3 ( + 1 , 0 , 0 ) ,
Vector3 ( 0 , - 1 , 0 ) ,
Vector3 ( 0 , + 1 , 0 ) ,
Vector3 ( 0 , 0 , - 1 ) ,
Vector3 ( 0 , 0 , + 1 )
} ;
static const Vector3 view_up [ 6 ] = {
Vector3 ( 0 , - 1 , 0 ) ,
Vector3 ( 0 , - 1 , 0 ) ,
Vector3 ( 0 , 0 , - 1 ) ,
Vector3 ( 0 , 0 , + 1 ) ,
Vector3 ( 0 , - 1 , 0 ) ,
Vector3 ( 0 , - 1 , 0 )
} ;
Transform xform = light_transform * Transform ( ) . looking_at ( view_normals [ i ] , view_up [ i ] ) ;
Vector < Plane > planes = cm . get_projection_planes ( xform ) ;
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int cull_count = p_scenario - > sps - > cull_convex ( planes , instance_shadow_cull_result , MAX_INSTANCE_CULL , VS : : INSTANCE_GEOMETRY_MASK ) ;
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Plane near_plane ( xform . origin , - xform . basis . get_axis ( 2 ) ) ;
for ( int j = 0 ; j < cull_count ; j + + ) {
Instance * instance = instance_shadow_cull_result [ j ] ;
if ( ! instance - > visible | | ! ( ( 1 < < instance - > base_type ) & VS : : INSTANCE_GEOMETRY_MASK ) | | ! static_cast < InstanceGeometryData * > ( instance - > base_data ) - > can_cast_shadows ) {
cull_count - - ;
SWAP ( instance_shadow_cull_result [ j ] , instance_shadow_cull_result [ cull_count ] ) ;
j - - ;
} else {
if ( static_cast < InstanceGeometryData * > ( instance - > base_data ) - > material_is_animated ) {
animated_material_found = true ;
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}
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instance - > depth = near_plane . distance_to ( instance - > transform . origin ) ;
instance - > depth_layer = 0 ;
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}
}
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VSG : : scene_render - > light_instance_set_shadow_transform ( light - > instance , cm , xform , radius , 0 , i ) ;
VSG : : scene_render - > render_shadow ( light - > instance , p_shadow_atlas , i , ( RasterizerScene : : InstanceBase * * ) instance_shadow_cull_result , cull_count ) ;
}
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//restore the regular DP matrix
VSG : : scene_render - > light_instance_set_shadow_transform ( light - > instance , CameraMatrix ( ) , light_transform , radius , 0 , 0 ) ;
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}
} break ;
case VS : : LIGHT_SPOT : {
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float radius = VSG : : storage - > light_get_param ( p_instance - > base , VS : : LIGHT_PARAM_RANGE ) ;
float angle = VSG : : storage - > light_get_param ( p_instance - > base , VS : : LIGHT_PARAM_SPOT_ANGLE ) ;
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CameraMatrix cm ;
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cm . set_perspective ( angle * 2.0 , 1.0 , 0.01 , radius ) ;
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Vector < Plane > planes = cm . get_projection_planes ( light_transform ) ;
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int cull_count = p_scenario - > sps - > cull_convex ( planes , instance_shadow_cull_result , MAX_INSTANCE_CULL , VS : : INSTANCE_GEOMETRY_MASK ) ;
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Plane near_plane ( light_transform . origin , - light_transform . basis . get_axis ( 2 ) ) ;
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for ( int j = 0 ; j < cull_count ; j + + ) {
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Instance * instance = instance_shadow_cull_result [ j ] ;
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if ( ! instance - > visible | | ! ( ( 1 < < instance - > base_type ) & VS : : INSTANCE_GEOMETRY_MASK ) | | ! static_cast < InstanceGeometryData * > ( instance - > base_data ) - > can_cast_shadows ) {
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cull_count - - ;
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SWAP ( instance_shadow_cull_result [ j ] , instance_shadow_cull_result [ cull_count ] ) ;
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j - - ;
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} else {
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if ( static_cast < InstanceGeometryData * > ( instance - > base_data ) - > material_is_animated ) {
animated_material_found = true ;
}
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instance - > depth = near_plane . distance_to ( instance - > transform . origin ) ;
instance - > depth_layer = 0 ;
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}
}
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VSG : : scene_render - > light_instance_set_shadow_transform ( light - > instance , cm , light_transform , radius , 0 , 0 ) ;
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VSG : : scene_render - > render_shadow ( light - > instance , p_shadow_atlas , 0 , ( RasterizerScene : : InstanceBase * * ) instance_shadow_cull_result , cull_count ) ;
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} break ;
}
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return animated_material_found ;
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}
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void VisualServerScene : : render_camera ( RID p_camera , RID p_scenario , Size2 p_viewport_size , RID p_shadow_atlas ) {
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// render to mono camera
# ifndef _3D_DISABLED
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Camera * camera = camera_owner . getornull ( p_camera ) ;
ERR_FAIL_COND ( ! camera ) ;
/* STEP 1 - SETUP CAMERA */
CameraMatrix camera_matrix ;
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bool ortho = false ;
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switch ( camera - > type ) {
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case Camera : : ORTHOGONAL : {
camera_matrix . set_orthogonal (
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camera - > size ,
p_viewport_size . width / ( float ) p_viewport_size . height ,
camera - > znear ,
camera - > zfar ,
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camera - > vaspect ) ;
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ortho = true ;
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} break ;
case Camera : : PERSPECTIVE : {
camera_matrix . set_perspective (
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camera - > fov ,
p_viewport_size . width / ( float ) p_viewport_size . height ,
camera - > znear ,
camera - > zfar ,
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camera - > vaspect ) ;
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ortho = false ;
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} break ;
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case Camera : : FRUSTUM : {
camera_matrix . set_frustum (
camera - > size ,
p_viewport_size . width / ( float ) p_viewport_size . height ,
camera - > offset ,
camera - > znear ,
camera - > zfar ,
camera - > vaspect ) ;
ortho = false ;
} break ;
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}
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_prepare_scene ( camera - > transform , camera_matrix , ortho , camera - > env , camera - > visible_layers , p_scenario , p_shadow_atlas , RID ( ) ) ;
_render_scene ( camera - > transform , camera_matrix , ortho , camera - > env , p_scenario , p_shadow_atlas , RID ( ) , - 1 ) ;
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# endif
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}
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void VisualServerScene : : render_camera ( Ref < ARVRInterface > & p_interface , ARVRInterface : : Eyes p_eye , RID p_camera , RID p_scenario , Size2 p_viewport_size , RID p_shadow_atlas ) {
// render for AR/VR interface
Camera * camera = camera_owner . getornull ( p_camera ) ;
ERR_FAIL_COND ( ! camera ) ;
/* SETUP CAMERA, we are ignoring type and FOV here */
float aspect = p_viewport_size . width / ( float ) p_viewport_size . height ;
CameraMatrix camera_matrix = p_interface - > get_projection_for_eye ( p_eye , aspect , camera - > znear , camera - > zfar ) ;
// We also ignore our camera position, it will have been positioned with a slightly old tracking position.
// Instead we take our origin point and have our ar/vr interface add fresh tracking data! Whoohoo!
Transform world_origin = ARVRServer : : get_singleton ( ) - > get_world_origin ( ) ;
Transform cam_transform = p_interface - > get_transform_for_eye ( p_eye , world_origin ) ;
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// For stereo render we only prepare for our left eye and then reuse the outcome for our right eye
if ( p_eye = = ARVRInterface : : EYE_LEFT ) {
///@TODO possibly move responsibility for this into our ARVRServer or ARVRInterface?
// Center our transform, we assume basis is equal.
Transform mono_transform = cam_transform ;
Transform right_transform = p_interface - > get_transform_for_eye ( ARVRInterface : : EYE_RIGHT , world_origin ) ;
mono_transform . origin + = right_transform . origin ;
mono_transform . origin * = 0.5 ;
// We need to combine our projection frustums for culling.
// Ideally we should use our clipping planes for this and combine them,
// however our shadow map logic uses our projection matrix.
// Note: as our left and right frustums should be mirrored, we don't need our right projection matrix.
// - get some base values we need
float eye_dist = ( mono_transform . origin - cam_transform . origin ) . length ( ) ;
float z_near = camera_matrix . get_z_near ( ) ; // get our near plane
float z_far = camera_matrix . get_z_far ( ) ; // get our far plane
float width = ( 2.0 * z_near ) / camera_matrix . matrix [ 0 ] [ 0 ] ;
float x_shift = width * camera_matrix . matrix [ 2 ] [ 0 ] ;
float height = ( 2.0 * z_near ) / camera_matrix . matrix [ 1 ] [ 1 ] ;
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float y_shift = height * camera_matrix . matrix [ 2 ] [ 1 ] ;
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// printf("Eye_dist = %f, Near = %f, Far = %f, Width = %f, Shift = %f\n", eye_dist, z_near, z_far, width, x_shift);
// - calculate our near plane size (horizontal only, right_near is mirrored)
float left_near = - eye_dist - ( ( width - x_shift ) * 0.5 ) ;
// - calculate our far plane size (horizontal only, right_far is mirrored)
float left_far = - eye_dist - ( z_far * ( width - x_shift ) * 0.5 / z_near ) ;
float left_far_right_eye = eye_dist - ( z_far * ( width + x_shift ) * 0.5 / z_near ) ;
if ( left_far > left_far_right_eye ) {
// on displays smaller then double our iod, the right eye far frustrum can overtake the left eyes.
left_far = left_far_right_eye ;
}
// - figure out required z-shift
float slope = ( left_far - left_near ) / ( z_far - z_near ) ;
float z_shift = ( left_near / slope ) - z_near ;
// - figure out new vertical near plane size (this will be slightly oversized thanks to our z-shift)
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float top_near = ( height - y_shift ) * 0.5 ;
top_near + = ( top_near / z_near ) * z_shift ;
float bottom_near = - ( height + y_shift ) * 0.5 ;
bottom_near + = ( bottom_near / z_near ) * z_shift ;
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// printf("Left_near = %f, Left_far = %f, Top_near = %f, Bottom_near = %f, Z_shift = %f\n", left_near, left_far, top_near, bottom_near, z_shift);
// - generate our frustum
CameraMatrix combined_matrix ;
combined_matrix . set_frustum ( left_near , - left_near , bottom_near , top_near , z_near + z_shift , z_far + z_shift ) ;
// and finally move our camera back
Transform apply_z_shift ;
apply_z_shift . origin = Vector3 ( 0.0 , 0.0 , z_shift ) ; // z negative is forward so this moves it backwards
mono_transform * = apply_z_shift ;
// now prepare our scene with our adjusted transform projection matrix
_prepare_scene ( mono_transform , combined_matrix , false , camera - > env , camera - > visible_layers , p_scenario , p_shadow_atlas , RID ( ) ) ;
} else if ( p_eye = = ARVRInterface : : EYE_MONO ) {
// For mono render, prepare as per usual
_prepare_scene ( cam_transform , camera_matrix , false , camera - > env , camera - > visible_layers , p_scenario , p_shadow_atlas , RID ( ) ) ;
}
// And render our scene...
_render_scene ( cam_transform , camera_matrix , false , camera - > env , p_scenario , p_shadow_atlas , RID ( ) , - 1 ) ;
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} ;
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void VisualServerScene : : _prepare_scene ( const Transform p_cam_transform , const CameraMatrix & p_cam_projection , bool p_cam_orthogonal , RID p_force_environment , uint32_t p_visible_layers , RID p_scenario , RID p_shadow_atlas , RID p_reflection_probe ) {
// Note, in stereo rendering:
// - p_cam_transform will be a transform in the middle of our two eyes
// - p_cam_projection is a wider frustrum that encompasses both eyes
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Scenario * scenario = scenario_owner . getornull ( p_scenario ) ;
render_pass + + ;
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uint32_t camera_layer_mask = p_visible_layers ;
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VSG : : scene_render - > set_scene_pass ( render_pass ) ;
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//rasterizer->set_camera(camera->transform, camera_matrix,ortho);
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Vector < Plane > planes = p_cam_projection . get_projection_planes ( p_cam_transform ) ;
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Plane near_plane ( p_cam_transform . origin , - p_cam_transform . basis . get_axis ( 2 ) . normalized ( ) ) ;
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float z_far = p_cam_projection . get_z_far ( ) ;
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/* STEP 2 - CULL */
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instance_cull_count = scenario - > sps - > cull_convex ( planes , instance_cull_result , MAX_INSTANCE_CULL ) ;
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light_cull_count = 0 ;
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reflection_probe_cull_count = 0 ;
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//light_samplers_culled=0;
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/*
print_line ( " OT: " + rtos ( ( OS : : get_singleton ( ) - > get_ticks_usec ( ) - t ) / 1000.0 ) ) ;
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print_line ( " OTO: " + itos ( p_scenario - > octree . get_octant_count ( ) ) ) ;
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print_line ( " OTE: " + itos ( p_scenario - > octree . get_elem_count ( ) ) ) ;
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print_line ( " OTP: " + itos ( p_scenario - > octree . get_pair_count ( ) ) ) ;
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*/
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/* STEP 3 - PROCESS PORTALS, VALIDATE ROOMS */
//removed, will replace with culling
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/* STEP 4 - REMOVE FURTHER CULLED OBJECTS, ADD LIGHTS */
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for ( int i = 0 ; i < instance_cull_count ; i + + ) {
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Instance * ins = instance_cull_result [ i ] ;
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bool keep = false ;
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if ( ( camera_layer_mask & ins - > layer_mask ) = = 0 ) {
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//failure
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} else if ( ins - > base_type = = VS : : INSTANCE_LIGHT & & ins - > visible ) {
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if ( light_cull_count < MAX_LIGHTS_CULLED ) {
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InstanceLightData * light = static_cast < InstanceLightData * > ( ins - > base_data ) ;
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if ( ! light - > geometries . empty ( ) ) {
//do not add this light if no geometry is affected by it..
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light_cull_result [ light_cull_count ] = ins ;
light_instance_cull_result [ light_cull_count ] = light - > instance ;
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if ( p_shadow_atlas . is_valid ( ) & & VSG : : storage - > light_has_shadow ( ins - > base ) ) {
VSG : : scene_render - > light_instance_mark_visible ( light - > instance ) ; //mark it visible for shadow allocation later
}
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light_cull_count + + ;
}
}
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} else if ( ins - > base_type = = VS : : INSTANCE_REFLECTION_PROBE & & ins - > visible ) {
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if ( reflection_probe_cull_count < MAX_REFLECTION_PROBES_CULLED ) {
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InstanceReflectionProbeData * reflection_probe = static_cast < InstanceReflectionProbeData * > ( ins - > base_data ) ;
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if ( p_reflection_probe ! = reflection_probe - > instance ) {
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//avoid entering The Matrix
if ( ! reflection_probe - > geometries . empty ( ) ) {
//do not add this light if no geometry is affected by it..
if ( reflection_probe - > reflection_dirty | | VSG : : scene_render - > reflection_probe_instance_needs_redraw ( reflection_probe - > instance ) ) {
if ( ! reflection_probe - > update_list . in_list ( ) ) {
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reflection_probe - > render_step = 0 ;
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reflection_probe_render_list . add_last ( & reflection_probe - > update_list ) ;
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}
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reflection_probe - > reflection_dirty = false ;
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}
if ( VSG : : scene_render - > reflection_probe_instance_has_reflection ( reflection_probe - > instance ) ) {
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reflection_probe_instance_cull_result [ reflection_probe_cull_count ] = reflection_probe - > instance ;
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reflection_probe_cull_count + + ;
}
}
}
}
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} else if ( ins - > base_type = = VS : : INSTANCE_GI_PROBE & & ins - > visible ) {
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InstanceGIProbeData * gi_probe = static_cast < InstanceGIProbeData * > ( ins - > base_data ) ;
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if ( ! gi_probe - > update_element . in_list ( ) ) {
gi_probe_update_list . add ( & gi_probe - > update_element ) ;
}
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} else if ( ( ( 1 < < ins - > base_type ) & VS : : INSTANCE_GEOMETRY_MASK ) & & ins - > visible & & ins - > cast_shadows ! = VS : : SHADOW_CASTING_SETTING_SHADOWS_ONLY ) {
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keep = true ;
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InstanceGeometryData * geom = static_cast < InstanceGeometryData * > ( ins - > base_data ) ;
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if ( ins - > redraw_if_visible ) {
VisualServerRaster : : redraw_request ( ) ;
}
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if ( ins - > base_type = = VS : : INSTANCE_PARTICLES ) {
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//particles visible? process them
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if ( VSG : : storage - > particles_is_inactive ( ins - > base ) ) {
//but if nothing is going on, don't do it.
keep = false ;
} else {
VSG : : storage - > particles_request_process ( ins - > base ) ;
//particles visible? request redraw
VisualServerRaster : : redraw_request ( ) ;
}
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}
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if ( geom - > lighting_dirty ) {
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int l = 0 ;
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//only called when lights AABB enter/exit this geometry
ins - > light_instances . resize ( geom - > lighting . size ( ) ) ;
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for ( List < Instance * > : : Element * E = geom - > lighting . front ( ) ; E ; E = E - > next ( ) ) {
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InstanceLightData * light = static_cast < InstanceLightData * > ( E - > get ( ) - > base_data ) ;
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ins - > light_instances . write [ l + + ] = light - > instance ;
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}
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geom - > lighting_dirty = false ;
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}
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if ( geom - > reflection_dirty ) {
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int l = 0 ;
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//only called when reflection probe AABB enter/exit this geometry
ins - > reflection_probe_instances . resize ( geom - > reflection_probes . size ( ) ) ;
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for ( List < Instance * > : : Element * E = geom - > reflection_probes . front ( ) ; E ; E = E - > next ( ) ) {
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InstanceReflectionProbeData * reflection_probe = static_cast < InstanceReflectionProbeData * > ( E - > get ( ) - > base_data ) ;
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ins - > reflection_probe_instances . write [ l + + ] = reflection_probe - > instance ;
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}
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geom - > reflection_dirty = false ;
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}
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if ( geom - > gi_probes_dirty ) {
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int l = 0 ;
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//only called when reflection probe AABB enter/exit this geometry
ins - > gi_probe_instances . resize ( geom - > gi_probes . size ( ) ) ;
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for ( List < Instance * > : : Element * E = geom - > gi_probes . front ( ) ; E ; E = E - > next ( ) ) {
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InstanceGIProbeData * gi_probe = static_cast < InstanceGIProbeData * > ( E - > get ( ) - > base_data ) ;
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ins - > gi_probe_instances . write [ l + + ] = gi_probe - > probe_instance ;
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}
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geom - > gi_probes_dirty = false ;
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}
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ins - > depth = near_plane . distance_to ( ins - > transform . origin ) ;
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ins - > depth_layer = CLAMP ( int ( ins - > depth * 16 / z_far ) , 0 , 15 ) ;
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}
if ( ! keep ) {
// remove, no reason to keep
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instance_cull_count - - ;
SWAP ( instance_cull_result [ i ] , instance_cull_result [ instance_cull_count ] ) ;
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i - - ;
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ins - > last_render_pass = 0 ; // make invalid
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} else {
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ins - > last_render_pass = render_pass ;
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}
}
/* STEP 5 - PROCESS LIGHTS */
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RID * directional_light_ptr = & light_instance_cull_result [ light_cull_count ] ;
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directional_light_count = 0 ;
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// directional lights
{
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Instance * * lights_with_shadow = ( Instance * * ) alloca ( sizeof ( Instance * ) * scenario - > directional_lights . size ( ) ) ;
int directional_shadow_count = 0 ;
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for ( List < Instance * > : : Element * E = scenario - > directional_lights . front ( ) ; E ; E = E - > next ( ) ) {
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if ( light_cull_count + directional_light_count > = MAX_LIGHTS_CULLED ) {
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break ;
}
if ( ! E - > get ( ) - > visible )
continue ;
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InstanceLightData * light = static_cast < InstanceLightData * > ( E - > get ( ) - > base_data ) ;
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//check shadow..
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if ( light ) {
if ( p_shadow_atlas . is_valid ( ) & & VSG : : storage - > light_has_shadow ( E - > get ( ) - > base ) ) {
lights_with_shadow [ directional_shadow_count + + ] = E - > get ( ) ;
}
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//add to list
directional_light_ptr [ directional_light_count + + ] = light - > instance ;
}
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}
VSG : : scene_render - > set_directional_shadow_count ( directional_shadow_count ) ;
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for ( int i = 0 ; i < directional_shadow_count ; i + + ) {
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_light_instance_update_shadow ( lights_with_shadow [ i ] , p_cam_transform , p_cam_projection , p_cam_orthogonal , p_shadow_atlas , scenario ) ;
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}
}
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{ //setup shadow maps
//SortArray<Instance*,_InstanceLightsort> sorter;
//sorter.sort(light_cull_result,light_cull_count);
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for ( int i = 0 ; i < light_cull_count ; i + + ) {
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Instance * ins = light_cull_result [ i ] ;
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if ( ! p_shadow_atlas . is_valid ( ) | | ! VSG : : storage - > light_has_shadow ( ins - > base ) )
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continue ;
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InstanceLightData * light = static_cast < InstanceLightData * > ( ins - > base_data ) ;
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float coverage = 0.f ;
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{ //compute coverage
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Transform cam_xf = p_cam_transform ;
float zn = p_cam_projection . get_z_near ( ) ;
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Plane p ( cam_xf . origin + cam_xf . basis . get_axis ( 2 ) * - zn , - cam_xf . basis . get_axis ( 2 ) ) ; //camera near plane
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// near plane half width and height
Vector2 vp_half_extents = p_cam_projection . get_viewport_half_extents ( ) ;
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switch ( VSG : : storage - > light_get_type ( ins - > base ) ) {
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case VS : : LIGHT_OMNI : {
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float radius = VSG : : storage - > light_get_param ( ins - > base , VS : : LIGHT_PARAM_RANGE ) ;
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//get two points parallel to near plane
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Vector3 points [ 2 ] = {
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ins - > transform . origin ,
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ins - > transform . origin + cam_xf . basis . get_axis ( 0 ) * radius
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} ;
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if ( ! p_cam_orthogonal ) {
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//if using perspetive, map them to near plane
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for ( int j = 0 ; j < 2 ; j + + ) {
if ( p . distance_to ( points [ j ] ) < 0 ) {
points [ j ] . z = - zn ; //small hack to keep size constant when hitting the screen
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}
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p . intersects_segment ( cam_xf . origin , points [ j ] , & points [ j ] ) ; //map to plane
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}
}
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float screen_diameter = points [ 0 ] . distance_to ( points [ 1 ] ) * 2 ;
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coverage = screen_diameter / ( vp_half_extents . x + vp_half_extents . y ) ;
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} break ;
case VS : : LIGHT_SPOT : {
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float radius = VSG : : storage - > light_get_param ( ins - > base , VS : : LIGHT_PARAM_RANGE ) ;
float angle = VSG : : storage - > light_get_param ( ins - > base , VS : : LIGHT_PARAM_SPOT_ANGLE ) ;
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float w = radius * Math : : sin ( Math : : deg2rad ( angle ) ) ;
float d = radius * Math : : cos ( Math : : deg2rad ( angle ) ) ;
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Vector3 base = ins - > transform . origin - ins - > transform . basis . get_axis ( 2 ) . normalized ( ) * d ;
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Vector3 points [ 2 ] = {
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base ,
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base + cam_xf . basis . get_axis ( 0 ) * w
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} ;
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if ( ! p_cam_orthogonal ) {
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//if using perspetive, map them to near plane
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for ( int j = 0 ; j < 2 ; j + + ) {
if ( p . distance_to ( points [ j ] ) < 0 ) {
points [ j ] . z = - zn ; //small hack to keep size constant when hitting the screen
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}
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p . intersects_segment ( cam_xf . origin , points [ j ] , & points [ j ] ) ; //map to plane
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}
}
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float screen_diameter = points [ 0 ] . distance_to ( points [ 1 ] ) * 2 ;
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coverage = screen_diameter / ( vp_half_extents . x + vp_half_extents . y ) ;
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} break ;
default : {
ERR_PRINT ( " Invalid Light Type " ) ;
}
}
}
if ( light - > shadow_dirty ) {
light - > last_version + + ;
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light - > shadow_dirty = false ;
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}
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bool redraw = VSG : : scene_render - > shadow_atlas_update_light ( p_shadow_atlas , light - > instance , coverage , light - > last_version ) ;
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if ( redraw ) {
//must redraw!
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light - > shadow_dirty = _light_instance_update_shadow ( ins , p_cam_transform , p_cam_projection , p_cam_orthogonal , p_shadow_atlas , scenario ) ;
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}
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}
}
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}
void VisualServerScene : : _render_scene ( const Transform p_cam_transform , const CameraMatrix & p_cam_projection , bool p_cam_orthogonal , RID p_force_environment , RID p_scenario , RID p_shadow_atlas , RID p_reflection_probe , int p_reflection_probe_pass ) {
Scenario * scenario = scenario_owner . getornull ( p_scenario ) ;
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/* ENVIRONMENT */
RID environment ;
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if ( p_force_environment . is_valid ( ) ) //camera has more environment priority
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environment = p_force_environment ;
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else if ( scenario - > environment . is_valid ( ) )
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environment = scenario - > environment ;
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else
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environment = scenario - > fallback_environment ;
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/* PROCESS GEOMETRY AND DRAW SCENE */
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VSG : : scene_render - > render_scene ( p_cam_transform , p_cam_projection , p_cam_orthogonal , ( RasterizerScene : : InstanceBase * * ) instance_cull_result , instance_cull_count , light_instance_cull_result , light_cull_count + directional_light_count , reflection_probe_instance_cull_result , reflection_probe_cull_count , environment , p_shadow_atlas , scenario - > reflection_atlas , p_reflection_probe , p_reflection_probe_pass ) ;
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}
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void VisualServerScene : : render_empty_scene ( RID p_scenario , RID p_shadow_atlas ) {
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# ifndef _3D_DISABLED
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Scenario * scenario = scenario_owner . getornull ( p_scenario ) ;
RID environment ;
if ( scenario - > environment . is_valid ( ) )
environment = scenario - > environment ;
else
environment = scenario - > fallback_environment ;
VSG : : scene_render - > render_scene ( Transform ( ) , CameraMatrix ( ) , true , NULL , 0 , NULL , 0 , NULL , 0 , environment , p_shadow_atlas , scenario - > reflection_atlas , RID ( ) , 0 ) ;
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# endif
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}
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bool VisualServerScene : : _render_reflection_probe_step ( Instance * p_instance , int p_step ) {
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InstanceReflectionProbeData * reflection_probe = static_cast < InstanceReflectionProbeData * > ( p_instance - > base_data ) ;
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Scenario * scenario = p_instance - > scenario ;
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ERR_FAIL_COND_V ( ! scenario , true ) ;
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VisualServerRaster : : redraw_request ( ) ; //update, so it updates in editor
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if ( p_step = = 0 ) {
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if ( ! VSG : : scene_render - > reflection_probe_instance_begin_render ( reflection_probe - > instance , scenario - > reflection_atlas ) ) {
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return true ; //sorry, all full :(
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}
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}
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if ( p_step > = 0 & & p_step < 6 ) {
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static const Vector3 view_normals [ 6 ] = {
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Vector3 ( - 1 , 0 , 0 ) ,
Vector3 ( + 1 , 0 , 0 ) ,
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Vector3 ( 0 , - 1 , 0 ) ,
Vector3 ( 0 , + 1 , 0 ) ,
Vector3 ( 0 , 0 , - 1 ) ,
Vector3 ( 0 , 0 , + 1 )
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} ;
Vector3 extents = VSG : : storage - > reflection_probe_get_extents ( p_instance - > base ) ;
Vector3 origin_offset = VSG : : storage - > reflection_probe_get_origin_offset ( p_instance - > base ) ;
float max_distance = VSG : : storage - > reflection_probe_get_origin_max_distance ( p_instance - > base ) ;
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Vector3 edge = view_normals [ p_step ] * extents ;
float distance = ABS ( view_normals [ p_step ] . dot ( edge ) - view_normals [ p_step ] . dot ( origin_offset ) ) ; //distance from origin offset to actual view distance limit
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max_distance = MAX ( max_distance , distance ) ;
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//render cubemap side
CameraMatrix cm ;
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cm . set_perspective ( 90 , 1 , 0.01 , max_distance ) ;
static const Vector3 view_up [ 6 ] = {
Vector3 ( 0 , - 1 , 0 ) ,
Vector3 ( 0 , - 1 , 0 ) ,
Vector3 ( 0 , 0 , - 1 ) ,
Vector3 ( 0 , 0 , + 1 ) ,
Vector3 ( 0 , - 1 , 0 ) ,
Vector3 ( 0 , - 1 , 0 )
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} ;
Transform local_view ;
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local_view . set_look_at ( origin_offset , origin_offset + view_normals [ p_step ] , view_up [ p_step ] ) ;
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Transform xform = p_instance - > transform * local_view ;
RID shadow_atlas ;
if ( VSG : : storage - > reflection_probe_renders_shadows ( p_instance - > base ) ) {
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shadow_atlas = scenario - > reflection_probe_shadow_atlas ;
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}
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_prepare_scene ( xform , cm , false , RID ( ) , VSG : : storage - > reflection_probe_get_cull_mask ( p_instance - > base ) , p_instance - > scenario - > self , shadow_atlas , reflection_probe - > instance ) ;
_render_scene ( xform , cm , false , RID ( ) , p_instance - > scenario - > self , shadow_atlas , reflection_probe - > instance , p_step ) ;
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} else {
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//do roughness postprocess step until it believes it's done
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return VSG : : scene_render - > reflection_probe_instance_postprocess_step ( reflection_probe - > instance ) ;
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}
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return false ;
}
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void VisualServerScene : : _gi_probe_fill_local_data ( int p_idx , int p_level , int p_x , int p_y , int p_z , const GIProbeDataCell * p_cell , const GIProbeDataHeader * p_header , InstanceGIProbeData : : LocalData * p_local_data , Vector < uint32_t > * prev_cell ) {
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if ( ( uint32_t ) p_level = = p_header - > cell_subdiv - 1 ) {
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Vector3 emission ;
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emission . x = ( p_cell [ p_idx ] . emission > > 24 ) / 255.0 ;
emission . y = ( ( p_cell [ p_idx ] . emission > > 16 ) & 0xFF ) / 255.0 ;
emission . z = ( ( p_cell [ p_idx ] . emission > > 8 ) & 0xFF ) / 255.0 ;
float l = ( p_cell [ p_idx ] . emission & 0xFF ) / 255.0 ;
l * = 8.0 ;
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emission * = l ;
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p_local_data [ p_idx ] . energy [ 0 ] = uint16_t ( emission . x * 1024 ) ; //go from 0 to 1024 for light
p_local_data [ p_idx ] . energy [ 1 ] = uint16_t ( emission . y * 1024 ) ; //go from 0 to 1024 for light
p_local_data [ p_idx ] . energy [ 2 ] = uint16_t ( emission . z * 1024 ) ; //go from 0 to 1024 for light
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} else {
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p_local_data [ p_idx ] . energy [ 0 ] = 0 ;
p_local_data [ p_idx ] . energy [ 1 ] = 0 ;
p_local_data [ p_idx ] . energy [ 2 ] = 0 ;
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int half = ( 1 < < ( p_header - > cell_subdiv - 1 ) ) > > ( p_level + 1 ) ;
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for ( int i = 0 ; i < 8 ; i + + ) {
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uint32_t child = p_cell [ p_idx ] . children [ i ] ;
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if ( child = = 0xFFFFFFFF )
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continue ;
int x = p_x ;
int y = p_y ;
int z = p_z ;
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if ( i & 1 )
x + = half ;
if ( i & 2 )
y + = half ;
if ( i & 4 )
z + = half ;
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_gi_probe_fill_local_data ( child , p_level + 1 , x , y , z , p_cell , p_header , p_local_data , prev_cell ) ;
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}
}
//position for each part of the mipmaped texture
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p_local_data [ p_idx ] . pos [ 0 ] = p_x > > ( p_header - > cell_subdiv - p_level - 1 ) ;
p_local_data [ p_idx ] . pos [ 1 ] = p_y > > ( p_header - > cell_subdiv - p_level - 1 ) ;
p_local_data [ p_idx ] . pos [ 2 ] = p_z > > ( p_header - > cell_subdiv - p_level - 1 ) ;
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prev_cell [ p_level ] . push_back ( p_idx ) ;
}
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void VisualServerScene : : _gi_probe_bake_threads ( void * self ) {
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VisualServerScene * vss = ( VisualServerScene * ) self ;
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vss - > _gi_probe_bake_thread ( ) ;
}
void VisualServerScene : : _setup_gi_probe ( Instance * p_instance ) {
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InstanceGIProbeData * probe = static_cast < InstanceGIProbeData * > ( p_instance - > base_data ) ;
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if ( probe - > dynamic . probe_data . is_valid ( ) ) {
VSG : : storage - > free ( probe - > dynamic . probe_data ) ;
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probe - > dynamic . probe_data = RID ( ) ;
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}
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probe - > dynamic . light_data = VSG : : storage - > gi_probe_get_dynamic_data ( p_instance - > base ) ;
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if ( probe - > dynamic . light_data . size ( ) = = 0 )
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return ;
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//using dynamic data
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PoolVector < int > : : Read r = probe - > dynamic . light_data . read ( ) ;
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const GIProbeDataHeader * header = ( GIProbeDataHeader * ) r . ptr ( ) ;
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probe - > dynamic . local_data . resize ( header - > cell_count ) ;
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int cell_count = probe - > dynamic . local_data . size ( ) ;
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PoolVector < InstanceGIProbeData : : LocalData > : : Write ldw = probe - > dynamic . local_data . write ( ) ;
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const GIProbeDataCell * cells = ( GIProbeDataCell * ) & r [ 16 ] ;
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probe - > dynamic . level_cell_lists . resize ( header - > cell_subdiv ) ;
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_gi_probe_fill_local_data ( 0 , 0 , 0 , 0 , 0 , cells , header , ldw . ptr ( ) , probe - > dynamic . level_cell_lists . ptrw ( ) ) ;
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bool compress = VSG : : storage - > gi_probe_is_compressed ( p_instance - > base ) ;
probe - > dynamic . compression = compress ? VSG : : storage - > gi_probe_get_dynamic_data_get_preferred_compression ( ) : RasterizerStorage : : GI_PROBE_UNCOMPRESSED ;
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probe - > dynamic . probe_data = VSG : : storage - > gi_probe_dynamic_data_create ( header - > width , header - > height , header - > depth , probe - > dynamic . compression ) ;
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probe - > dynamic . bake_dynamic_range = VSG : : storage - > gi_probe_get_dynamic_range ( p_instance - > base ) ;
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probe - > dynamic . mipmaps_3d . clear ( ) ;
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probe - > dynamic . propagate = VSG : : storage - > gi_probe_get_propagation ( p_instance - > base ) ;
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probe - > dynamic . grid_size [ 0 ] = header - > width ;
probe - > dynamic . grid_size [ 1 ] = header - > height ;
probe - > dynamic . grid_size [ 2 ] = header - > depth ;
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int size_limit = 1 ;
int size_divisor = 1 ;
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if ( probe - > dynamic . compression = = RasterizerStorage : : GI_PROBE_S3TC ) {
size_limit = 4 ;
size_divisor = 4 ;
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}
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for ( int i = 0 ; i < ( int ) header - > cell_subdiv ; i + + ) {
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int x = header - > width > > i ;
int y = header - > height > > i ;
int z = header - > depth > > i ;
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//create and clear mipmap
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PoolVector < uint8_t > mipmap ;
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int size = x * y * z * 4 ;
size / = size_divisor ;
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mipmap . resize ( size ) ;
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PoolVector < uint8_t > : : Write w = mipmap . write ( ) ;
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zeromem ( w . ptr ( ) , size ) ;
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w . release ( ) ;
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probe - > dynamic . mipmaps_3d . push_back ( mipmap ) ;
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if ( x < = size_limit | | y < = size_limit | | z < = size_limit )
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break ;
}
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probe - > dynamic . updating_stage = GI_UPDATE_STAGE_CHECK ;
probe - > invalid = false ;
probe - > dynamic . enabled = true ;
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Transform cell_to_xform = VSG : : storage - > gi_probe_get_to_cell_xform ( p_instance - > base ) ;
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AABB bounds = VSG : : storage - > gi_probe_get_bounds ( p_instance - > base ) ;
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float cell_size = VSG : : storage - > gi_probe_get_cell_size ( p_instance - > base ) ;
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probe - > dynamic . light_to_cell_xform = cell_to_xform * p_instance - > transform . affine_inverse ( ) ;
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VSG : : scene_render - > gi_probe_instance_set_light_data ( probe - > probe_instance , p_instance - > base , probe - > dynamic . probe_data ) ;
VSG : : scene_render - > gi_probe_instance_set_transform_to_data ( probe - > probe_instance , probe - > dynamic . light_to_cell_xform ) ;
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VSG : : scene_render - > gi_probe_instance_set_bounds ( probe - > probe_instance , bounds . size / cell_size ) ;
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probe - > base_version = VSG : : storage - > gi_probe_get_version ( p_instance - > base ) ;
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//if compression is S3TC, fill it up
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if ( probe - > dynamic . compression = = RasterizerStorage : : GI_PROBE_S3TC ) {
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//create all blocks
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Vector < Map < uint32_t , InstanceGIProbeData : : CompBlockS3TC > > comp_blocks ;
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int mipmap_count = probe - > dynamic . mipmaps_3d . size ( ) ;
comp_blocks . resize ( mipmap_count ) ;
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for ( int i = 0 ; i < cell_count ; i + + ) {
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const GIProbeDataCell & c = cells [ i ] ;
const InstanceGIProbeData : : LocalData & ld = ldw [ i ] ;
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int level = c . level_alpha > > 16 ;
int mipmap = header - > cell_subdiv - level - 1 ;
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if ( mipmap > = mipmap_count )
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continue ; //uninteresting
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int blockx = ( ld . pos [ 0 ] > > 2 ) ;
int blocky = ( ld . pos [ 1 ] > > 2 ) ;
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int blockz = ( ld . pos [ 2 ] ) ; //compression is x/y only
int blockw = ( header - > width > > mipmap ) > > 2 ;
int blockh = ( header - > height > > mipmap ) > > 2 ;
//print_line("cell "+itos(i)+" level "+itos(level)+"mipmap: "+itos(mipmap)+" pos: "+Vector3(blockx,blocky,blockz)+" size "+Vector2(blockw,blockh));
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uint32_t key = blockz * blockw * blockh + blocky * blockw + blockx ;
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Map < uint32_t , InstanceGIProbeData : : CompBlockS3TC > & cmap = comp_blocks . write [ mipmap ] ;
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if ( ! cmap . has ( key ) ) {
InstanceGIProbeData : : CompBlockS3TC k ;
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k . offset = key ; //use offset as counter first
k . source_count = 0 ;
cmap [ key ] = k ;
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}
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InstanceGIProbeData : : CompBlockS3TC & k = cmap [ key ] ;
ERR_CONTINUE ( k . source_count = = 16 ) ;
k . sources [ k . source_count + + ] = i ;
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}
//fix the blocks, precomputing what is needed
probe - > dynamic . mipmaps_s3tc . resize ( mipmap_count ) ;
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for ( int i = 0 ; i < mipmap_count ; i + + ) {
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//print_line("S3TC level: " + itos(i) + " blocks: " + itos(comp_blocks[i].size()));
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probe - > dynamic . mipmaps_s3tc . write [ i ] . resize ( comp_blocks [ i ] . size ( ) ) ;
PoolVector < InstanceGIProbeData : : CompBlockS3TC > : : Write w = probe - > dynamic . mipmaps_s3tc . write [ i ] . write ( ) ;
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int block_idx = 0 ;
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for ( Map < uint32_t , InstanceGIProbeData : : CompBlockS3TC > : : Element * E = comp_blocks [ i ] . front ( ) ; E ; E = E - > next ( ) ) {
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InstanceGIProbeData : : CompBlockS3TC k = E - > get ( ) ;
//PRECOMPUTE ALPHA
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int max_alpha = - 100000 ;
int min_alpha = k . source_count = = 16 ? 100000 : 0 ; //if the block is not completely full, minimum is always 0, (and those blocks will map to 1, which will be zero)
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uint8_t alpha_block [ 4 ] [ 4 ] = { { 0 , 0 , 0 , 0 } , { 0 , 0 , 0 , 0 } , { 0 , 0 , 0 , 0 } , { 0 , 0 , 0 , 0 } } ;
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for ( uint32_t j = 0 ; j < k . source_count ; j + + ) {
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int alpha = ( cells [ k . sources [ j ] ] . level_alpha > > 8 ) & 0xFF ;
if ( alpha < min_alpha )
min_alpha = alpha ;
if ( alpha > max_alpha )
max_alpha = alpha ;
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//fill up alpha block
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alpha_block [ ldw [ k . sources [ j ] ] . pos [ 0 ] % 4 ] [ ldw [ k . sources [ j ] ] . pos [ 1 ] % 4 ] = alpha ;
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}
//use the first mode (8 adjustable levels)
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k . alpha [ 0 ] = max_alpha ;
k . alpha [ 1 ] = min_alpha ;
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uint64_t alpha_bits = 0 ;
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if ( max_alpha ! = min_alpha ) {
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int idx = 0 ;
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for ( int y = 0 ; y < 4 ; y + + ) {
for ( int x = 0 ; x < 4 ; x + + ) {
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//subtract minimum
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uint32_t a = uint32_t ( alpha_block [ x ] [ y ] ) - min_alpha ;
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//convert range to 3 bits
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a = int ( ( a * 7.0 / ( max_alpha - min_alpha ) ) + 0.5 ) ;
2019-02-23 11:07:48 +00:00
a = MIN ( a , 7 ) ; //just to be sure
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a = 7 - a ; //because range is inverted in this mode
if ( a = = 0 ) {
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//do none, remain
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} else if ( a = = 7 ) {
a = 1 ;
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} else {
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a = a + 1 ;
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}
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alpha_bits | = uint64_t ( a ) < < ( idx * 3 ) ;
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idx + + ;
}
}
}
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k . alpha [ 2 ] = ( alpha_bits > > 0 ) & 0xFF ;
k . alpha [ 3 ] = ( alpha_bits > > 8 ) & 0xFF ;
k . alpha [ 4 ] = ( alpha_bits > > 16 ) & 0xFF ;
k . alpha [ 5 ] = ( alpha_bits > > 24 ) & 0xFF ;
k . alpha [ 6 ] = ( alpha_bits > > 32 ) & 0xFF ;
k . alpha [ 7 ] = ( alpha_bits > > 40 ) & 0xFF ;
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w [ block_idx + + ] = k ;
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}
}
}
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}
void VisualServerScene : : _gi_probe_bake_thread ( ) {
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while ( true ) {
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probe_bake_sem . wait ( ) ;
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if ( probe_bake_thread_exit ) {
break ;
}
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Instance * to_bake = NULL ;
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probe_bake_mutex . lock ( ) ;
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if ( ! probe_bake_list . empty ( ) ) {
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to_bake = probe_bake_list . front ( ) - > get ( ) ;
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probe_bake_list . pop_front ( ) ;
}
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probe_bake_mutex . unlock ( ) ;
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if ( ! to_bake )
continue ;
_bake_gi_probe ( to_bake ) ;
}
}
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uint32_t VisualServerScene : : _gi_bake_find_cell ( const GIProbeDataCell * cells , int x , int y , int z , int p_cell_subdiv ) {
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uint32_t cell = 0 ;
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int ofs_x = 0 ;
int ofs_y = 0 ;
int ofs_z = 0 ;
int size = 1 < < ( p_cell_subdiv - 1 ) ;
int half = size / 2 ;
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if ( x < 0 | | x > = size )
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return - 1 ;
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if ( y < 0 | | y > = size )
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return - 1 ;
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if ( z < 0 | | z > = size )
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return - 1 ;
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for ( int i = 0 ; i < p_cell_subdiv - 1 ; i + + ) {
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const GIProbeDataCell * bc = & cells [ cell ] ;
int child = 0 ;
if ( x > = ofs_x + half ) {
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child | = 1 ;
ofs_x + = half ;
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}
if ( y > = ofs_y + half ) {
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child | = 2 ;
ofs_y + = half ;
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}
if ( z > = ofs_z + half ) {
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child | = 4 ;
ofs_z + = half ;
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}
cell = bc - > children [ child ] ;
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if ( cell = = 0xFFFFFFFF )
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return 0xFFFFFFFF ;
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half > > = 1 ;
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}
return cell ;
}
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static float _get_normal_advance ( const Vector3 & p_normal ) {
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Vector3 normal = p_normal ;
Vector3 unorm = normal . abs ( ) ;
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if ( ( unorm . x > = unorm . y ) & & ( unorm . x > = unorm . z ) ) {
// x code
unorm = normal . x > 0.0 ? Vector3 ( 1.0 , 0.0 , 0.0 ) : Vector3 ( - 1.0 , 0.0 , 0.0 ) ;
} else if ( ( unorm . y > unorm . x ) & & ( unorm . y > = unorm . z ) ) {
// y code
unorm = normal . y > 0.0 ? Vector3 ( 0.0 , 1.0 , 0.0 ) : Vector3 ( 0.0 , - 1.0 , 0.0 ) ;
} else if ( ( unorm . z > unorm . x ) & & ( unorm . z > unorm . y ) ) {
// z code
unorm = normal . z > 0.0 ? Vector3 ( 0.0 , 0.0 , 1.0 ) : Vector3 ( 0.0 , 0.0 , - 1.0 ) ;
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} else {
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// oh-no we messed up code
// has to be
unorm = Vector3 ( 1.0 , 0.0 , 0.0 ) ;
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}
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return 1.0 / normal . dot ( unorm ) ;
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}
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void VisualServerScene : : _bake_gi_probe_light ( const GIProbeDataHeader * header , const GIProbeDataCell * cells , InstanceGIProbeData : : LocalData * local_data , const uint32_t * leaves , int p_leaf_count , const InstanceGIProbeData : : LightCache & light_cache , int p_sign ) {
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int light_r = int ( light_cache . color . r * light_cache . energy * 1024.0 ) * p_sign ;
int light_g = int ( light_cache . color . g * light_cache . energy * 1024.0 ) * p_sign ;
int light_b = int ( light_cache . color . b * light_cache . energy * 1024.0 ) * p_sign ;
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float limits [ 3 ] = { float ( header - > width ) , float ( header - > height ) , float ( header - > depth ) } ;
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Plane clip [ 3 ] ;
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int clip_planes = 0 ;
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switch ( light_cache . type ) {
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case VS : : LIGHT_DIRECTIONAL : {
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float max_len = Vector3 ( limits [ 0 ] , limits [ 1 ] , limits [ 2 ] ) . length ( ) * 1.1 ;
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Vector3 light_axis = - light_cache . transform . basis . get_axis ( 2 ) . normalized ( ) ;
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for ( int i = 0 ; i < 3 ; i + + ) {
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if ( Math : : is_zero_approx ( light_axis [ i ] ) )
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continue ;
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clip [ clip_planes ] . normal [ i ] = 1.0 ;
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if ( light_axis [ i ] < 0 ) {
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clip [ clip_planes ] . d = limits [ i ] + 1 ;
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} else {
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clip [ clip_planes ] . d - = 1.0 ;
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}
clip_planes + + ;
}
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float distance_adv = _get_normal_advance ( light_axis ) ;
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int success_count = 0 ;
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// uint64_t us = OS::get_singleton()->get_ticks_usec();
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for ( int i = 0 ; i < p_leaf_count ; i + + ) {
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uint32_t idx = leaves [ i ] ;
const GIProbeDataCell * cell = & cells [ idx ] ;
InstanceGIProbeData : : LocalData * light = & local_data [ idx ] ;
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Vector3 to ( light - > pos [ 0 ] + 0.5 , light - > pos [ 1 ] + 0.5 , light - > pos [ 2 ] + 0.5 ) ;
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to + = - light_axis . sign ( ) * 0.47 ; //make it more likely to receive a ray
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Vector3 norm (
( ( ( cells [ idx ] . normal > > 16 ) & 0xFF ) / 255.0 ) * 2.0 - 1.0 ,
( ( ( cells [ idx ] . normal > > 8 ) & 0xFF ) / 255.0 ) * 2.0 - 1.0 ,
( ( ( cells [ idx ] . normal > > 0 ) & 0xFF ) / 255.0 ) * 2.0 - 1.0 ) ;
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float att = norm . dot ( - light_axis ) ;
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if ( att < 0.001 ) {
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//not lighting towards this
continue ;
}
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Vector3 from = to - max_len * light_axis ;
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for ( int j = 0 ; j < clip_planes ; j + + ) {
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clip [ j ] . intersects_segment ( from , to , & from ) ;
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}
float distance = ( to - from ) . length ( ) ;
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distance + = distance_adv - Math : : fmod ( distance , distance_adv ) ; //make it reach the center of the box always
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from = to - light_axis * distance ;
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uint32_t result = 0xFFFFFFFF ;
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while ( distance > - distance_adv ) { //use this to avoid precision errors
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result = _gi_bake_find_cell ( cells , int ( floor ( from . x ) ) , int ( floor ( from . y ) ) , int ( floor ( from . z ) ) , header - > cell_subdiv ) ;
if ( result ! = 0xFFFFFFFF ) {
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break ;
}
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from + = light_axis * distance_adv ;
distance - = distance_adv ;
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}
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if ( result = = idx ) {
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//cell hit itself! hooray!
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light - > energy [ 0 ] + = int32_t ( light_r * att * ( ( cell - > albedo > > 16 ) & 0xFF ) / 255.0 ) ;
light - > energy [ 1 ] + = int32_t ( light_g * att * ( ( cell - > albedo > > 8 ) & 0xFF ) / 255.0 ) ;
light - > energy [ 2 ] + = int32_t ( light_b * att * ( ( cell - > albedo ) & 0xFF ) / 255.0 ) ;
success_count + + ;
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}
}
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// print_line("BAKE TIME: " + rtos((OS::get_singleton()->get_ticks_usec() - us) / 1000000.0));
// print_line("valid cells: " + itos(success_count));
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} break ;
case VS : : LIGHT_OMNI :
case VS : : LIGHT_SPOT : {
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// uint64_t us = OS::get_singleton()->get_ticks_usec();
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Vector3 light_pos = light_cache . transform . origin ;
Vector3 spot_axis = - light_cache . transform . basis . get_axis ( 2 ) . normalized ( ) ;
float local_radius = light_cache . radius * light_cache . transform . basis . get_axis ( 2 ) . length ( ) ;
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for ( int i = 0 ; i < p_leaf_count ; i + + ) {
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uint32_t idx = leaves [ i ] ;
const GIProbeDataCell * cell = & cells [ idx ] ;
InstanceGIProbeData : : LocalData * light = & local_data [ idx ] ;
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Vector3 to ( light - > pos [ 0 ] + 0.5 , light - > pos [ 1 ] + 0.5 , light - > pos [ 2 ] + 0.5 ) ;
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to + = ( light_pos - to ) . sign ( ) * 0.47 ; //make it more likely to receive a ray
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Vector3 norm (
( ( ( cells [ idx ] . normal > > 16 ) & 0xFF ) / 255.0 ) * 2.0 - 1.0 ,
( ( ( cells [ idx ] . normal > > 8 ) & 0xFF ) / 255.0 ) * 2.0 - 1.0 ,
( ( ( cells [ idx ] . normal > > 0 ) & 0xFF ) / 255.0 ) * 2.0 - 1.0 ) ;
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Vector3 light_axis = ( to - light_pos ) . normalized ( ) ;
float distance_adv = _get_normal_advance ( light_axis ) ;
float att = norm . dot ( - light_axis ) ;
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if ( att < 0.001 ) {
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//not lighting towards this
continue ;
}
{
float d = light_pos . distance_to ( to ) ;
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if ( d + distance_adv > local_radius )
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continue ; // too far away
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float dt = CLAMP ( ( d + distance_adv ) / local_radius , 0 , 1 ) ;
att * = powf ( 1.0 - dt , light_cache . attenuation ) ;
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}
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if ( light_cache . type = = VS : : LIGHT_SPOT ) {
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float angle = Math : : rad2deg ( acos ( light_axis . dot ( spot_axis ) ) ) ;
if ( angle > light_cache . spot_angle )
continue ;
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float d = CLAMP ( angle / light_cache . spot_angle , 0 , 1 ) ;
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att * = powf ( 1.0 - d , light_cache . spot_attenuation ) ;
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}
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clip_planes = 0 ;
2016-12-22 13:00:15 +00:00
2017-03-05 15:44:50 +00:00
for ( int c = 0 ; c < 3 ; c + + ) {
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if ( Math : : is_zero_approx ( light_axis [ c ] ) )
2016-12-22 13:00:15 +00:00
continue ;
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clip [ clip_planes ] . normal [ c ] = 1.0 ;
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if ( light_axis [ c ] < 0 ) {
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clip [ clip_planes ] . d = limits [ c ] + 1 ;
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} else {
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clip [ clip_planes ] . d - = 1.0 ;
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}
clip_planes + + ;
}
Vector3 from = light_pos ;
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for ( int j = 0 ; j < clip_planes ; j + + ) {
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2017-03-05 15:44:50 +00:00
clip [ j ] . intersects_segment ( from , to , & from ) ;
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}
float distance = ( to - from ) . length ( ) ;
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distance - = Math : : fmod ( distance , distance_adv ) ; //make it reach the center of the box always, but this tame make it closer
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from = to - light_axis * distance ;
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uint32_t result = 0xFFFFFFFF ;
2016-12-22 13:00:15 +00:00
2017-03-05 15:44:50 +00:00
while ( distance > - distance_adv ) { //use this to avoid precision errors
2016-12-22 13:00:15 +00:00
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result = _gi_bake_find_cell ( cells , int ( floor ( from . x ) ) , int ( floor ( from . y ) ) , int ( floor ( from . z ) ) , header - > cell_subdiv ) ;
if ( result ! = 0xFFFFFFFF ) {
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break ;
}
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from + = light_axis * distance_adv ;
distance - = distance_adv ;
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}
2017-03-05 15:44:50 +00:00
if ( result = = idx ) {
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//cell hit itself! hooray!
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light - > energy [ 0 ] + = int32_t ( light_r * att * ( ( cell - > albedo > > 16 ) & 0xFF ) / 255.0 ) ;
light - > energy [ 1 ] + = int32_t ( light_g * att * ( ( cell - > albedo > > 8 ) & 0xFF ) / 255.0 ) ;
light - > energy [ 2 ] + = int32_t ( light_b * att * ( ( cell - > albedo ) & 0xFF ) / 255.0 ) ;
2016-12-22 13:00:15 +00:00
}
}
2018-08-24 07:35:07 +00:00
//print_line("BAKE TIME: " + rtos((OS::get_singleton()->get_ticks_usec() - us) / 1000000.0));
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} break ;
}
}
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void VisualServerScene : : _bake_gi_downscale_light ( int p_idx , int p_level , const GIProbeDataCell * p_cells , const GIProbeDataHeader * p_header , InstanceGIProbeData : : LocalData * p_local_data , float p_propagate ) {
2016-12-20 03:21:07 +00:00
//average light to upper level
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float divisor = 0 ;
float sum [ 3 ] = { 0.0 , 0.0 , 0.0 } ;
2017-01-02 17:09:42 +00:00
2017-03-05 15:44:50 +00:00
for ( int i = 0 ; i < 8 ; i + + ) {
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uint32_t child = p_cells [ p_idx ] . children [ i ] ;
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if ( child = = 0xFFFFFFFF )
2016-12-20 03:21:07 +00:00
continue ;
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if ( p_level + 1 < ( int ) p_header - > cell_subdiv - 1 ) {
_bake_gi_downscale_light ( child , p_level + 1 , p_cells , p_header , p_local_data , p_propagate ) ;
2016-12-20 03:21:07 +00:00
}
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sum [ 0 ] + = p_local_data [ child ] . energy [ 0 ] ;
sum [ 1 ] + = p_local_data [ child ] . energy [ 1 ] ;
sum [ 2 ] + = p_local_data [ child ] . energy [ 2 ] ;
divisor + = 1.0 ;
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}
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divisor = Math : : lerp ( ( float ) 8.0 , divisor , p_propagate ) ;
sum [ 0 ] / = divisor ;
sum [ 1 ] / = divisor ;
sum [ 2 ] / = divisor ;
2017-02-06 08:12:15 +00:00
2016-12-20 03:21:07 +00:00
//divide by eight for average
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p_local_data [ p_idx ] . energy [ 0 ] = Math : : fast_ftoi ( sum [ 0 ] ) ;
p_local_data [ p_idx ] . energy [ 1 ] = Math : : fast_ftoi ( sum [ 1 ] ) ;
p_local_data [ p_idx ] . energy [ 2 ] = Math : : fast_ftoi ( sum [ 2 ] ) ;
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}
void VisualServerScene : : _bake_gi_probe ( Instance * p_gi_probe ) {
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InstanceGIProbeData * probe_data = static_cast < InstanceGIProbeData * > ( p_gi_probe - > base_data ) ;
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2017-03-05 15:44:50 +00:00
PoolVector < int > : : Read r = probe_data - > dynamic . light_data . read ( ) ;
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const GIProbeDataHeader * header = ( const GIProbeDataHeader * ) r . ptr ( ) ;
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const GIProbeDataCell * cells = ( const GIProbeDataCell * ) & r [ 16 ] ;
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int leaf_count = probe_data - > dynamic . level_cell_lists [ header - > cell_subdiv - 1 ] . size ( ) ;
const uint32_t * leaves = probe_data - > dynamic . level_cell_lists [ header - > cell_subdiv - 1 ] . ptr ( ) ;
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2017-01-07 21:25:37 +00:00
PoolVector < InstanceGIProbeData : : LocalData > : : Write ldw = probe_data - > dynamic . local_data . write ( ) ;
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InstanceGIProbeData : : LocalData * local_data = ldw . ptr ( ) ;
//remove what must be removed
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for ( Map < RID , InstanceGIProbeData : : LightCache > : : Element * E = probe_data - > dynamic . light_cache . front ( ) ; E ; E = E - > next ( ) ) {
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RID rid = E - > key ( ) ;
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const InstanceGIProbeData : : LightCache & lc = E - > get ( ) ;
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2018-10-06 20:20:41 +00:00
if ( ( ! probe_data - > dynamic . light_cache_changes . has ( rid ) | | probe_data - > dynamic . light_cache_changes [ rid ] ! = lc ) & & lc . visible ) {
2016-12-20 03:21:07 +00:00
//erase light data
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_bake_gi_probe_light ( header , cells , local_data , leaves , leaf_count , lc , - 1 ) ;
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}
}
//add what must be added
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for ( Map < RID , InstanceGIProbeData : : LightCache > : : Element * E = probe_data - > dynamic . light_cache_changes . front ( ) ; E ; E = E - > next ( ) ) {
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RID rid = E - > key ( ) ;
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const InstanceGIProbeData : : LightCache & lc = E - > get ( ) ;
2016-12-20 03:21:07 +00:00
2018-10-06 20:20:41 +00:00
if ( ( ! probe_data - > dynamic . light_cache . has ( rid ) | | probe_data - > dynamic . light_cache [ rid ] ! = lc ) & & lc . visible ) {
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//add light data
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_bake_gi_probe_light ( header , cells , local_data , leaves , leaf_count , lc , 1 ) ;
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}
}
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SWAP ( probe_data - > dynamic . light_cache_changes , probe_data - > dynamic . light_cache ) ;
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//downscale to lower res levels
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_bake_gi_downscale_light ( 0 , 0 , cells , header , local_data , probe_data - > dynamic . propagate ) ;
2016-12-20 03:21:07 +00:00
//plot result to 3D texture!
2017-03-05 15:44:50 +00:00
if ( probe_data - > dynamic . compression = = RasterizerStorage : : GI_PROBE_UNCOMPRESSED ) {
2016-12-30 11:35:54 +00:00
2017-03-05 15:44:50 +00:00
for ( int i = 0 ; i < ( int ) header - > cell_subdiv ; i + + ) {
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2017-03-05 15:44:50 +00:00
int stage = header - > cell_subdiv - i - 1 ;
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if ( stage > = probe_data - > dynamic . mipmaps_3d . size ( ) )
continue ; //no mipmap for this one
2017-07-29 03:03:54 +00:00
//print_line("generating mipmap stage: " + itos(stage));
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int level_cell_count = probe_data - > dynamic . level_cell_lists [ i ] . size ( ) ;
const uint32_t * level_cells = probe_data - > dynamic . level_cell_lists [ i ] . ptr ( ) ;
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2018-07-25 01:11:03 +00:00
PoolVector < uint8_t > : : Write lw = probe_data - > dynamic . mipmaps_3d . write [ stage ] . write ( ) ;
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uint8_t * mipmapw = lw . ptr ( ) ;
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uint32_t sizes [ 3 ] = { header - > width > > stage , header - > height > > stage , header - > depth > > stage } ;
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for ( int j = 0 ; j < level_cell_count ; j + + ) {
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2016-12-30 11:35:54 +00:00
uint32_t idx = level_cells [ j ] ;
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2019-02-12 20:10:08 +00:00
uint32_t r2 = ( uint32_t ( local_data [ idx ] . energy [ 0 ] ) / probe_data - > dynamic . bake_dynamic_range ) > > 2 ;
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uint32_t g = ( uint32_t ( local_data [ idx ] . energy [ 1 ] ) / probe_data - > dynamic . bake_dynamic_range ) > > 2 ;
uint32_t b = ( uint32_t ( local_data [ idx ] . energy [ 2 ] ) / probe_data - > dynamic . bake_dynamic_range ) > > 2 ;
uint32_t a = ( cells [ idx ] . level_alpha > > 8 ) & 0xFF ;
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uint32_t mm_ofs = sizes [ 0 ] * sizes [ 1 ] * ( local_data [ idx ] . pos [ 2 ] ) + sizes [ 0 ] * ( local_data [ idx ] . pos [ 1 ] ) + ( local_data [ idx ] . pos [ 0 ] ) ;
mm_ofs * = 4 ; //for RGBA (4 bytes)
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mipmapw [ mm_ofs + 0 ] = uint8_t ( MIN ( r2 , 255 ) ) ;
mipmapw [ mm_ofs + 1 ] = uint8_t ( MIN ( g , 255 ) ) ;
mipmapw [ mm_ofs + 2 ] = uint8_t ( MIN ( b , 255 ) ) ;
mipmapw [ mm_ofs + 3 ] = uint8_t ( MIN ( a , 255 ) ) ;
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}
}
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} else if ( probe_data - > dynamic . compression = = RasterizerStorage : : GI_PROBE_S3TC ) {
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int mipmap_count = probe_data - > dynamic . mipmaps_3d . size ( ) ;
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for ( int mmi = 0 ; mmi < mipmap_count ; mmi + + ) {
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PoolVector < uint8_t > : : Write mmw = probe_data - > dynamic . mipmaps_3d . write [ mmi ] . write ( ) ;
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int block_count = probe_data - > dynamic . mipmaps_s3tc [ mmi ] . size ( ) ;
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PoolVector < InstanceGIProbeData : : CompBlockS3TC > : : Read mmr = probe_data - > dynamic . mipmaps_s3tc [ mmi ] . read ( ) ;
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for ( int i = 0 ; i < block_count ; i + + ) {
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const InstanceGIProbeData : : CompBlockS3TC & b = mmr [ i ] ;
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uint8_t * blockptr = & mmw [ b . offset * 16 ] ;
copymem ( blockptr , b . alpha , 8 ) ; //copy alpha part, which is precomputed
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Vector3 colors [ 16 ] ;
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for ( uint32_t j = 0 ; j < b . source_count ; j + + ) {
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colors [ j ] . x = ( local_data [ b . sources [ j ] ] . energy [ 0 ] / float ( probe_data - > dynamic . bake_dynamic_range ) ) / 1024.0 ;
colors [ j ] . y = ( local_data [ b . sources [ j ] ] . energy [ 1 ] / float ( probe_data - > dynamic . bake_dynamic_range ) ) / 1024.0 ;
colors [ j ] . z = ( local_data [ b . sources [ j ] ] . energy [ 2 ] / float ( probe_data - > dynamic . bake_dynamic_range ) ) / 1024.0 ;
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}
//super quick and dirty compression
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//find 2 most further apart
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float distance = 0 ;
Vector3 from , to ;
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if ( b . source_count = = 16 ) {
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//all cells are used so, find minmax between them
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int further_apart [ 2 ] = { 0 , 0 } ;
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for ( uint32_t j = 0 ; j < b . source_count ; j + + ) {
for ( uint32_t k = j + 1 ; k < b . source_count ; k + + ) {
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float d = colors [ j ] . distance_squared_to ( colors [ k ] ) ;
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if ( d > distance ) {
distance = d ;
further_apart [ 0 ] = j ;
further_apart [ 1 ] = k ;
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}
}
}
from = colors [ further_apart [ 0 ] ] ;
to = colors [ further_apart [ 1 ] ] ;
} else {
//if a block is missing, the priority is that this block remains black,
//otherwise the geometry will appear deformed
//correct shape wins over correct color in this case
//average all colors first
Vector3 average ;
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for ( uint32_t j = 0 ; j < b . source_count ; j + + ) {
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average + = colors [ j ] ;
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}
average . normalize ( ) ;
//find max distance in normal from average
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for ( uint32_t j = 0 ; j < b . source_count ; j + + ) {
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float d = average . dot ( colors [ j ] ) ;
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distance = MAX ( d , distance ) ;
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}
from = Vector3 ( ) ; //from black
to = average * distance ;
//find max distance
}
int indices [ 16 ] ;
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uint16_t color_0 = 0 ;
color_0 = CLAMP ( int ( from . x * 31 ) , 0 , 31 ) < < 11 ;
color_0 | = CLAMP ( int ( from . y * 63 ) , 0 , 63 ) < < 5 ;
color_0 | = CLAMP ( int ( from . z * 31 ) , 0 , 31 ) ;
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uint16_t color_1 = 0 ;
color_1 = CLAMP ( int ( to . x * 31 ) , 0 , 31 ) < < 11 ;
color_1 | = CLAMP ( int ( to . y * 63 ) , 0 , 63 ) < < 5 ;
color_1 | = CLAMP ( int ( to . z * 31 ) , 0 , 31 ) ;
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if ( color_1 > color_0 ) {
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SWAP ( color_1 , color_0 ) ;
SWAP ( from , to ) ;
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}
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if ( distance > 0 ) {
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Vector3 dir = ( to - from ) . normalized ( ) ;
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for ( uint32_t j = 0 ; j < b . source_count ; j + + ) {
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float d = ( colors [ j ] - from ) . dot ( dir ) / distance ;
indices [ j ] = int ( d * 3 + 0.5 ) ;
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static const int index_swap [ 4 ] = { 0 , 3 , 1 , 2 } ;
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indices [ j ] = index_swap [ CLAMP ( indices [ j ] , 0 , 3 ) ] ;
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}
} else {
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for ( uint32_t j = 0 ; j < b . source_count ; j + + ) {
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indices [ j ] = 0 ;
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}
}
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//by default, 1 is black, otherwise it will be overridden by source
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uint32_t index_block [ 16 ] = { 1 , 1 , 1 , 1 , 1 , 1 , 1 , 1 , 1 , 1 , 1 , 1 , 1 , 1 , 1 , 1 } ;
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for ( uint32_t j = 0 ; j < b . source_count ; j + + ) {
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int x = local_data [ b . sources [ j ] ] . pos [ 0 ] % 4 ;
int y = local_data [ b . sources [ j ] ] . pos [ 1 ] % 4 ;
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index_block [ y * 4 + x ] = indices [ j ] ;
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}
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uint32_t encode = 0 ;
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for ( int j = 0 ; j < 16 ; j + + ) {
encode | = index_block [ j ] < < ( j * 2 ) ;
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}
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blockptr [ 8 ] = color_0 & 0xFF ;
blockptr [ 9 ] = ( color_0 > > 8 ) & 0xFF ;
blockptr [ 10 ] = color_1 & 0xFF ;
blockptr [ 11 ] = ( color_1 > > 8 ) & 0xFF ;
blockptr [ 12 ] = encode & 0xFF ;
blockptr [ 13 ] = ( encode > > 8 ) & 0xFF ;
blockptr [ 14 ] = ( encode > > 16 ) & 0xFF ;
blockptr [ 15 ] = ( encode > > 24 ) & 0xFF ;
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}
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}
}
//send back to main thread to update un little chunks
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probe_bake_mutex . lock ( ) ;
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probe_data - > dynamic . updating_stage = GI_UPDATE_STAGE_UPLOADING ;
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probe_bake_mutex . unlock ( ) ;
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}
bool VisualServerScene : : _check_gi_probe ( Instance * p_gi_probe ) {
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InstanceGIProbeData * probe_data = static_cast < InstanceGIProbeData * > ( p_gi_probe - > base_data ) ;
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probe_data - > dynamic . light_cache_changes . clear ( ) ;
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bool all_equal = true ;
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for ( List < Instance * > : : Element * E = p_gi_probe - > scenario - > directional_lights . front ( ) ; E ; E = E - > next ( ) ) {
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if ( VSG : : storage - > light_get_bake_mode ( E - > get ( ) - > base ) = = VS : : LightBakeMode : : LIGHT_BAKE_DISABLED )
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continue ;
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InstanceGIProbeData : : LightCache lc ;
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lc . type = VSG : : storage - > light_get_type ( E - > get ( ) - > base ) ;
lc . color = VSG : : storage - > light_get_color ( E - > get ( ) - > base ) ;
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lc . energy = VSG : : storage - > light_get_param ( E - > get ( ) - > base , VS : : LIGHT_PARAM_ENERGY ) * VSG : : storage - > light_get_param ( E - > get ( ) - > base , VS : : LIGHT_PARAM_INDIRECT_ENERGY ) ;
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lc . radius = VSG : : storage - > light_get_param ( E - > get ( ) - > base , VS : : LIGHT_PARAM_RANGE ) ;
lc . attenuation = VSG : : storage - > light_get_param ( E - > get ( ) - > base , VS : : LIGHT_PARAM_ATTENUATION ) ;
lc . spot_angle = VSG : : storage - > light_get_param ( E - > get ( ) - > base , VS : : LIGHT_PARAM_SPOT_ANGLE ) ;
lc . spot_attenuation = VSG : : storage - > light_get_param ( E - > get ( ) - > base , VS : : LIGHT_PARAM_SPOT_ATTENUATION ) ;
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lc . transform = probe_data - > dynamic . light_to_cell_xform * E - > get ( ) - > transform ;
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lc . visible = E - > get ( ) - > visible ;
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2018-10-06 20:20:41 +00:00
if ( ! probe_data - > dynamic . light_cache . has ( E - > get ( ) - > self ) | | probe_data - > dynamic . light_cache [ E - > get ( ) - > self ] ! = lc ) {
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all_equal = false ;
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}
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probe_data - > dynamic . light_cache_changes [ E - > get ( ) - > self ] = lc ;
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}
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for ( Set < Instance * > : : Element * E = probe_data - > lights . front ( ) ; E ; E = E - > next ( ) ) {
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2020-08-30 18:16:24 +00:00
if ( VSG : : storage - > light_get_bake_mode ( E - > get ( ) - > base ) = = VS : : LightBakeMode : : LIGHT_BAKE_DISABLED )
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continue ;
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InstanceGIProbeData : : LightCache lc ;
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lc . type = VSG : : storage - > light_get_type ( E - > get ( ) - > base ) ;
lc . color = VSG : : storage - > light_get_color ( E - > get ( ) - > base ) ;
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lc . energy = VSG : : storage - > light_get_param ( E - > get ( ) - > base , VS : : LIGHT_PARAM_ENERGY ) * VSG : : storage - > light_get_param ( E - > get ( ) - > base , VS : : LIGHT_PARAM_INDIRECT_ENERGY ) ;
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lc . radius = VSG : : storage - > light_get_param ( E - > get ( ) - > base , VS : : LIGHT_PARAM_RANGE ) ;
lc . attenuation = VSG : : storage - > light_get_param ( E - > get ( ) - > base , VS : : LIGHT_PARAM_ATTENUATION ) ;
lc . spot_angle = VSG : : storage - > light_get_param ( E - > get ( ) - > base , VS : : LIGHT_PARAM_SPOT_ANGLE ) ;
lc . spot_attenuation = VSG : : storage - > light_get_param ( E - > get ( ) - > base , VS : : LIGHT_PARAM_SPOT_ATTENUATION ) ;
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lc . transform = probe_data - > dynamic . light_to_cell_xform * E - > get ( ) - > transform ;
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lc . visible = E - > get ( ) - > visible ;
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2018-10-06 20:20:41 +00:00
if ( ! probe_data - > dynamic . light_cache . has ( E - > get ( ) - > self ) | | probe_data - > dynamic . light_cache [ E - > get ( ) - > self ] ! = lc ) {
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all_equal = false ;
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}
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probe_data - > dynamic . light_cache_changes [ E - > get ( ) - > self ] = lc ;
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}
//lighting changed from after to before, must do some updating
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return ! all_equal | | probe_data - > dynamic . light_cache_changes . size ( ) ! = probe_data - > dynamic . light_cache . size ( ) ;
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}
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2016-11-19 16:23:37 +00:00
void VisualServerScene : : render_probes ( ) {
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/* REFLECTION PROBES */
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SelfList < InstanceReflectionProbeData > * ref_probe = reflection_probe_render_list . first ( ) ;
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2017-03-05 15:44:50 +00:00
bool busy = false ;
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while ( ref_probe ) {
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2017-03-05 15:44:50 +00:00
SelfList < InstanceReflectionProbeData > * next = ref_probe - > next ( ) ;
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RID base = ref_probe - > self ( ) - > owner - > base ;
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2017-03-05 15:44:50 +00:00
switch ( VSG : : storage - > reflection_probe_get_update_mode ( base ) ) {
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case VS : : REFLECTION_PROBE_UPDATE_ONCE : {
if ( busy ) //already rendering something
break ;
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bool done = _render_reflection_probe_step ( ref_probe - > self ( ) - > owner , ref_probe - > self ( ) - > render_step ) ;
2016-11-19 16:23:37 +00:00
if ( done ) {
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reflection_probe_render_list . remove ( ref_probe ) ;
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} else {
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ref_probe - > self ( ) - > render_step + + ;
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}
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busy = true ; //do not render another one of this kind
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} break ;
case VS : : REFLECTION_PROBE_UPDATE_ALWAYS : {
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int step = 0 ;
bool done = false ;
while ( ! done ) {
done = _render_reflection_probe_step ( ref_probe - > self ( ) - > owner , step ) ;
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step + + ;
}
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reflection_probe_render_list . remove ( ref_probe ) ;
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} break ;
}
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ref_probe = next ;
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}
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/* GI PROBES */
SelfList < InstanceGIProbeData > * gi_probe = gi_probe_update_list . first ( ) ;
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while ( gi_probe ) {
2016-12-20 03:21:07 +00:00
2017-03-05 15:44:50 +00:00
SelfList < InstanceGIProbeData > * next = gi_probe - > next ( ) ;
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InstanceGIProbeData * probe = gi_probe - > self ( ) ;
Instance * instance_probe = probe - > owner ;
//check if probe must be setup, but don't do if on the lighting thread
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bool force_lighting = false ;
2016-12-20 03:21:07 +00:00
2017-03-05 15:44:50 +00:00
if ( probe - > invalid | | ( probe - > dynamic . updating_stage = = GI_UPDATE_STAGE_CHECK & & probe - > base_version ! = VSG : : storage - > gi_probe_get_version ( instance_probe - > base ) ) ) {
2016-12-20 03:21:07 +00:00
_setup_gi_probe ( instance_probe ) ;
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force_lighting = true ;
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}
2017-02-06 08:12:15 +00:00
float propagate = VSG : : storage - > gi_probe_get_propagation ( instance_probe - > base ) ;
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if ( probe - > dynamic . propagate ! = propagate ) {
probe - > dynamic . propagate = propagate ;
force_lighting = true ;
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}
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if ( ! probe - > invalid & & probe - > dynamic . enabled ) {
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2017-03-05 15:44:50 +00:00
switch ( probe - > dynamic . updating_stage ) {
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case GI_UPDATE_STAGE_CHECK : {
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if ( _check_gi_probe ( instance_probe ) | | force_lighting ) { //send to lighting thread
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# ifndef NO_THREADS
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probe_bake_mutex . lock ( ) ;
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probe - > dynamic . updating_stage = GI_UPDATE_STAGE_LIGHTING ;
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probe_bake_list . push_back ( instance_probe ) ;
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probe_bake_mutex . unlock ( ) ;
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probe_bake_sem . post ( ) ;
2016-12-20 03:21:07 +00:00
# else
_bake_gi_probe ( instance_probe ) ;
# endif
}
} break ;
case GI_UPDATE_STAGE_LIGHTING : {
//do none, wait til done!
} break ;
case GI_UPDATE_STAGE_UPLOADING : {
2018-08-24 07:35:07 +00:00
//uint64_t us = OS::get_singleton()->get_ticks_usec();
2016-12-20 03:21:07 +00:00
2017-03-05 15:44:50 +00:00
for ( int i = 0 ; i < ( int ) probe - > dynamic . mipmaps_3d . size ( ) ; i + + ) {
2016-12-20 03:21:07 +00:00
2017-01-07 21:25:37 +00:00
PoolVector < uint8_t > : : Read r = probe - > dynamic . mipmaps_3d [ i ] . read ( ) ;
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VSG : : storage - > gi_probe_dynamic_data_update ( probe - > dynamic . probe_data , 0 , probe - > dynamic . grid_size [ 2 ] > > i , i , r . ptr ( ) ) ;
2016-12-20 03:21:07 +00:00
}
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probe - > dynamic . updating_stage = GI_UPDATE_STAGE_CHECK ;
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2018-08-24 07:35:07 +00:00
//print_line("UPLOAD TIME: " + rtos((OS::get_singleton()->get_ticks_usec() - us) / 1000000.0));
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} break ;
}
}
//_update_gi_probe(gi_probe->self()->owner);
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gi_probe = next ;
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}
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}
void VisualServerScene : : _update_dirty_instance ( Instance * p_instance ) {
2016-10-19 14:14:41 +00:00
2017-08-18 18:11:16 +00:00
if ( p_instance - > update_aabb ) {
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_update_instance_aabb ( p_instance ) ;
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}
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if ( p_instance - > update_materials ) {
2016-11-10 02:55:06 +00:00
2017-03-05 15:44:50 +00:00
if ( p_instance - > base_type = = VS : : INSTANCE_MESH ) {
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//remove materials no longer used and un-own them
int new_mat_count = VSG : : storage - > mesh_get_surface_count ( p_instance - > base ) ;
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for ( int i = p_instance - > materials . size ( ) - 1 ; i > = new_mat_count ; i - - ) {
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if ( p_instance - > materials [ i ] . is_valid ( ) ) {
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VSG : : storage - > material_remove_instance_owner ( p_instance - > materials [ i ] , p_instance ) ;
2016-11-10 02:55:06 +00:00
}
}
p_instance - > materials . resize ( new_mat_count ) ;
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2017-01-12 11:34:00 +00:00
int new_blend_shape_count = VSG : : storage - > mesh_get_blend_shape_count ( p_instance - > base ) ;
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if ( new_blend_shape_count ! = p_instance - > blend_values . size ( ) ) {
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p_instance - > blend_values . resize ( new_blend_shape_count ) ;
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for ( int i = 0 ; i < new_blend_shape_count ; i + + ) {
2018-07-25 01:11:03 +00:00
p_instance - > blend_values . write [ i ] = 0 ;
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}
}
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}
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if ( ( 1 < < p_instance - > base_type ) & VS : : INSTANCE_GEOMETRY_MASK ) {
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InstanceGeometryData * geom = static_cast < InstanceGeometryData * > ( p_instance - > base_data ) ;
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bool can_cast_shadows = true ;
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bool is_animated = false ;
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if ( p_instance - > cast_shadows = = VS : : SHADOW_CASTING_SETTING_OFF ) {
can_cast_shadows = false ;
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} else if ( p_instance - > material_override . is_valid ( ) ) {
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can_cast_shadows = VSG : : storage - > material_casts_shadows ( p_instance - > material_override ) ;
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is_animated = VSG : : storage - > material_is_animated ( p_instance - > material_override ) ;
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} else {
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if ( p_instance - > base_type = = VS : : INSTANCE_MESH ) {
RID mesh = p_instance - > base ;
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if ( mesh . is_valid ( ) ) {
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bool cast_shadows = false ;
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for ( int i = 0 ; i < p_instance - > materials . size ( ) ; i + + ) {
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RID mat = p_instance - > materials [ i ] . is_valid ( ) ? p_instance - > materials [ i ] : VSG : : storage - > mesh_surface_get_material ( mesh , i ) ;
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if ( ! mat . is_valid ( ) ) {
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cast_shadows = true ;
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} else {
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if ( VSG : : storage - > material_casts_shadows ( mat ) ) {
cast_shadows = true ;
}
if ( VSG : : storage - > material_is_animated ( mat ) ) {
is_animated = true ;
}
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}
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}
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if ( ! cast_shadows ) {
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can_cast_shadows = false ;
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}
}
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} else if ( p_instance - > base_type = = VS : : INSTANCE_MULTIMESH ) {
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RID mesh = VSG : : storage - > multimesh_get_mesh ( p_instance - > base ) ;
if ( mesh . is_valid ( ) ) {
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bool cast_shadows = false ;
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int sc = VSG : : storage - > mesh_get_surface_count ( mesh ) ;
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for ( int i = 0 ; i < sc ; i + + ) {
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RID mat = VSG : : storage - > mesh_surface_get_material ( mesh , i ) ;
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if ( ! mat . is_valid ( ) ) {
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cast_shadows = true ;
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} else {
if ( VSG : : storage - > material_casts_shadows ( mat ) ) {
cast_shadows = true ;
}
if ( VSG : : storage - > material_is_animated ( mat ) ) {
is_animated = true ;
}
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}
}
if ( ! cast_shadows ) {
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can_cast_shadows = false ;
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}
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}
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} else if ( p_instance - > base_type = = VS : : INSTANCE_IMMEDIATE ) {
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RID mat = VSG : : storage - > immediate_get_material ( p_instance - > base ) ;
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can_cast_shadows = ! mat . is_valid ( ) | | VSG : : storage - > material_casts_shadows ( mat ) ;
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if ( mat . is_valid ( ) & & VSG : : storage - > material_is_animated ( mat ) ) {
is_animated = true ;
}
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} else if ( p_instance - > base_type = = VS : : INSTANCE_PARTICLES ) {
bool cast_shadows = false ;
int dp = VSG : : storage - > particles_get_draw_passes ( p_instance - > base ) ;
for ( int i = 0 ; i < dp ; i + + ) {
RID mesh = VSG : : storage - > particles_get_draw_pass_mesh ( p_instance - > base , i ) ;
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if ( ! mesh . is_valid ( ) )
continue ;
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int sc = VSG : : storage - > mesh_get_surface_count ( mesh ) ;
for ( int j = 0 ; j < sc ; j + + ) {
RID mat = VSG : : storage - > mesh_surface_get_material ( mesh , j ) ;
if ( ! mat . is_valid ( ) ) {
cast_shadows = true ;
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} else {
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if ( VSG : : storage - > material_casts_shadows ( mat ) ) {
cast_shadows = true ;
}
if ( VSG : : storage - > material_is_animated ( mat ) ) {
is_animated = true ;
}
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}
}
}
if ( ! cast_shadows ) {
can_cast_shadows = false ;
}
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}
}
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if ( can_cast_shadows ! = geom - > can_cast_shadows ) {
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//ability to cast shadows change, let lights now
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for ( List < Instance * > : : Element * E = geom - > lighting . front ( ) ; E ; E = E - > next ( ) ) {
InstanceLightData * light = static_cast < InstanceLightData * > ( E - > get ( ) - > base_data ) ;
light - > shadow_dirty = true ;
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}
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geom - > can_cast_shadows = can_cast_shadows ;
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}
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geom - > material_is_animated = is_animated ;
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}
}
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_instance_update_list . remove ( & p_instance - > update_item ) ;
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_update_instance ( p_instance ) ;
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p_instance - > update_aabb = false ;
p_instance - > update_materials = false ;
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}
void VisualServerScene : : update_dirty_instances ( ) {
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VSG : : storage - > update_dirty_resources ( ) ;
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// this is just to get access to scenario so we can update the spatial partitioning scheme
Scenario * scenario = nullptr ;
if ( _instance_update_list . first ( ) ) {
scenario = _instance_update_list . first ( ) - > self ( ) - > scenario ;
}
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while ( _instance_update_list . first ( ) ) {
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_update_dirty_instance ( _instance_update_list . first ( ) - > self ( ) ) ;
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}
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if ( scenario ) {
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scenario - > sps - > update ( ) ;
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}
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}
bool VisualServerScene : : free ( RID p_rid ) {
if ( camera_owner . owns ( p_rid ) ) {
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Camera * camera = camera_owner . get ( p_rid ) ;
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camera_owner . free ( p_rid ) ;
memdelete ( camera ) ;
} else if ( scenario_owner . owns ( p_rid ) ) {
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Scenario * scenario = scenario_owner . get ( p_rid ) ;
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while ( scenario - > instances . first ( ) ) {
instance_set_scenario ( scenario - > instances . first ( ) - > self ( ) - > self , RID ( ) ) ;
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}
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VSG : : scene_render - > free ( scenario - > reflection_probe_shadow_atlas ) ;
VSG : : scene_render - > free ( scenario - > reflection_atlas ) ;
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scenario_owner . free ( p_rid ) ;
memdelete ( scenario ) ;
} else if ( instance_owner . owns ( p_rid ) ) {
// delete the instance
update_dirty_instances ( ) ;
Instance * instance = instance_owner . get ( p_rid ) ;
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instance_set_use_lightmap ( p_rid , RID ( ) , RID ( ) , - 1 , Rect2 ( 0 , 0 , 1 , 1 ) ) ;
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instance_set_scenario ( p_rid , RID ( ) ) ;
instance_set_base ( p_rid , RID ( ) ) ;
instance_geometry_set_material_override ( p_rid , RID ( ) ) ;
instance_attach_skeleton ( p_rid , RID ( ) ) ;
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update_dirty_instances ( ) ; //in case something changed this
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instance_owner . free ( p_rid ) ;
memdelete ( instance ) ;
} else {
return false ;
}
return true ;
}
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VisualServerScene * VisualServerScene : : singleton = NULL ;
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VisualServerScene : : VisualServerScene ( ) {
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probe_bake_thread . start ( _gi_probe_bake_threads , this ) ;
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probe_bake_thread_exit = false ;
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render_pass = 1 ;
singleton = this ;
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_use_bvh = GLOBAL_DEF ( " rendering/quality/spatial_partitioning/use_bvh " , true ) ;
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}
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VisualServerScene : : ~ VisualServerScene ( ) {
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probe_bake_thread_exit = true ;
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probe_bake_sem . post ( ) ;
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probe_bake_thread . wait_to_finish ( ) ;
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}