Attention: Here be dragons

This is the latest (unstable) version of this documentation, which may document features not available in or compatible with released stable versions of Godot.

RenderingServer

Inherits: Object

Server for anything visible.

描述

The rendering server is the API backend for everything visible. The whole scene system mounts on it to display. The rendering server is completely opaque: the internals are entirely implementation-specific and cannot be accessed.

The rendering server can be used to bypass the scene/Node system entirely. This can improve performance in cases where the scene system is the bottleneck, but won't improve performance otherwise (for instance, if the GPU is already fully utilized).

Resources are created using the *_create functions. These functions return RIDs which are not references to the objects themselves, but opaque pointers towards these objects.

All objects are drawn to a viewport. You can use the Viewport attached to the SceneTree or you can create one yourself with viewport_create. When using a custom scenario or canvas, the scenario or canvas needs to be attached to the viewport using viewport_set_scenario or viewport_attach_canvas.

Scenarios: In 3D, all visual objects must be associated with a scenario. The scenario is a visual representation of the world. If accessing the rendering server from a running game, the scenario can be accessed from the scene tree from any Node3D node with Node3D.get_world_3d. Otherwise, a scenario can be created with scenario_create.

Similarly, in 2D, a canvas is needed to draw all canvas items.

3D: In 3D, all visible objects are comprised of a resource and an instance. A resource can be a mesh, a particle system, a light, or any other 3D object. In order to be visible resources must be attached to an instance using instance_set_base. The instance must also be attached to the scenario using instance_set_scenario in order to be visible. RenderingServer methods that don't have a prefix are usually 3D-specific (but not always).

2D: In 2D, all visible objects are some form of canvas item. In order to be visible, a canvas item needs to be the child of a canvas attached to a viewport, or it needs to be the child of another canvas item that is eventually attached to the canvas. 2D-specific RenderingServer methods generally start with canvas_*.

Headless mode: Starting the engine with the --headless command line argument disables all rendering and window management functions. Most functions from RenderingServer will return dummy values in this case.

教程

属性

bool

render_loop_enabled

Methods

Image[]

bake_render_uv2 ( RID base, RID[] material_overrides, Vector2i image_size )

void

call_on_render_thread ( Callable callable )

RID

camera_attributes_create ( )

void

camera_attributes_set_auto_exposure ( RID camera_attributes, bool enable, float min_sensitivity, float max_sensitivity, float speed, float scale )

void

camera_attributes_set_dof_blur ( RID camera_attributes, bool far_enable, float far_distance, float far_transition, bool near_enable, float near_distance, float near_transition, float amount )

void

camera_attributes_set_dof_blur_bokeh_shape ( DOFBokehShape shape )

void

camera_attributes_set_dof_blur_quality ( DOFBlurQuality quality, bool use_jitter )

void

camera_attributes_set_exposure ( RID camera_attributes, float multiplier, float normalization )

RID

camera_create ( )

void

camera_set_camera_attributes ( RID camera, RID effects )

void

camera_set_cull_mask ( RID camera, int layers )

void

camera_set_environment ( RID camera, RID env )

void

camera_set_frustum ( RID camera, float size, Vector2 offset, float z_near, float z_far )

void

camera_set_orthogonal ( RID camera, float size, float z_near, float z_far )

void

camera_set_perspective ( RID camera, float fovy_degrees, float z_near, float z_far )

void

camera_set_transform ( RID camera, Transform3D transform )

void

camera_set_use_vertical_aspect ( RID camera, bool enable )

RID

canvas_create ( )

void

canvas_item_add_animation_slice ( RID item, float animation_length, float slice_begin, float slice_end, float offset=0.0 )

void

canvas_item_add_circle ( RID item, Vector2 pos, float radius, Color color )

void

canvas_item_add_clip_ignore ( RID item, bool ignore )

void

canvas_item_add_lcd_texture_rect_region ( RID item, Rect2 rect, RID texture, Rect2 src_rect, Color modulate )

void

canvas_item_add_line ( RID item, Vector2 from, Vector2 to, Color color, float width=-1.0, bool antialiased=false )

void

canvas_item_add_mesh ( RID item, RID mesh, Transform2D transform=Transform2D(1, 0, 0, 1, 0, 0), Color modulate=Color(1, 1, 1, 1), RID texture=RID() )

void

canvas_item_add_msdf_texture_rect_region ( RID item, Rect2 rect, RID texture, Rect2 src_rect, Color modulate=Color(1, 1, 1, 1), int outline_size=0, float px_range=1.0, float scale=1.0 )

void

canvas_item_add_multiline ( RID item, PackedVector2Array points, PackedColorArray colors, float width=-1.0 )

void

canvas_item_add_multimesh ( RID item, RID mesh, RID texture=RID() )

void

canvas_item_add_nine_patch ( RID item, Rect2 rect, Rect2 source, RID texture, Vector2 topleft, Vector2 bottomright, NinePatchAxisMode x_axis_mode=0, NinePatchAxisMode y_axis_mode=0, bool draw_center=true, Color modulate=Color(1, 1, 1, 1) )

void

canvas_item_add_particles ( RID item, RID particles, RID texture )

void

canvas_item_add_polygon ( RID item, PackedVector2Array points, PackedColorArray colors, PackedVector2Array uvs=PackedVector2Array(), RID texture=RID() )

void

canvas_item_add_polyline ( RID item, PackedVector2Array points, PackedColorArray colors, float width=-1.0, bool antialiased=false )

void

canvas_item_add_primitive ( RID item, PackedVector2Array points, PackedColorArray colors, PackedVector2Array uvs, RID texture )

void

canvas_item_add_rect ( RID item, Rect2 rect, Color color )

void

canvas_item_add_set_transform ( RID item, Transform2D transform )

void

canvas_item_add_texture_rect ( RID item, Rect2 rect, RID texture, bool tile=false, Color modulate=Color(1, 1, 1, 1), bool transpose=false )

void

canvas_item_add_texture_rect_region ( RID item, Rect2 rect, RID texture, Rect2 src_rect, Color modulate=Color(1, 1, 1, 1), bool transpose=false, bool clip_uv=true )

void

canvas_item_add_triangle_array ( RID item, PackedInt32Array indices, PackedVector2Array points, PackedColorArray colors, PackedVector2Array uvs=PackedVector2Array(), PackedInt32Array bones=PackedInt32Array(), PackedFloat32Array weights=PackedFloat32Array(), RID texture=RID(), int count=-1 )

void

canvas_item_clear ( RID item )

RID

canvas_item_create ( )

void

canvas_item_set_canvas_group_mode ( RID item, CanvasGroupMode mode, float clear_margin=5.0, bool fit_empty=false, float fit_margin=0.0, bool blur_mipmaps=false )

void

canvas_item_set_clip ( RID item, bool clip )

void

canvas_item_set_copy_to_backbuffer ( RID item, bool enabled, Rect2 rect )

void

canvas_item_set_custom_rect ( RID item, bool use_custom_rect, Rect2 rect=Rect2(0, 0, 0, 0) )

void

canvas_item_set_default_texture_filter ( RID item, CanvasItemTextureFilter filter )

void

canvas_item_set_default_texture_repeat ( RID item, CanvasItemTextureRepeat repeat )

void

canvas_item_set_distance_field_mode ( RID item, bool enabled )

void

canvas_item_set_draw_behind_parent ( RID item, bool enabled )

void

canvas_item_set_draw_index ( RID item, int index )

void

canvas_item_set_light_mask ( RID item, int mask )

void

canvas_item_set_material ( RID item, RID material )

void

canvas_item_set_modulate ( RID item, Color color )

void

canvas_item_set_parent ( RID item, RID parent )

void

canvas_item_set_self_modulate ( RID item, Color color )

void

canvas_item_set_sort_children_by_y ( RID item, bool enabled )

void

canvas_item_set_transform ( RID item, Transform2D transform )

void

canvas_item_set_use_parent_material ( RID item, bool enabled )

void

canvas_item_set_visibility_layer ( RID item, int visibility_layer )

void

canvas_item_set_visibility_notifier ( RID item, bool enable, Rect2 area, Callable enter_callable, Callable exit_callable )

void

canvas_item_set_visible ( RID item, bool visible )

void

canvas_item_set_z_as_relative_to_parent ( RID item, bool enabled )

void

canvas_item_set_z_index ( RID item, int z_index )

void

canvas_light_attach_to_canvas ( RID light, RID canvas )

RID

canvas_light_create ( )

void

canvas_light_occluder_attach_to_canvas ( RID occluder, RID canvas )

RID

canvas_light_occluder_create ( )

void

canvas_light_occluder_set_as_sdf_collision ( RID occluder, bool enable )

void

canvas_light_occluder_set_enabled ( RID occluder, bool enabled )

void

canvas_light_occluder_set_light_mask ( RID occluder, int mask )

void

canvas_light_occluder_set_polygon ( RID occluder, RID polygon )

void

canvas_light_occluder_set_transform ( RID occluder, Transform2D transform )

void

canvas_light_set_blend_mode ( RID light, CanvasLightBlendMode mode )

void

canvas_light_set_color ( RID light, Color color )

void

canvas_light_set_enabled ( RID light, bool enabled )

void

canvas_light_set_energy ( RID light, float energy )

void

canvas_light_set_height ( RID light, float height )

void

canvas_light_set_item_cull_mask ( RID light, int mask )

void

canvas_light_set_item_shadow_cull_mask ( RID light, int mask )

void

canvas_light_set_layer_range ( RID light, int min_layer, int max_layer )

void

canvas_light_set_mode ( RID light, CanvasLightMode mode )

void

canvas_light_set_shadow_color ( RID light, Color color )

void

canvas_light_set_shadow_enabled ( RID light, bool enabled )

void

canvas_light_set_shadow_filter ( RID light, CanvasLightShadowFilter filter )

void

canvas_light_set_shadow_smooth ( RID light, float smooth )

void

canvas_light_set_texture ( RID light, RID texture )

void

canvas_light_set_texture_offset ( RID light, Vector2 offset )

void

canvas_light_set_texture_scale ( RID light, float scale )

void

canvas_light_set_transform ( RID light, Transform2D transform )

void

canvas_light_set_z_range ( RID light, int min_z, int max_z )

RID

canvas_occluder_polygon_create ( )

void

canvas_occluder_polygon_set_cull_mode ( RID occluder_polygon, CanvasOccluderPolygonCullMode mode )

void

canvas_occluder_polygon_set_shape ( RID occluder_polygon, PackedVector2Array shape, bool closed )

void

canvas_set_disable_scale ( bool disable )

void

canvas_set_item_mirroring ( RID canvas, RID item, Vector2 mirroring )

void

canvas_set_modulate ( RID canvas, Color color )

void

canvas_set_shadow_texture_size ( int size )

RID

canvas_texture_create ( )

void

canvas_texture_set_channel ( RID canvas_texture, CanvasTextureChannel channel, RID texture )

void

canvas_texture_set_shading_parameters ( RID canvas_texture, Color base_color, float shininess )

void

canvas_texture_set_texture_filter ( RID canvas_texture, CanvasItemTextureFilter filter )

void

canvas_texture_set_texture_repeat ( RID canvas_texture, CanvasItemTextureRepeat repeat )

RenderingDevice

create_local_rendering_device ( ) const

RID

decal_create ( )

void

decal_set_albedo_mix ( RID decal, float albedo_mix )

void

decal_set_cull_mask ( RID decal, int mask )

void

decal_set_distance_fade ( RID decal, bool enabled, float begin, float length )

void

decal_set_emission_energy ( RID decal, float energy )

void

decal_set_fade ( RID decal, float above, float below )

void

decal_set_modulate ( RID decal, Color color )

void

decal_set_normal_fade ( RID decal, float fade )

void

decal_set_size ( RID decal, Vector3 size )

void

decal_set_texture ( RID decal, DecalTexture type, RID texture )

void

decals_set_filter ( DecalFilter filter )

RID

directional_light_create ( )

void

directional_shadow_atlas_set_size ( int size, bool is_16bits )

void

directional_soft_shadow_filter_set_quality ( ShadowQuality quality )

Image

environment_bake_panorama ( RID environment, bool bake_irradiance, Vector2i size )

RID

environment_create ( )

void

environment_glow_set_use_bicubic_upscale ( bool enable )

void

environment_set_adjustment ( RID env, bool enable, float brightness, float contrast, float saturation, bool use_1d_color_correction, RID color_correction )

void

environment_set_ambient_light ( RID env, Color color, EnvironmentAmbientSource ambient=0, float energy=1.0, float sky_contibution=0.0, EnvironmentReflectionSource reflection_source=0 )

void

environment_set_background ( RID env, EnvironmentBG bg )

void

environment_set_bg_color ( RID env, Color color )

void

environment_set_bg_energy ( RID env, float multiplier, float exposure_value )

void

environment_set_canvas_max_layer ( RID env, int max_layer )

void

environment_set_fog ( RID env, bool enable, Color light_color, float light_energy, float sun_scatter, float density, float height, float height_density, float aerial_perspective, float sky_affect )

void

environment_set_glow ( RID env, bool enable, PackedFloat32Array levels, float intensity, float strength, float mix, float bloom_threshold, EnvironmentGlowBlendMode blend_mode, float hdr_bleed_threshold, float hdr_bleed_scale, float hdr_luminance_cap, float glow_map_strength, RID glow_map )

void

environment_set_sdfgi ( RID env, bool enable, int cascades, float min_cell_size, EnvironmentSDFGIYScale y_scale, bool use_occlusion, float bounce_feedback, bool read_sky, float energy, float normal_bias, float probe_bias )

void

environment_set_sdfgi_frames_to_converge ( EnvironmentSDFGIFramesToConverge frames )

void

environment_set_sdfgi_frames_to_update_light ( EnvironmentSDFGIFramesToUpdateLight frames )

void

environment_set_sdfgi_ray_count ( EnvironmentSDFGIRayCount ray_count )

void

environment_set_sky ( RID env, RID sky )

void

environment_set_sky_custom_fov ( RID env, float scale )

void

environment_set_sky_orientation ( RID env, Basis orientation )

void

environment_set_ssao ( RID env, bool enable, float radius, float intensity, float power, float detail, float horizon, float sharpness, float light_affect, float ao_channel_affect )

void

environment_set_ssao_quality ( EnvironmentSSAOQuality quality, bool half_size, float adaptive_target, int blur_passes, float fadeout_from, float fadeout_to )

void

environment_set_ssil_quality ( EnvironmentSSILQuality quality, bool half_size, float adaptive_target, int blur_passes, float fadeout_from, float fadeout_to )

void

environment_set_ssr ( RID env, bool enable, int max_steps, float fade_in, float fade_out, float depth_tolerance )

void

environment_set_ssr_roughness_quality ( EnvironmentSSRRoughnessQuality quality )

void

environment_set_tonemap ( RID env, EnvironmentToneMapper tone_mapper, float exposure, float white )

void

environment_set_volumetric_fog ( RID env, bool enable, float density, Color albedo, Color emission, float emission_energy, float anisotropy, float length, float p_detail_spread, float gi_inject, bool temporal_reprojection, float temporal_reprojection_amount, float ambient_inject, float sky_affect )

void

environment_set_volumetric_fog_filter_active ( bool active )

void

environment_set_volumetric_fog_volume_size ( int size, int depth )

RID

fog_volume_create ( )

void

fog_volume_set_material ( RID fog_volume, RID material )

void

fog_volume_set_shape ( RID fog_volume, FogVolumeShape shape )

void

fog_volume_set_size ( RID fog_volume, Vector3 size )

void

force_draw ( bool swap_buffers=true, float frame_step=0.0 )

void

force_sync ( )

void

free_rid ( RID rid )

Color

get_default_clear_color ( )

float

get_frame_setup_time_cpu ( ) const

RenderingDevice

get_rendering_device ( ) const

int

get_rendering_info ( RenderingInfo info )

Dictionary[]

get_shader_parameter_list ( RID shader ) const

RID

get_test_cube ( )

RID

get_test_texture ( )

String

get_video_adapter_api_version ( ) const

String

get_video_adapter_name ( ) const

DeviceType

get_video_adapter_type ( ) const

String

get_video_adapter_vendor ( ) const

RID

get_white_texture ( )

void

gi_set_use_half_resolution ( bool half_resolution )

void

global_shader_parameter_add ( StringName name, GlobalShaderParameterType type, Variant default_value )

Variant

global_shader_parameter_get ( StringName name ) const

StringName[]

global_shader_parameter_get_list ( ) const

GlobalShaderParameterType

global_shader_parameter_get_type ( StringName name ) const

void

global_shader_parameter_remove ( StringName name )

void

global_shader_parameter_set ( StringName name, Variant value )

void

global_shader_parameter_set_override ( StringName name, Variant value )

bool

has_changed ( ) const

bool

has_feature ( Features feature ) const

bool

has_os_feature ( String feature ) const

void

instance_attach_object_instance_id ( RID instance, int id )

void

instance_attach_skeleton ( RID instance, RID skeleton )

RID

instance_create ( )

RID

instance_create2 ( RID base, RID scenario )

Variant

instance_geometry_get_shader_parameter ( RID instance, StringName parameter ) const

Variant

instance_geometry_get_shader_parameter_default_value ( RID instance, StringName parameter ) const

Dictionary[]

instance_geometry_get_shader_parameter_list ( RID instance ) const

void

instance_geometry_set_cast_shadows_setting ( RID instance, ShadowCastingSetting shadow_casting_setting )

void

instance_geometry_set_flag ( RID instance, InstanceFlags flag, bool enabled )

void

instance_geometry_set_lightmap ( RID instance, RID lightmap, Rect2 lightmap_uv_scale, int lightmap_slice )

void

instance_geometry_set_lod_bias ( RID instance, float lod_bias )

void

instance_geometry_set_material_overlay ( RID instance, RID material )

void

instance_geometry_set_material_override ( RID instance, RID material )

void

instance_geometry_set_shader_parameter ( RID instance, StringName parameter, Variant value )

void

instance_geometry_set_transparency ( RID instance, float transparency )

void

instance_geometry_set_visibility_range ( RID instance, float min, float max, float min_margin, float max_margin, VisibilityRangeFadeMode fade_mode )

void

instance_set_base ( RID instance, RID base )

void

instance_set_blend_shape_weight ( RID instance, int shape, float weight )

void

instance_set_custom_aabb ( RID instance, AABB aabb )

void

instance_set_extra_visibility_margin ( RID instance, float margin )

void

instance_set_ignore_culling ( RID instance, bool enabled )

void

instance_set_layer_mask ( RID instance, int mask )

void

instance_set_pivot_data ( RID instance, float sorting_offset, bool use_aabb_center )

void

instance_set_scenario ( RID instance, RID scenario )

void

instance_set_surface_override_material ( RID instance, int surface, RID material )

void

instance_set_transform ( RID instance, Transform3D transform )

void

instance_set_visibility_parent ( RID instance, RID parent )

void

instance_set_visible ( RID instance, bool visible )

PackedInt64Array

instances_cull_aabb ( AABB aabb, RID scenario=RID() ) const

PackedInt64Array

instances_cull_convex ( Plane[] convex, RID scenario=RID() ) const

PackedInt64Array

instances_cull_ray ( Vector3 from, Vector3 to, RID scenario=RID() ) const

void

light_directional_set_blend_splits ( RID light, bool enable )

void

light_directional_set_shadow_mode ( RID light, LightDirectionalShadowMode mode )

void

light_directional_set_sky_mode ( RID light, LightDirectionalSkyMode mode )

void

light_omni_set_shadow_mode ( RID light, LightOmniShadowMode mode )

void

light_projectors_set_filter ( LightProjectorFilter filter )

void

light_set_bake_mode ( RID light, LightBakeMode bake_mode )

void

light_set_color ( RID light, Color color )

void

light_set_cull_mask ( RID light, int mask )

void

light_set_distance_fade ( RID decal, bool enabled, float begin, float shadow, float length )

void

light_set_max_sdfgi_cascade ( RID light, int cascade )

void

light_set_negative ( RID light, bool enable )

void

light_set_param ( RID light, LightParam param, float value )

void

light_set_projector ( RID light, RID texture )

void

light_set_reverse_cull_face_mode ( RID light, bool enabled )

void

light_set_shadow ( RID light, bool enabled )

RID

lightmap_create ( )

PackedInt32Array

lightmap_get_probe_capture_bsp_tree ( RID lightmap ) const

PackedVector3Array

lightmap_get_probe_capture_points ( RID lightmap ) const

PackedColorArray

lightmap_get_probe_capture_sh ( RID lightmap ) const

PackedInt32Array

lightmap_get_probe_capture_tetrahedra ( RID lightmap ) const

void

lightmap_set_baked_exposure_normalization ( RID lightmap, float baked_exposure )

void

lightmap_set_probe_bounds ( RID lightmap, AABB bounds )

void

lightmap_set_probe_capture_data ( RID lightmap, PackedVector3Array points, PackedColorArray point_sh, PackedInt32Array tetrahedra, PackedInt32Array bsp_tree )

void

lightmap_set_probe_capture_update_speed ( float speed )

void

lightmap_set_probe_interior ( RID lightmap, bool interior )

void

lightmap_set_textures ( RID lightmap, RID light, bool uses_sh )

RID

make_sphere_mesh ( int latitudes, int longitudes, float radius )

RID

material_create ( )

Variant

material_get_param ( RID material, StringName parameter ) const

void

material_set_next_pass ( RID material, RID next_material )

void

material_set_param ( RID material, StringName parameter, Variant value )

void

material_set_render_priority ( RID material, int priority )

void

material_set_shader ( RID shader_material, RID shader )

void

mesh_add_surface ( RID mesh, Dictionary surface )

void

mesh_add_surface_from_arrays ( RID mesh, PrimitiveType primitive, Array arrays, Array blend_shapes=[], Dictionary lods={}, BitField<ArrayFormat> compress_format=0 )

void

mesh_clear ( RID mesh )

RID

mesh_create ( )

RID

mesh_create_from_surfaces ( Dictionary[] surfaces, int blend_shape_count=0 )

int

mesh_get_blend_shape_count ( RID mesh ) const

BlendShapeMode

mesh_get_blend_shape_mode ( RID mesh ) const

AABB

mesh_get_custom_aabb ( RID mesh ) const

Dictionary

mesh_get_surface ( RID mesh, int surface )

int

mesh_get_surface_count ( RID mesh ) const

void

mesh_set_blend_shape_mode ( RID mesh, BlendShapeMode mode )

void

mesh_set_custom_aabb ( RID mesh, AABB aabb )

void

mesh_set_shadow_mesh ( RID mesh, RID shadow_mesh )

Array

mesh_surface_get_arrays ( RID mesh, int surface ) const

Array[]

mesh_surface_get_blend_shape_arrays ( RID mesh, int surface ) const

int

mesh_surface_get_format_attribute_stride ( BitField<ArrayFormat> format, int vertex_count ) const

int

mesh_surface_get_format_offset ( BitField<ArrayFormat> format, int vertex_count, int array_index ) const

int

mesh_surface_get_format_skin_stride ( BitField<ArrayFormat> format, int vertex_count ) const

int

mesh_surface_get_format_vertex_stride ( BitField<ArrayFormat> format, int vertex_count ) const

RID

mesh_surface_get_material ( RID mesh, int surface ) const

void

mesh_surface_set_material ( RID mesh, int surface, RID material )

void

mesh_surface_update_attribute_region ( RID mesh, int surface, int offset, PackedByteArray data )

void

mesh_surface_update_skin_region ( RID mesh, int surface, int offset, PackedByteArray data )

void

mesh_surface_update_vertex_region ( RID mesh, int surface, int offset, PackedByteArray data )

void

multimesh_allocate_data ( RID multimesh, int instances, MultimeshTransformFormat transform_format, bool color_format=false, bool custom_data_format=false )

RID

multimesh_create ( )

AABB

multimesh_get_aabb ( RID multimesh ) const

PackedFloat32Array

multimesh_get_buffer ( RID multimesh ) const

int

multimesh_get_instance_count ( RID multimesh ) const

RID

multimesh_get_mesh ( RID multimesh ) const

int

multimesh_get_visible_instances ( RID multimesh ) const

Color

multimesh_instance_get_color ( RID multimesh, int index ) const

Color

multimesh_instance_get_custom_data ( RID multimesh, int index ) const

Transform3D

multimesh_instance_get_transform ( RID multimesh, int index ) const

Transform2D

multimesh_instance_get_transform_2d ( RID multimesh, int index ) const

void

multimesh_instance_set_color ( RID multimesh, int index, Color color )

void

multimesh_instance_set_custom_data ( RID multimesh, int index, Color custom_data )

void

multimesh_instance_set_transform ( RID multimesh, int index, Transform3D transform )

void

multimesh_instance_set_transform_2d ( RID multimesh, int index, Transform2D transform )

void

multimesh_set_buffer ( RID multimesh, PackedFloat32Array buffer )

void

multimesh_set_mesh ( RID multimesh, RID mesh )

void

multimesh_set_visible_instances ( RID multimesh, int visible )

RID

occluder_create ( )

void

occluder_set_mesh ( RID occluder, PackedVector3Array vertices, PackedInt32Array indices )

RID

omni_light_create ( )

RID

particles_collision_create ( )

void

particles_collision_height_field_update ( RID particles_collision )

void

particles_collision_set_attractor_attenuation ( RID particles_collision, float curve )

void

particles_collision_set_attractor_directionality ( RID particles_collision, float amount )

void

particles_collision_set_attractor_strength ( RID particles_collision, float strength )

void

particles_collision_set_box_extents ( RID particles_collision, Vector3 extents )

void

particles_collision_set_collision_type ( RID particles_collision, ParticlesCollisionType type )

void

particles_collision_set_cull_mask ( RID particles_collision, int mask )

void

particles_collision_set_field_texture ( RID particles_collision, RID texture )

void

particles_collision_set_height_field_resolution ( RID particles_collision, ParticlesCollisionHeightfieldResolution resolution )

void

particles_collision_set_sphere_radius ( RID particles_collision, float radius )

RID

particles_create ( )

void

particles_emit ( RID particles, Transform3D transform, Vector3 velocity, Color color, Color custom, int emit_flags )

AABB

particles_get_current_aabb ( RID particles )

bool

particles_get_emitting ( RID particles )

bool

particles_is_inactive ( RID particles )

void

particles_request_process ( RID particles )

void

particles_restart ( RID particles )

void

particles_set_amount ( RID particles, int amount )

void

particles_set_collision_base_size ( RID particles, float size )

void

particles_set_custom_aabb ( RID particles, AABB aabb )

void

particles_set_draw_order ( RID particles, ParticlesDrawOrder order )

void

particles_set_draw_pass_mesh ( RID particles, int pass, RID mesh )

void

particles_set_draw_passes ( RID particles, int count )

void

particles_set_emission_transform ( RID particles, Transform3D transform )

void

particles_set_emitting ( RID particles, bool emitting )

void

particles_set_explosiveness_ratio ( RID particles, float ratio )

void

particles_set_fixed_fps ( RID particles, int fps )

void

particles_set_fractional_delta ( RID particles, bool enable )

void

particles_set_interpolate ( RID particles, bool enable )

void

particles_set_lifetime ( RID particles, float lifetime )

void

particles_set_mode ( RID particles, ParticlesMode mode )

void

particles_set_one_shot ( RID particles, bool one_shot )

void

particles_set_pre_process_time ( RID particles, float time )

void

particles_set_process_material ( RID particles, RID material )

void

particles_set_randomness_ratio ( RID particles, float ratio )

void

particles_set_speed_scale ( RID particles, float scale )

void

particles_set_subemitter ( RID particles, RID subemitter_particles )

void

particles_set_trail_bind_poses ( RID particles, Transform3D[] bind_poses )

void

particles_set_trails ( RID particles, bool enable, float length_sec )

void

particles_set_transform_align ( RID particles, ParticlesTransformAlign align )

void

particles_set_use_local_coordinates ( RID particles, bool enable )

void

positional_soft_shadow_filter_set_quality ( ShadowQuality quality )

RID

reflection_probe_create ( )

void

reflection_probe_set_ambient_color ( RID probe, Color color )

void

reflection_probe_set_ambient_energy ( RID probe, float energy )

void

reflection_probe_set_ambient_mode ( RID probe, ReflectionProbeAmbientMode mode )

void

reflection_probe_set_as_interior ( RID probe, bool enable )

void

reflection_probe_set_cull_mask ( RID probe, int layers )

void

reflection_probe_set_enable_box_projection ( RID probe, bool enable )

void

reflection_probe_set_enable_shadows ( RID probe, bool enable )

void

reflection_probe_set_intensity ( RID probe, float intensity )

void

reflection_probe_set_max_distance ( RID probe, float distance )

void

reflection_probe_set_mesh_lod_threshold ( RID probe, float pixels )

void

reflection_probe_set_origin_offset ( RID probe, Vector3 offset )

void

reflection_probe_set_resolution ( RID probe, int resolution )

void

reflection_probe_set_size ( RID probe, Vector3 size )

void

reflection_probe_set_update_mode ( RID probe, ReflectionProbeUpdateMode mode )

void

request_frame_drawn_callback ( Callable callable )

RID

scenario_create ( )

void

scenario_set_camera_attributes ( RID scenario, RID effects )

void

scenario_set_environment ( RID scenario, RID environment )

void

scenario_set_fallback_environment ( RID scenario, RID environment )

void

screen_space_roughness_limiter_set_active ( bool enable, float amount, float limit )

void

set_boot_image ( Image image, Color color, bool scale, bool use_filter=true )

void

set_debug_generate_wireframes ( bool generate )

void

set_default_clear_color ( Color color )

RID

shader_create ( )

String

shader_get_code ( RID shader ) const

RID

shader_get_default_texture_parameter ( RID shader, StringName name, int index=0 ) const

Variant

shader_get_parameter_default ( RID shader, StringName name ) const

void

shader_set_code ( RID shader, String code )

void

shader_set_default_texture_parameter ( RID shader, StringName name, RID texture, int index=0 )

void

shader_set_path_hint ( RID shader, String path )

void

skeleton_allocate_data ( RID skeleton, int bones, bool is_2d_skeleton=false )

Transform3D

skeleton_bone_get_transform ( RID skeleton, int bone ) const

Transform2D

skeleton_bone_get_transform_2d ( RID skeleton, int bone ) const

void

skeleton_bone_set_transform ( RID skeleton, int bone, Transform3D transform )

void

skeleton_bone_set_transform_2d ( RID skeleton, int bone, Transform2D transform )

RID

skeleton_create ( )

int

skeleton_get_bone_count ( RID skeleton ) const

void

skeleton_set_base_transform_2d ( RID skeleton, Transform2D base_transform )

Image

sky_bake_panorama ( RID sky, float energy, bool bake_irradiance, Vector2i size )

RID

sky_create ( )

void

sky_set_material ( RID sky, RID material )

void

sky_set_mode ( RID sky, SkyMode mode )

void

sky_set_radiance_size ( RID sky, int radiance_size )

RID

spot_light_create ( )

void

sub_surface_scattering_set_quality ( SubSurfaceScatteringQuality quality )

void

sub_surface_scattering_set_scale ( float scale, float depth_scale )

RID

texture_2d_create ( Image image )

Image

texture_2d_get ( RID texture ) const

Image

texture_2d_layer_get ( RID texture, int layer ) const

RID

texture_2d_layered_create ( Image[] layers, TextureLayeredType layered_type )

RID

texture_2d_layered_placeholder_create ( TextureLayeredType layered_type )

RID

texture_2d_placeholder_create ( )

void

texture_2d_update ( RID texture, Image image, int layer )

RID

texture_3d_create ( Format format, int width, int height, int depth, bool mipmaps, Image[] data )

Image[]

texture_3d_get ( RID texture ) const

RID

texture_3d_placeholder_create ( )

void

texture_3d_update ( RID texture, Image[] data )

Format

texture_get_format ( RID texture ) const

int

texture_get_native_handle ( RID texture, bool srgb=false ) const

String

texture_get_path ( RID texture ) const

RID

texture_get_rd_texture ( RID texture, bool srgb=false ) const

RID

texture_proxy_create ( RID base )

void

texture_proxy_update ( RID texture, RID proxy_to )

RID

texture_rd_create ( RID rd_texture, TextureLayeredType layer_type=0 )

void

texture_replace ( RID texture, RID by_texture )

void

texture_set_force_redraw_if_visible ( RID texture, bool enable )

void

texture_set_path ( RID texture, String path )

void

texture_set_size_override ( RID texture, int width, int height )

void

viewport_attach_camera ( RID viewport, RID camera )

void

viewport_attach_canvas ( RID viewport, RID canvas )

void

viewport_attach_to_screen ( RID viewport, Rect2 rect=Rect2(0, 0, 0, 0), int screen=0 )

RID

viewport_create ( )

float

viewport_get_measured_render_time_cpu ( RID viewport ) const

float

viewport_get_measured_render_time_gpu ( RID viewport ) const

int

viewport_get_render_info ( RID viewport, ViewportRenderInfoType type, ViewportRenderInfo info )

RID

viewport_get_render_target ( RID viewport ) const

RID

viewport_get_texture ( RID viewport ) const

void

viewport_remove_canvas ( RID viewport, RID canvas )

void

viewport_set_active ( RID viewport, bool active )

void

viewport_set_canvas_cull_mask ( RID viewport, int canvas_cull_mask )

void

viewport_set_canvas_stacking ( RID viewport, RID canvas, int layer, int sublayer )

void

viewport_set_canvas_transform ( RID viewport, RID canvas, Transform2D offset )

void

viewport_set_clear_mode ( RID viewport, ViewportClearMode clear_mode )

void

viewport_set_debug_draw ( RID viewport, ViewportDebugDraw draw )

void

viewport_set_default_canvas_item_texture_filter ( RID viewport, CanvasItemTextureFilter filter )

void

viewport_set_default_canvas_item_texture_repeat ( RID viewport, CanvasItemTextureRepeat repeat )

void

viewport_set_disable_2d ( RID viewport, bool disable )

void

viewport_set_disable_3d ( RID viewport, bool disable )

void

viewport_set_environment_mode ( RID viewport, ViewportEnvironmentMode mode )

void

viewport_set_fsr_sharpness ( RID viewport, float sharpness )

void

viewport_set_global_canvas_transform ( RID viewport, Transform2D transform )

void

viewport_set_measure_render_time ( RID viewport, bool enable )

void

viewport_set_msaa_2d ( RID viewport, ViewportMSAA msaa )

void

viewport_set_msaa_3d ( RID viewport, ViewportMSAA msaa )

void

viewport_set_occlusion_culling_build_quality ( ViewportOcclusionCullingBuildQuality quality )

void

viewport_set_occlusion_rays_per_thread ( int rays_per_thread )

void

viewport_set_parent_viewport ( RID viewport, RID parent_viewport )

void

viewport_set_positional_shadow_atlas_quadrant_subdivision ( RID viewport, int quadrant, int subdivision )

void

viewport_set_positional_shadow_atlas_size ( RID viewport, int size, bool use_16_bits=false )

void

viewport_set_render_direct_to_screen ( RID viewport, bool enabled )

void

viewport_set_scaling_3d_mode ( RID viewport, ViewportScaling3DMode scaling_3d_mode )

void

viewport_set_scaling_3d_scale ( RID viewport, float scale )

void

viewport_set_scenario ( RID viewport, RID scenario )

void

viewport_set_screen_space_aa ( RID viewport, ViewportScreenSpaceAA mode )

void

viewport_set_sdf_oversize_and_scale ( RID viewport, ViewportSDFOversize oversize, ViewportSDFScale scale )

void

viewport_set_size ( RID viewport, int width, int height )

void

viewport_set_snap_2d_transforms_to_pixel ( RID viewport, bool enabled )

void

viewport_set_snap_2d_vertices_to_pixel ( RID viewport, bool enabled )

void

viewport_set_texture_mipmap_bias ( RID viewport, float mipmap_bias )

void

viewport_set_transparent_background ( RID viewport, bool enabled )

void

viewport_set_update_mode ( RID viewport, ViewportUpdateMode update_mode )

void

viewport_set_use_debanding ( RID viewport, bool enable )

void

viewport_set_use_hdr_2d ( RID viewport, bool enabled )

void

viewport_set_use_occlusion_culling ( RID viewport, bool enable )

void

viewport_set_use_taa ( RID viewport, bool enable )

void

viewport_set_use_xr ( RID viewport, bool use_xr )

void

viewport_set_vrs_mode ( RID viewport, ViewportVRSMode mode )

void

viewport_set_vrs_texture ( RID viewport, RID texture )

RID

visibility_notifier_create ( )

void

visibility_notifier_set_aabb ( RID notifier, AABB aabb )

void

visibility_notifier_set_callbacks ( RID notifier, Callable enter_callable, Callable exit_callable )

void

voxel_gi_allocate_data ( RID voxel_gi, Transform3D to_cell_xform, AABB aabb, Vector3i octree_size, PackedByteArray octree_cells, PackedByteArray data_cells, PackedByteArray distance_field, PackedInt32Array level_counts )

RID

voxel_gi_create ( )

PackedByteArray

voxel_gi_get_data_cells ( RID voxel_gi ) const

PackedByteArray

voxel_gi_get_distance_field ( RID voxel_gi ) const

PackedInt32Array

voxel_gi_get_level_counts ( RID voxel_gi ) const

PackedByteArray

voxel_gi_get_octree_cells ( RID voxel_gi ) const

Vector3i

voxel_gi_get_octree_size ( RID voxel_gi ) const

Transform3D

voxel_gi_get_to_cell_xform ( RID voxel_gi ) const

void

voxel_gi_set_baked_exposure_normalization ( RID voxel_gi, float baked_exposure )

void

voxel_gi_set_bias ( RID voxel_gi, float bias )

void

voxel_gi_set_dynamic_range ( RID voxel_gi, float range )

void

voxel_gi_set_energy ( RID voxel_gi, float energy )

void

voxel_gi_set_interior ( RID voxel_gi, bool enable )

void

voxel_gi_set_normal_bias ( RID voxel_gi, float bias )

void

voxel_gi_set_propagation ( RID voxel_gi, float amount )

void

voxel_gi_set_quality ( VoxelGIQuality quality )

void

voxel_gi_set_use_two_bounces ( RID voxel_gi, bool enable )


信号

frame_post_draw ( )

Emitted at the end of the frame, after the RenderingServer has finished updating all the Viewports.


frame_pre_draw ( )

Emitted at the beginning of the frame, before the RenderingServer updates all the Viewports.


Enumerations

enum TextureLayeredType:

TextureLayeredType TEXTURE_LAYERED_2D_ARRAY = 0

Array of 2-dimensional textures (see Texture2DArray).

TextureLayeredType TEXTURE_LAYERED_CUBEMAP = 1

Cubemap texture (see Cubemap).

TextureLayeredType TEXTURE_LAYERED_CUBEMAP_ARRAY = 2

Array of cubemap textures (see CubemapArray).


enum CubeMapLayer:

CubeMapLayer CUBEMAP_LAYER_LEFT = 0

Left face of a Cubemap.

CubeMapLayer CUBEMAP_LAYER_RIGHT = 1

Right face of a Cubemap.

CubeMapLayer CUBEMAP_LAYER_BOTTOM = 2

Bottom face of a Cubemap.

CubeMapLayer CUBEMAP_LAYER_TOP = 3

Top face of a Cubemap.

CubeMapLayer CUBEMAP_LAYER_FRONT = 4

Front face of a Cubemap.

CubeMapLayer CUBEMAP_LAYER_BACK = 5

Back face of a Cubemap.


enum ShaderMode:

ShaderMode SHADER_SPATIAL = 0

Shader is a 3D shader.

ShaderMode SHADER_CANVAS_ITEM = 1

Shader is a 2D shader.

ShaderMode SHADER_PARTICLES = 2

Shader is a particle shader (can be used in both 2D and 3D).

ShaderMode SHADER_SKY = 3

Shader is a 3D sky shader.

ShaderMode SHADER_FOG = 4

Shader is a 3D fog shader.

ShaderMode SHADER_MAX = 5

Represents the size of the ShaderMode enum.


enum ArrayType:

ArrayType ARRAY_VERTEX = 0

Array is a vertex position array.

ArrayType ARRAY_NORMAL = 1

Array is a normal array.

ArrayType ARRAY_TANGENT = 2

Array is a tangent array.

ArrayType ARRAY_COLOR = 3

Array is a vertex color array.

ArrayType ARRAY_TEX_UV = 4

Array is a UV coordinates array.

ArrayType ARRAY_TEX_UV2 = 5

Array is a UV coordinates array for the second set of UV coordinates.

ArrayType ARRAY_CUSTOM0 = 6

Array is a custom data array for the first set of custom data.

ArrayType ARRAY_CUSTOM1 = 7

Array is a custom data array for the second set of custom data.

ArrayType ARRAY_CUSTOM2 = 8

Array is a custom data array for the third set of custom data.

ArrayType ARRAY_CUSTOM3 = 9

Array is a custom data array for the fourth set of custom data.

ArrayType ARRAY_BONES = 10

Array contains bone information.

ArrayType ARRAY_WEIGHTS = 11

Array is weight information.

ArrayType ARRAY_INDEX = 12

Array is an index array.

ArrayType ARRAY_MAX = 13

Represents the size of the ArrayType enum.


enum ArrayCustomFormat:

ArrayCustomFormat ARRAY_CUSTOM_RGBA8_UNORM = 0

Custom data array contains 8-bit-per-channel red/green/blue/alpha color data. Values are normalized, unsigned floating-point in the [0.0, 1.0] range.

ArrayCustomFormat ARRAY_CUSTOM_RGBA8_SNORM = 1

Custom data array contains 8-bit-per-channel red/green/blue/alpha color data. Values are normalized, signed floating-point in the [-1.0, 1.0] range.

ArrayCustomFormat ARRAY_CUSTOM_RG_HALF = 2

Custom data array contains 16-bit-per-channel red/green color data. Values are floating-point in half precision.

ArrayCustomFormat ARRAY_CUSTOM_RGBA_HALF = 3

Custom data array contains 16-bit-per-channel red/green/blue/alpha color data. Values are floating-point in half precision.

ArrayCustomFormat ARRAY_CUSTOM_R_FLOAT = 4

Custom data array contains 32-bit-per-channel red color data. Values are floating-point in single precision.

ArrayCustomFormat ARRAY_CUSTOM_RG_FLOAT = 5

Custom data array contains 32-bit-per-channel red/green color data. Values are floating-point in single precision.

ArrayCustomFormat ARRAY_CUSTOM_RGB_FLOAT = 6

Custom data array contains 32-bit-per-channel red/green/blue color data. Values are floating-point in single precision.

ArrayCustomFormat ARRAY_CUSTOM_RGBA_FLOAT = 7

Custom data array contains 32-bit-per-channel red/green/blue/alpha color data. Values are floating-point in single precision.

ArrayCustomFormat ARRAY_CUSTOM_MAX = 8

Represents the size of the ArrayCustomFormat enum.


flags ArrayFormat:

ArrayFormat ARRAY_FORMAT_VERTEX = 1

Flag used to mark a vertex position array.

ArrayFormat ARRAY_FORMAT_NORMAL = 2

Flag used to mark a normal array.

ArrayFormat ARRAY_FORMAT_TANGENT = 4

Flag used to mark a tangent array.

ArrayFormat ARRAY_FORMAT_COLOR = 8

Flag used to mark a vertex color array.

ArrayFormat ARRAY_FORMAT_TEX_UV = 16

Flag used to mark a UV coordinates array.

ArrayFormat ARRAY_FORMAT_TEX_UV2 = 32

Flag used to mark a UV coordinates array for the second UV coordinates.

ArrayFormat ARRAY_FORMAT_CUSTOM0 = 64

Flag used to mark an array of custom per-vertex data for the first set of custom data.

ArrayFormat ARRAY_FORMAT_CUSTOM1 = 128

Flag used to mark an array of custom per-vertex data for the second set of custom data.

ArrayFormat ARRAY_FORMAT_CUSTOM2 = 256

Flag used to mark an array of custom per-vertex data for the third set of custom data.

ArrayFormat ARRAY_FORMAT_CUSTOM3 = 512

Flag used to mark an array of custom per-vertex data for the fourth set of custom data.

ArrayFormat ARRAY_FORMAT_BONES = 1024

Flag used to mark a bone information array.

ArrayFormat ARRAY_FORMAT_WEIGHTS = 2048

Flag used to mark a weights array.

ArrayFormat ARRAY_FORMAT_INDEX = 4096

Flag used to mark an index array.

ArrayFormat ARRAY_FORMAT_BLEND_SHAPE_MASK = 7

ArrayFormat ARRAY_FORMAT_CUSTOM_BASE = 13

ArrayFormat ARRAY_FORMAT_CUSTOM_BITS = 3

ArrayFormat ARRAY_FORMAT_CUSTOM0_SHIFT = 13

ArrayFormat ARRAY_FORMAT_CUSTOM1_SHIFT = 16

ArrayFormat ARRAY_FORMAT_CUSTOM2_SHIFT = 19

ArrayFormat ARRAY_FORMAT_CUSTOM3_SHIFT = 22

ArrayFormat ARRAY_FORMAT_CUSTOM_MASK = 7

ArrayFormat ARRAY_COMPRESS_FLAGS_BASE = 25

ArrayFormat ARRAY_FLAG_USE_2D_VERTICES = 33554432

Flag used to mark that the array contains 2D vertices.

ArrayFormat ARRAY_FLAG_USE_DYNAMIC_UPDATE = 67108864

ArrayFormat ARRAY_FLAG_USE_8_BONE_WEIGHTS = 134217728

Flag used to mark that the array uses 8 bone weights instead of 4.

ArrayFormat ARRAY_FLAG_USES_EMPTY_VERTEX_ARRAY = 268435456


enum PrimitiveType:

PrimitiveType PRIMITIVE_POINTS = 0

Primitive to draw consists of points.

PrimitiveType PRIMITIVE_LINES = 1

Primitive to draw consists of lines.

PrimitiveType PRIMITIVE_LINE_STRIP = 2

Primitive to draw consists of a line strip from start to end.

PrimitiveType PRIMITIVE_TRIANGLES = 3

Primitive to draw consists of triangles.

PrimitiveType PRIMITIVE_TRIANGLE_STRIP = 4

Primitive to draw consists of a triangle strip (the last 3 vertices are always combined to make a triangle).

PrimitiveType PRIMITIVE_MAX = 5

Represents the size of the PrimitiveType enum.


enum BlendShapeMode:

BlendShapeMode BLEND_SHAPE_MODE_NORMALIZED = 0

Blend shapes are normalized.

BlendShapeMode BLEND_SHAPE_MODE_RELATIVE = 1

Blend shapes are relative to base weight.


enum MultimeshTransformFormat:

MultimeshTransformFormat MULTIMESH_TRANSFORM_2D = 0

Use Transform2D to store MultiMesh transform.

MultimeshTransformFormat MULTIMESH_TRANSFORM_3D = 1

Use Transform3D to store MultiMesh transform.


enum LightProjectorFilter:

LightProjectorFilter LIGHT_PROJECTOR_FILTER_NEAREST = 0

Nearest-neighbor filter for light projectors (use for pixel art light projectors). No mipmaps are used for rendering, which means light projectors at a distance will look sharp but grainy. This has roughly the same performance cost as using mipmaps.

LightProjectorFilter LIGHT_PROJECTOR_FILTER_LINEAR = 1

Linear filter for light projectors (use for non-pixel art light projectors). No mipmaps are used for rendering, which means light projectors at a distance will look smooth but blurry. This has roughly the same performance cost as using mipmaps.

LightProjectorFilter LIGHT_PROJECTOR_FILTER_NEAREST_MIPMAPS = 2

Nearest-neighbor filter for light projectors (use for pixel art light projectors). Isotropic mipmaps are used for rendering, which means light projectors at a distance will look smooth but blurry. This has roughly the same performance cost as not using mipmaps.

LightProjectorFilter LIGHT_PROJECTOR_FILTER_LINEAR_MIPMAPS = 3

Linear filter for light projectors (use for non-pixel art light projectors). Isotropic mipmaps are used for rendering, which means light projectors at a distance will look smooth but blurry. This has roughly the same performance cost as not using mipmaps.

LightProjectorFilter LIGHT_PROJECTOR_FILTER_NEAREST_MIPMAPS_ANISOTROPIC = 4

Nearest-neighbor filter for light projectors (use for pixel art light projectors). Anisotropic mipmaps are used for rendering, which means light projectors at a distance will look smooth and sharp when viewed from oblique angles. This looks better compared to isotropic mipmaps, but is slower. The level of anisotropic filtering is defined by ProjectSettings.rendering/textures/default_filters/anisotropic_filtering_level.

LightProjectorFilter LIGHT_PROJECTOR_FILTER_LINEAR_MIPMAPS_ANISOTROPIC = 5

Linear filter for light projectors (use for non-pixel art light projectors). Anisotropic mipmaps are used for rendering, which means light projectors at a distance will look smooth and sharp when viewed from oblique angles. This looks better compared to isotropic mipmaps, but is slower. The level of anisotropic filtering is defined by ProjectSettings.rendering/textures/default_filters/anisotropic_filtering_level.


enum LightType:

LightType LIGHT_DIRECTIONAL = 0

Directional (sun/moon) light (see DirectionalLight3D).

LightType LIGHT_OMNI = 1

Omni light (see OmniLight3D).

LightType LIGHT_SPOT = 2

Spot light (see SpotLight3D).


enum LightParam:

LightParam LIGHT_PARAM_ENERGY = 0

The light's energy multiplier.

LightParam LIGHT_PARAM_INDIRECT_ENERGY = 1

The light's indirect energy multiplier (final indirect energy is LIGHT_PARAM_ENERGY * LIGHT_PARAM_INDIRECT_ENERGY).

LightParam LIGHT_PARAM_VOLUMETRIC_FOG_ENERGY = 2

The light's volumetric fog energy multiplier (final volumetric fog energy is LIGHT_PARAM_ENERGY * LIGHT_PARAM_VOLUMETRIC_FOG_ENERGY).

LightParam LIGHT_PARAM_SPECULAR = 3

The light's influence on specularity.

LightParam LIGHT_PARAM_RANGE = 4

The light's range.

LightParam LIGHT_PARAM_SIZE = 5

The size of the light when using spot light or omni light. The angular size of the light when using directional light.

LightParam LIGHT_PARAM_ATTENUATION = 6

The light's attenuation.

LightParam LIGHT_PARAM_SPOT_ANGLE = 7

The spotlight's angle.

LightParam LIGHT_PARAM_SPOT_ATTENUATION = 8

The spotlight's attenuation.

LightParam LIGHT_PARAM_SHADOW_MAX_DISTANCE = 9

The maximum distance for shadow splits. Increasing this value will make directional shadows visible from further away, at the cost of lower overall shadow detail and performance (since more objects need to be included in the directional shadow rendering).

LightParam LIGHT_PARAM_SHADOW_SPLIT_1_OFFSET = 10

Proportion of shadow atlas occupied by the first split.

LightParam LIGHT_PARAM_SHADOW_SPLIT_2_OFFSET = 11

Proportion of shadow atlas occupied by the second split.

LightParam LIGHT_PARAM_SHADOW_SPLIT_3_OFFSET = 12

Proportion of shadow atlas occupied by the third split. The fourth split occupies the rest.

LightParam LIGHT_PARAM_SHADOW_FADE_START = 13

Proportion of shadow max distance where the shadow will start to fade out.

LightParam LIGHT_PARAM_SHADOW_NORMAL_BIAS = 14

Normal bias used to offset shadow lookup by object normal. Can be used to fix self-shadowing artifacts.

LightParam LIGHT_PARAM_SHADOW_BIAS = 15

Bias the shadow lookup to fix self-shadowing artifacts.

LightParam LIGHT_PARAM_SHADOW_PANCAKE_SIZE = 16

Sets the size of the directional shadow pancake. The pancake offsets the start of the shadow's camera frustum to provide a higher effective depth resolution for the shadow. However, a high pancake size can cause artifacts in the shadows of large objects that are close to the edge of the frustum. Reducing the pancake size can help. Setting the size to 0 turns off the pancaking effect.

LightParam LIGHT_PARAM_SHADOW_OPACITY = 17

The light's shadow opacity. Values lower than 1.0 make the light appear through shadows. This can be used to fake global illumination at a low performance cost.

LightParam LIGHT_PARAM_SHADOW_BLUR = 18

Blurs the edges of the shadow. Can be used to hide pixel artifacts in low resolution shadow maps. A high value can make shadows appear grainy and can cause other unwanted artifacts. Try to keep as near default as possible.

LightParam LIGHT_PARAM_TRANSMITTANCE_BIAS = 19

LightParam LIGHT_PARAM_INTENSITY = 20

Constant representing the intensity of the light, measured in Lumens when dealing with a SpotLight3D or OmniLight3D, or measured in Lux with a DirectionalLight3D. Only used when ProjectSettings.rendering/lights_and_shadows/use_physical_light_units is true.

LightParam LIGHT_PARAM_MAX = 21

Represents the size of the LightParam enum.


enum LightBakeMode:

LightBakeMode LIGHT_BAKE_DISABLED = 0

Light is ignored when baking. This is the fastest mode, but the light will be taken into account when baking global illumination. This mode should generally be used for dynamic lights that change quickly, as the effect of global illumination is less noticeable on those lights.

LightBakeMode LIGHT_BAKE_STATIC = 1

Light is taken into account in static baking (VoxelGI, LightmapGI, SDFGI (Environment.sdfgi_enabled)). The light can be moved around or modified, but its global illumination will not update in real-time. This is suitable for subtle changes (such as flickering torches), but generally not large changes such as toggling a light on and off.

LightBakeMode LIGHT_BAKE_DYNAMIC = 2

Light is taken into account in dynamic baking (VoxelGI and SDFGI (Environment.sdfgi_enabled) only). The light can be moved around or modified with global illumination updating in real-time. The light's global illumination appearance will be slightly different compared to LIGHT_BAKE_STATIC. This has a greater performance cost compared to LIGHT_BAKE_STATIC. When using SDFGI, the update speed of dynamic lights is affected by ProjectSettings.rendering/global_illumination/sdfgi/frames_to_update_lights.


enum LightOmniShadowMode:

LightOmniShadowMode LIGHT_OMNI_SHADOW_DUAL_PARABOLOID = 0

Use a dual paraboloid shadow map for omni lights.

LightOmniShadowMode LIGHT_OMNI_SHADOW_CUBE = 1

Use a cubemap shadow map for omni lights. Slower but better quality than dual paraboloid.


enum LightDirectionalShadowMode:

LightDirectionalShadowMode LIGHT_DIRECTIONAL_SHADOW_ORTHOGONAL = 0

Use orthogonal shadow projection for directional light.

LightDirectionalShadowMode LIGHT_DIRECTIONAL_SHADOW_PARALLEL_2_SPLITS = 1

Use 2 splits for shadow projection when using directional light.

LightDirectionalShadowMode LIGHT_DIRECTIONAL_SHADOW_PARALLEL_4_SPLITS = 2

Use 4 splits for shadow projection when using directional light.


enum LightDirectionalSkyMode:

LightDirectionalSkyMode LIGHT_DIRECTIONAL_SKY_MODE_LIGHT_AND_SKY = 0

Use DirectionalLight3D in both sky rendering and scene lighting.

LightDirectionalSkyMode LIGHT_DIRECTIONAL_SKY_MODE_LIGHT_ONLY = 1

Only use DirectionalLight3D in scene lighting.

LightDirectionalSkyMode LIGHT_DIRECTIONAL_SKY_MODE_SKY_ONLY = 2

Only use DirectionalLight3D in sky rendering.


enum ShadowQuality:

ShadowQuality SHADOW_QUALITY_HARD = 0

Lowest shadow filtering quality (fastest). Soft shadows are not available with this quality setting, which means the Light3D.shadow_blur property is ignored if Light3D.light_size and Light3D.light_angular_distance is 0.0.

Note: The variable shadow blur performed by Light3D.light_size and Light3D.light_angular_distance is still effective when using hard shadow filtering. In this case, Light3D.shadow_blur is taken into account. However, the results will not be blurred, instead the blur amount is treated as a maximum radius for the penumbra.

ShadowQuality SHADOW_QUALITY_SOFT_VERY_LOW = 1

Very low shadow filtering quality (faster). When using this quality setting, Light3D.shadow_blur is automatically multiplied by 0.75× to avoid introducing too much noise. This division only applies to lights whose Light3D.light_size or Light3D.light_angular_distance is 0.0).

ShadowQuality SHADOW_QUALITY_SOFT_LOW = 2

Low shadow filtering quality (fast).

ShadowQuality SHADOW_QUALITY_SOFT_MEDIUM = 3

Medium low shadow filtering quality (average).

ShadowQuality SHADOW_QUALITY_SOFT_HIGH = 4

High low shadow filtering quality (slow). When using this quality setting, Light3D.shadow_blur is automatically multiplied by 1.5× to better make use of the high sample count. This increased blur also improves the stability of dynamic object shadows. This multiplier only applies to lights whose Light3D.light_size or Light3D.light_angular_distance is 0.0).

ShadowQuality SHADOW_QUALITY_SOFT_ULTRA = 5

Highest low shadow filtering quality (slowest). When using this quality setting, Light3D.shadow_blur is automatically multiplied by 2× to better make use of the high sample count. This increased blur also improves the stability of dynamic object shadows. This multiplier only applies to lights whose Light3D.light_size or Light3D.light_angular_distance is 0.0).

ShadowQuality SHADOW_QUALITY_MAX = 6

Represents the size of the ShadowQuality enum.


enum ReflectionProbeUpdateMode:

ReflectionProbeUpdateMode REFLECTION_PROBE_UPDATE_ONCE = 0

Reflection probe will update reflections once and then stop.

ReflectionProbeUpdateMode REFLECTION_PROBE_UPDATE_ALWAYS = 1

Reflection probe will update each frame. This mode is necessary to capture moving objects.


enum ReflectionProbeAmbientMode:

ReflectionProbeAmbientMode REFLECTION_PROBE_AMBIENT_DISABLED = 0

Do not apply any ambient lighting inside the reflection probe's box defined by its size.

ReflectionProbeAmbientMode REFLECTION_PROBE_AMBIENT_ENVIRONMENT = 1

Apply automatically-sourced environment lighting inside the reflection probe's box defined by its size.

ReflectionProbeAmbientMode REFLECTION_PROBE_AMBIENT_COLOR = 2

Apply custom ambient lighting inside the reflection probe's box defined by its size. See reflection_probe_set_ambient_color and reflection_probe_set_ambient_energy.


enum DecalTexture:

DecalTexture DECAL_TEXTURE_ALBEDO = 0

Albedo texture slot in a decal (Decal.texture_albedo).

DecalTexture DECAL_TEXTURE_NORMAL = 1

Normal map texture slot in a decal (Decal.texture_normal).

DecalTexture DECAL_TEXTURE_ORM = 2

Occlusion/Roughness/Metallic texture slot in a decal (Decal.texture_orm).

DecalTexture DECAL_TEXTURE_EMISSION = 3

Emission texture slot in a decal (Decal.texture_emission).

DecalTexture DECAL_TEXTURE_MAX = 4

Represents the size of the DecalTexture enum.


enum DecalFilter:

DecalFilter DECAL_FILTER_NEAREST = 0

Nearest-neighbor filter for decals (use for pixel art decals). No mipmaps are used for rendering, which means decals at a distance will look sharp but grainy. This has roughly the same performance cost as using mipmaps.

DecalFilter DECAL_FILTER_LINEAR = 1

Linear filter for decals (use for non-pixel art decals). No mipmaps are used for rendering, which means decals at a distance will look smooth but blurry. This has roughly the same performance cost as using mipmaps.

DecalFilter DECAL_FILTER_NEAREST_MIPMAPS = 2

Nearest-neighbor filter for decals (use for pixel art decals). Isotropic mipmaps are used for rendering, which means decals at a distance will look smooth but blurry. This has roughly the same performance cost as not using mipmaps.

DecalFilter DECAL_FILTER_LINEAR_MIPMAPS = 3

Linear filter for decals (use for non-pixel art decals). Isotropic mipmaps are used for rendering, which means decals at a distance will look smooth but blurry. This has roughly the same performance cost as not using mipmaps.

DecalFilter DECAL_FILTER_NEAREST_MIPMAPS_ANISOTROPIC = 4

Nearest-neighbor filter for decals (use for pixel art decals). Anisotropic mipmaps are used for rendering, which means decals at a distance will look smooth and sharp when viewed from oblique angles. This looks better compared to isotropic mipmaps, but is slower. The level of anisotropic filtering is defined by ProjectSettings.rendering/textures/default_filters/anisotropic_filtering_level.

DecalFilter DECAL_FILTER_LINEAR_MIPMAPS_ANISOTROPIC = 5

Linear filter for decals (use for non-pixel art decals). Anisotropic mipmaps are used for rendering, which means decals at a distance will look smooth and sharp when viewed from oblique angles. This looks better compared to isotropic mipmaps, but is slower. The level of anisotropic filtering is defined by ProjectSettings.rendering/textures/default_filters/anisotropic_filtering_level.


enum VoxelGIQuality:

VoxelGIQuality VOXEL_GI_QUALITY_LOW = 0

Low VoxelGI rendering quality using 4 cones.

VoxelGIQuality VOXEL_GI_QUALITY_HIGH = 1

High VoxelGI rendering quality using 6 cones.


enum ParticlesMode:

ParticlesMode PARTICLES_MODE_2D = 0

2D particles.

ParticlesMode PARTICLES_MODE_3D = 1

3D particles.


enum ParticlesTransformAlign:

ParticlesTransformAlign PARTICLES_TRANSFORM_ALIGN_DISABLED = 0

ParticlesTransformAlign PARTICLES_TRANSFORM_ALIGN_Z_BILLBOARD = 1

ParticlesTransformAlign PARTICLES_TRANSFORM_ALIGN_Y_TO_VELOCITY = 2

ParticlesTransformAlign PARTICLES_TRANSFORM_ALIGN_Z_BILLBOARD_Y_TO_VELOCITY = 3


enum ParticlesDrawOrder:

ParticlesDrawOrder PARTICLES_DRAW_ORDER_INDEX = 0

Draw particles in the order that they appear in the particles array.

ParticlesDrawOrder PARTICLES_DRAW_ORDER_LIFETIME = 1

Sort particles based on their lifetime.

ParticlesDrawOrder PARTICLES_DRAW_ORDER_REVERSE_LIFETIME = 2

ParticlesDrawOrder PARTICLES_DRAW_ORDER_VIEW_DEPTH = 3

Sort particles based on their distance to the camera.


enum ParticlesCollisionType:

ParticlesCollisionType PARTICLES_COLLISION_TYPE_SPHERE_ATTRACT = 0

ParticlesCollisionType PARTICLES_COLLISION_TYPE_BOX_ATTRACT = 1

ParticlesCollisionType PARTICLES_COLLISION_TYPE_VECTOR_FIELD_ATTRACT = 2

ParticlesCollisionType PARTICLES_COLLISION_TYPE_SPHERE_COLLIDE = 3

ParticlesCollisionType PARTICLES_COLLISION_TYPE_BOX_COLLIDE = 4

ParticlesCollisionType PARTICLES_COLLISION_TYPE_SDF_COLLIDE = 5

ParticlesCollisionType PARTICLES_COLLISION_TYPE_HEIGHTFIELD_COLLIDE = 6


enum ParticlesCollisionHeightfieldResolution:

ParticlesCollisionHeightfieldResolution PARTICLES_COLLISION_HEIGHTFIELD_RESOLUTION_256 = 0

ParticlesCollisionHeightfieldResolution PARTICLES_COLLISION_HEIGHTFIELD_RESOLUTION_512 = 1

ParticlesCollisionHeightfieldResolution PARTICLES_COLLISION_HEIGHTFIELD_RESOLUTION_1024 = 2

ParticlesCollisionHeightfieldResolution PARTICLES_COLLISION_HEIGHTFIELD_RESOLUTION_2048 = 3

ParticlesCollisionHeightfieldResolution PARTICLES_COLLISION_HEIGHTFIELD_RESOLUTION_4096 = 4

ParticlesCollisionHeightfieldResolution PARTICLES_COLLISION_HEIGHTFIELD_RESOLUTION_8192 = 5

ParticlesCollisionHeightfieldResolution PARTICLES_COLLISION_HEIGHTFIELD_RESOLUTION_MAX = 6

Represents the size of the ParticlesCollisionHeightfieldResolution enum.


enum FogVolumeShape:

FogVolumeShape FOG_VOLUME_SHAPE_ELLIPSOID = 0

FogVolume will be shaped like an ellipsoid (stretched sphere).

FogVolumeShape FOG_VOLUME_SHAPE_CONE = 1

FogVolume will be shaped like a cone pointing upwards (in local coordinates). The cone's angle is set automatically to fill the size. The cone will be adjusted to fit within the size. Rotate the FogVolume node to reorient the cone. Non-uniform scaling via size is not supported (scale the FogVolume node instead).

FogVolumeShape FOG_VOLUME_SHAPE_CYLINDER = 2

FogVolume will be shaped like an upright cylinder (in local coordinates). Rotate the FogVolume node to reorient the cylinder. The cylinder will be adjusted to fit within the size. Non-uniform scaling via size is not supported (scale the FogVolume node instead).

FogVolumeShape FOG_VOLUME_SHAPE_BOX = 3

FogVolume will be shaped like a box.

FogVolumeShape FOG_VOLUME_SHAPE_WORLD = 4

FogVolume will have no shape, will cover the whole world and will not be culled.

FogVolumeShape FOG_VOLUME_SHAPE_MAX = 5

Represents the size of the FogVolumeShape enum.


enum ViewportScaling3DMode:

ViewportScaling3DMode VIEWPORT_SCALING_3D_MODE_BILINEAR = 0

Use bilinear scaling for the viewport's 3D buffer. The amount of scaling can be set using Viewport.scaling_3d_scale. Values less than 1.0 will result in undersampling while values greater than 1.0 will result in supersampling. A value of 1.0 disables scaling.

ViewportScaling3DMode VIEWPORT_SCALING_3D_MODE_FSR = 1

Use AMD FidelityFX Super Resolution 1.0 upscaling for the viewport's 3D buffer. The amount of scaling can be set using Viewport.scaling_3d_scale. Values less than 1.0 will be result in the viewport being upscaled using FSR. Values greater than 1.0 are not supported and bilinear downsampling will be used instead. A value of 1.0 disables scaling.

ViewportScaling3DMode VIEWPORT_SCALING_3D_MODE_MAX = 2

Represents the size of the ViewportScaling3DMode enum.


enum ViewportUpdateMode:

ViewportUpdateMode VIEWPORT_UPDATE_DISABLED = 0

Do not update the viewport's render target.

ViewportUpdateMode VIEWPORT_UPDATE_ONCE = 1

Update the viewport's render target once, then switch to VIEWPORT_UPDATE_DISABLED.

ViewportUpdateMode VIEWPORT_UPDATE_WHEN_VISIBLE = 2

Update the viewport's render target only when it is visible. This is the default value.

ViewportUpdateMode VIEWPORT_UPDATE_WHEN_PARENT_VISIBLE = 3

Update the viewport's render target only when its parent is visible.

ViewportUpdateMode VIEWPORT_UPDATE_ALWAYS = 4

Always update the viewport's render target.


enum ViewportClearMode:

ViewportClearMode VIEWPORT_CLEAR_ALWAYS = 0

Always clear the viewport's render target before drawing.

ViewportClearMode VIEWPORT_CLEAR_NEVER = 1

Never clear the viewport's render target.

ViewportClearMode VIEWPORT_CLEAR_ONLY_NEXT_FRAME = 2

Clear the viewport's render target on the next frame, then switch to VIEWPORT_CLEAR_NEVER.


enum ViewportEnvironmentMode:

ViewportEnvironmentMode VIEWPORT_ENVIRONMENT_DISABLED = 0

Disable rendering of 3D environment over 2D canvas.

ViewportEnvironmentMode VIEWPORT_ENVIRONMENT_ENABLED = 1

Enable rendering of 3D environment over 2D canvas.

ViewportEnvironmentMode VIEWPORT_ENVIRONMENT_INHERIT = 2

Inherit enable/disable value from parent. If the topmost parent is also set to VIEWPORT_ENVIRONMENT_INHERIT, then this has the same behavior as VIEWPORT_ENVIRONMENT_ENABLED.

ViewportEnvironmentMode VIEWPORT_ENVIRONMENT_MAX = 3

Represents the size of the ViewportEnvironmentMode enum.


enum ViewportSDFOversize:

ViewportSDFOversize VIEWPORT_SDF_OVERSIZE_100_PERCENT = 0

Do not oversize the 2D signed distance field. Occluders may disappear when touching the viewport's edges, and GPUParticles3D collision may stop working earlier than intended. This has the lowest GPU requirements.

ViewportSDFOversize VIEWPORT_SDF_OVERSIZE_120_PERCENT = 1

2D signed distance field covers 20% of the viewport's size outside the viewport on each side (top, right, bottom, left).

ViewportSDFOversize VIEWPORT_SDF_OVERSIZE_150_PERCENT = 2

2D signed distance field covers 50% of the viewport's size outside the viewport on each side (top, right, bottom, left).

ViewportSDFOversize VIEWPORT_SDF_OVERSIZE_200_PERCENT = 3

2D signed distance field covers 100% of the viewport's size outside the viewport on each side (top, right, bottom, left). This has the highest GPU requirements.

ViewportSDFOversize VIEWPORT_SDF_OVERSIZE_MAX = 4

Represents the size of the ViewportSDFOversize enum.


enum ViewportSDFScale:

ViewportSDFScale VIEWPORT_SDF_SCALE_100_PERCENT = 0

Full resolution 2D signed distance field scale. This has the highest GPU requirements.

ViewportSDFScale VIEWPORT_SDF_SCALE_50_PERCENT = 1

Half resolution 2D signed distance field scale on each axis (25% of the viewport pixel count).

ViewportSDFScale VIEWPORT_SDF_SCALE_25_PERCENT = 2

Quarter resolution 2D signed distance field scale on each axis (6.25% of the viewport pixel count). This has the lowest GPU requirements.

ViewportSDFScale VIEWPORT_SDF_SCALE_MAX = 3

Represents the size of the ViewportSDFScale enum.


enum ViewportMSAA:

ViewportMSAA VIEWPORT_MSAA_DISABLED = 0

Multisample antialiasing for 3D is disabled. This is the default value, and also the fastest setting.

ViewportMSAA VIEWPORT_MSAA_2X = 1

Multisample antialiasing uses 2 samples per pixel for 3D. This has a moderate impact on performance.

ViewportMSAA VIEWPORT_MSAA_4X = 2

Multisample antialiasing uses 4 samples per pixel for 3D. This has a high impact on performance.

ViewportMSAA VIEWPORT_MSAA_8X = 3

Multisample antialiasing uses 8 samples per pixel for 3D. This has a very high impact on performance. Likely unsupported on low-end and older hardware.

ViewportMSAA VIEWPORT_MSAA_MAX = 4

Represents the size of the ViewportMSAA enum.


enum ViewportScreenSpaceAA:

ViewportScreenSpaceAA VIEWPORT_SCREEN_SPACE_AA_DISABLED = 0

Do not perform any antialiasing in the full screen post-process.

ViewportScreenSpaceAA VIEWPORT_SCREEN_SPACE_AA_FXAA = 1

Use fast approximate antialiasing. FXAA is a popular screen-space antialiasing method, which is fast but will make the image look blurry, especially at lower resolutions. It can still work relatively well at large resolutions such as 1440p and 4K.

ViewportScreenSpaceAA VIEWPORT_SCREEN_SPACE_AA_MAX = 2

Represents the size of the ViewportScreenSpaceAA enum.


enum ViewportOcclusionCullingBuildQuality:

ViewportOcclusionCullingBuildQuality VIEWPORT_OCCLUSION_BUILD_QUALITY_LOW = 0

Low occlusion culling BVH build quality (as defined by Embree). Results in the lowest CPU usage, but least effective culling.

ViewportOcclusionCullingBuildQuality VIEWPORT_OCCLUSION_BUILD_QUALITY_MEDIUM = 1

Medium occlusion culling BVH build quality (as defined by Embree).

ViewportOcclusionCullingBuildQuality VIEWPORT_OCCLUSION_BUILD_QUALITY_HIGH = 2

High occlusion culling BVH build quality (as defined by Embree). Results in the highest CPU usage, but most effective culling.


enum ViewportRenderInfo:

ViewportRenderInfo VIEWPORT_RENDER_INFO_OBJECTS_IN_FRAME = 0

Number of objects drawn in a single frame.

ViewportRenderInfo VIEWPORT_RENDER_INFO_PRIMITIVES_IN_FRAME = 1

Number of points, lines, or triangles drawn in a single frame.

ViewportRenderInfo VIEWPORT_RENDER_INFO_DRAW_CALLS_IN_FRAME = 2

Number of draw calls during this frame.

ViewportRenderInfo VIEWPORT_RENDER_INFO_MAX = 3

Represents the size of the ViewportRenderInfo enum.


enum ViewportRenderInfoType:

ViewportRenderInfoType VIEWPORT_RENDER_INFO_TYPE_VISIBLE = 0

Visible render pass (excluding shadows).

ViewportRenderInfoType VIEWPORT_RENDER_INFO_TYPE_SHADOW = 1

Shadow render pass. Objects will be rendered several times depending on the number of amounts of lights with shadows and the number of directional shadow splits.

ViewportRenderInfoType VIEWPORT_RENDER_INFO_TYPE_MAX = 2

Represents the size of the ViewportRenderInfoType enum.


enum ViewportDebugDraw:

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_DISABLED = 0

Debug draw is disabled. Default setting.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_UNSHADED = 1

Objects are displayed without light information.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_LIGHTING = 2

Objects are displayed with only light information.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_OVERDRAW = 3

Objects are displayed semi-transparent with additive blending so you can see where they are drawing over top of one another. A higher overdraw (represented by brighter colors) means you are wasting performance on drawing pixels that are being hidden behind others.

Note: When using this debug draw mode, custom shaders will be ignored. This means vertex displacement won't be visible anymore.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_WIREFRAME = 4

Debug draw draws objects in wireframe.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_NORMAL_BUFFER = 5

Normal buffer is drawn instead of regular scene so you can see the per-pixel normals that will be used by post-processing effects.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_VOXEL_GI_ALBEDO = 6

Objects are displayed with only the albedo value from VoxelGIs.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_VOXEL_GI_LIGHTING = 7

Objects are displayed with only the lighting value from VoxelGIs.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_VOXEL_GI_EMISSION = 8

Objects are displayed with only the emission color from VoxelGIs.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_SHADOW_ATLAS = 9

Draws the shadow atlas that stores shadows from OmniLight3Ds and SpotLight3Ds in the upper left quadrant of the Viewport.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_DIRECTIONAL_SHADOW_ATLAS = 10

Draws the shadow atlas that stores shadows from DirectionalLight3Ds in the upper left quadrant of the Viewport.

The slice of the camera frustum related to the shadow map cascade is superimposed to visualize coverage. The color of each slice matches the colors used for VIEWPORT_DEBUG_DRAW_PSSM_SPLITS. When shadow cascades are blended the overlap is taken into account when drawing the frustum slices.

The last cascade shows all frustum slices to illustrate the coverage of all slices.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_SCENE_LUMINANCE = 11

Draws the estimated scene luminance. This is a 1×1 texture that is generated when autoexposure is enabled to control the scene's exposure.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_SSAO = 12

Draws the screen space ambient occlusion texture instead of the scene so that you can clearly see how it is affecting objects. In order for this display mode to work, you must have Environment.ssao_enabled set in your WorldEnvironment.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_SSIL = 13

Draws the screen space indirect lighting texture instead of the scene so that you can clearly see how it is affecting objects. In order for this display mode to work, you must have Environment.ssil_enabled set in your WorldEnvironment.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_PSSM_SPLITS = 14

Colors each PSSM split for the DirectionalLight3Ds in the scene a different color so you can see where the splits are. In order they will be colored red, green, blue, yellow.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_DECAL_ATLAS = 15

Draws the decal atlas that stores decal textures from Decals.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_SDFGI = 16

Draws SDFGI cascade data. This is the data structure that is used to bounce lighting against and create reflections.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_SDFGI_PROBES = 17

Draws SDFGI probe data. This is the data structure that is used to give indirect lighting dynamic objects moving within the scene.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_GI_BUFFER = 18

Draws the global illumination buffer (VoxelGI or SDFGI).

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_DISABLE_LOD = 19

Disable mesh LOD. All meshes are drawn with full detail, which can be used to compare performance.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_CLUSTER_OMNI_LIGHTS = 20

Draws the OmniLight3D cluster. Clustering determines where lights are positioned in screen-space, which allows the engine to only process these portions of the screen for lighting.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_CLUSTER_SPOT_LIGHTS = 21

Draws the SpotLight3D cluster. Clustering determines where lights are positioned in screen-space, which allows the engine to only process these portions of the screen for lighting.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_CLUSTER_DECALS = 22

Draws the Decal cluster. Clustering determines where decals are positioned in screen-space, which allows the engine to only process these portions of the screen for decals.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_CLUSTER_REFLECTION_PROBES = 23

Draws the ReflectionProbe cluster. Clustering determines where reflection probes are positioned in screen-space, which allows the engine to only process these portions of the screen for reflection probes.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_OCCLUDERS = 24

Draws the occlusion culling buffer. This low-resolution occlusion culling buffer is rasterized on the CPU and is used to check whether instances are occluded by other objects.

ViewportDebugDraw VIEWPORT_DEBUG_DRAW_MOTION_VECTORS = 25

Draws the motion vectors buffer. This is used by temporal antialiasing to correct for motion that occurs during gameplay.


enum ViewportVRSMode:

ViewportVRSMode VIEWPORT_VRS_DISABLED = 0

Variable rate shading is disabled.

ViewportVRSMode VIEWPORT_VRS_TEXTURE = 1

Variable rate shading uses a texture. Note, for stereoscopic use a texture atlas with a texture for each view.

ViewportVRSMode VIEWPORT_VRS_XR = 2

Variable rate shading texture is supplied by the primary XRInterface.

ViewportVRSMode VIEWPORT_VRS_MAX = 3

Represents the size of the ViewportVRSMode enum.


enum SkyMode:

SkyMode SKY_MODE_AUTOMATIC = 0

Automatically selects the appropriate process mode based on your sky shader. If your shader uses TIME or POSITION, this will use SKY_MODE_REALTIME. If your shader uses any of the LIGHT_* variables or any custom uniforms, this uses SKY_MODE_INCREMENTAL. Otherwise, this defaults to SKY_MODE_QUALITY.

SkyMode SKY_MODE_QUALITY = 1

Uses high quality importance sampling to process the radiance map. In general, this results in much higher quality than SKY_MODE_REALTIME but takes much longer to generate. This should not be used if you plan on changing the sky at runtime. If you are finding that the reflection is not blurry enough and is showing sparkles or fireflies, try increasing ProjectSettings.rendering/reflections/sky_reflections/ggx_samples.

SkyMode SKY_MODE_INCREMENTAL = 2

Uses the same high quality importance sampling to process the radiance map as SKY_MODE_QUALITY, but updates over several frames. The number of frames is determined by ProjectSettings.rendering/reflections/sky_reflections/roughness_layers. Use this when you need highest quality radiance maps, but have a sky that updates slowly.

SkyMode SKY_MODE_REALTIME = 3

Uses the fast filtering algorithm to process the radiance map. In general this results in lower quality, but substantially faster run times. If you need better quality, but still need to update the sky every frame, consider turning on ProjectSettings.rendering/reflections/sky_reflections/fast_filter_high_quality.

Note: The fast filtering algorithm is limited to 256×256 cubemaps, so sky_set_radiance_size must be set to 256. Otherwise, a warning is printed and the overridden radiance size is ignored.


enum EnvironmentBG:

EnvironmentBG ENV_BG_CLEAR_COLOR = 0

Use the clear color as background.

EnvironmentBG ENV_BG_COLOR = 1

Use a specified color as the background.

EnvironmentBG ENV_BG_SKY = 2

Use a sky resource for the background.

EnvironmentBG ENV_BG_CANVAS = 3

Use a specified canvas layer as the background. This can be useful for instantiating a 2D scene in a 3D world.

EnvironmentBG ENV_BG_KEEP = 4

Do not clear the background, use whatever was rendered last frame as the background.

EnvironmentBG ENV_BG_CAMERA_FEED = 5

Displays a camera feed in the background.

EnvironmentBG ENV_BG_MAX = 6

Represents the size of the EnvironmentBG enum.


enum EnvironmentAmbientSource:

EnvironmentAmbientSource ENV_AMBIENT_SOURCE_BG = 0

Gather ambient light from whichever source is specified as the background.

EnvironmentAmbientSource ENV_AMBIENT_SOURCE_DISABLED = 1

Disable ambient light.

EnvironmentAmbientSource ENV_AMBIENT_SOURCE_COLOR = 2

Specify a specific Color for ambient light.

EnvironmentAmbientSource ENV_AMBIENT_SOURCE_SKY = 3

Gather ambient light from the Sky regardless of what the background is.


enum EnvironmentReflectionSource:

EnvironmentReflectionSource ENV_REFLECTION_SOURCE_BG = 0

Use the background for reflections.

EnvironmentReflectionSource ENV_REFLECTION_SOURCE_DISABLED = 1

Disable reflections.

EnvironmentReflectionSource ENV_REFLECTION_SOURCE_SKY = 2

Use the Sky for reflections regardless of what the background is.


enum EnvironmentGlowBlendMode:

EnvironmentGlowBlendMode ENV_GLOW_BLEND_MODE_ADDITIVE = 0

Additive glow blending mode. Mostly used for particles, glows (bloom), lens flare, bright sources.

EnvironmentGlowBlendMode ENV_GLOW_BLEND_MODE_SCREEN = 1

Screen glow blending mode. Increases brightness, used frequently with bloom.

EnvironmentGlowBlendMode ENV_GLOW_BLEND_MODE_SOFTLIGHT = 2

Soft light glow blending mode. Modifies contrast, exposes shadows and highlights (vivid bloom).

EnvironmentGlowBlendMode ENV_GLOW_BLEND_MODE_REPLACE = 3

Replace glow blending mode. Replaces all pixels' color by the glow value. This can be used to simulate a full-screen blur effect by tweaking the glow parameters to match the original image's brightness.

EnvironmentGlowBlendMode ENV_GLOW_BLEND_MODE_MIX = 4

Mixes the glow with the underlying color to avoid increasing brightness as much while still maintaining a glow effect.


enum EnvironmentToneMapper:

EnvironmentToneMapper ENV_TONE_MAPPER_LINEAR = 0

Output color as they came in. This can cause bright lighting to look blown out, with noticeable clipping in the output colors.

EnvironmentToneMapper ENV_TONE_MAPPER_REINHARD = 1

Use the Reinhard tonemapper. Performs a variation on rendered pixels' colors by this formula: color = color / (1 + color). This avoids clipping bright highlights, but the resulting image can look a bit dull.

EnvironmentToneMapper ENV_TONE_MAPPER_FILMIC = 2

Use the filmic tonemapper. This avoids clipping bright highlights, with a resulting image that usually looks more vivid than ENV_TONE_MAPPER_REINHARD.

EnvironmentToneMapper ENV_TONE_MAPPER_ACES = 3

Use the Academy Color Encoding System tonemapper. ACES is slightly more expensive than other options, but it handles bright lighting in a more realistic fashion by desaturating it as it becomes brighter. ACES typically has a more contrasted output compared to ENV_TONE_MAPPER_REINHARD and ENV_TONE_MAPPER_FILMIC.

Note: This tonemapping operator is called "ACES Fitted" in Godot 3.x.


enum EnvironmentSSRRoughnessQuality:

EnvironmentSSRRoughnessQuality ENV_SSR_ROUGHNESS_QUALITY_DISABLED = 0

Lowest quality of roughness filter for screen-space reflections. Rough materials will not have blurrier screen-space reflections compared to smooth (non-rough) materials. This is the fastest option.

EnvironmentSSRRoughnessQuality ENV_SSR_ROUGHNESS_QUALITY_LOW = 1

Low quality of roughness filter for screen-space reflections.

EnvironmentSSRRoughnessQuality ENV_SSR_ROUGHNESS_QUALITY_MEDIUM = 2

Medium quality of roughness filter for screen-space reflections.

EnvironmentSSRRoughnessQuality ENV_SSR_ROUGHNESS_QUALITY_HIGH = 3

High quality of roughness filter for screen-space reflections. This is the slowest option.


enum EnvironmentSSAOQuality:

EnvironmentSSAOQuality ENV_SSAO_QUALITY_VERY_LOW = 0

Lowest quality of screen-space ambient occlusion.

EnvironmentSSAOQuality ENV_SSAO_QUALITY_LOW = 1

Low quality screen-space ambient occlusion.

EnvironmentSSAOQuality ENV_SSAO_QUALITY_MEDIUM = 2

Medium quality screen-space ambient occlusion.

EnvironmentSSAOQuality ENV_SSAO_QUALITY_HIGH = 3

High quality screen-space ambient occlusion.

EnvironmentSSAOQuality ENV_SSAO_QUALITY_ULTRA = 4

Highest quality screen-space ambient occlusion. Uses the adaptive target setting which can be dynamically adjusted to smoothly balance performance and visual quality.


enum EnvironmentSSILQuality:

EnvironmentSSILQuality ENV_SSIL_QUALITY_VERY_LOW = 0

Lowest quality of screen-space indirect lighting.

EnvironmentSSILQuality ENV_SSIL_QUALITY_LOW = 1

Low quality screen-space indirect lighting.

EnvironmentSSILQuality ENV_SSIL_QUALITY_MEDIUM = 2

High quality screen-space indirect lighting.

EnvironmentSSILQuality ENV_SSIL_QUALITY_HIGH = 3

High quality screen-space indirect lighting.

EnvironmentSSILQuality ENV_SSIL_QUALITY_ULTRA = 4

Highest quality screen-space indirect lighting. Uses the adaptive target setting which can be dynamically adjusted to smoothly balance performance and visual quality.


enum EnvironmentSDFGIYScale:

EnvironmentSDFGIYScale ENV_SDFGI_Y_SCALE_50_PERCENT = 0

Use 50% scale for SDFGI on the Y (vertical) axis. SDFGI cells will be twice as short as they are wide. This allows providing increased GI detail and reduced light leaking with thin floors and ceilings. This is usually the best choice for scenes that don't feature much verticality.

EnvironmentSDFGIYScale ENV_SDFGI_Y_SCALE_75_PERCENT = 1

Use 75% scale for SDFGI on the Y (vertical) axis. This is a balance between the 50% and 100% SDFGI Y scales.

EnvironmentSDFGIYScale ENV_SDFGI_Y_SCALE_100_PERCENT = 2

Use 100% scale for SDFGI on the Y (vertical) axis. SDFGI cells will be as tall as they are wide. This is usually the best choice for highly vertical scenes. The downside is that light leaking may become more noticeable with thin floors and ceilings.


enum EnvironmentSDFGIRayCount:

EnvironmentSDFGIRayCount ENV_SDFGI_RAY_COUNT_4 = 0

Throw 4 rays per frame when converging SDFGI. This has the lowest GPU requirements, but creates the most noisy result.

EnvironmentSDFGIRayCount ENV_SDFGI_RAY_COUNT_8 = 1

Throw 8 rays per frame when converging SDFGI.

EnvironmentSDFGIRayCount ENV_SDFGI_RAY_COUNT_16 = 2

Throw 16 rays per frame when converging SDFGI.

EnvironmentSDFGIRayCount ENV_SDFGI_RAY_COUNT_32 = 3

Throw 32 rays per frame when converging SDFGI.

EnvironmentSDFGIRayCount ENV_SDFGI_RAY_COUNT_64 = 4

Throw 64 rays per frame when converging SDFGI.

EnvironmentSDFGIRayCount ENV_SDFGI_RAY_COUNT_96 = 5

Throw 96 rays per frame when converging SDFGI. This has high GPU requirements.

EnvironmentSDFGIRayCount ENV_SDFGI_RAY_COUNT_128 = 6

Throw 128 rays per frame when converging SDFGI. This has very high GPU requirements, but creates the least noisy result.

EnvironmentSDFGIRayCount ENV_SDFGI_RAY_COUNT_MAX = 7

Represents the size of the EnvironmentSDFGIRayCount enum.


enum EnvironmentSDFGIFramesToConverge:

EnvironmentSDFGIFramesToConverge ENV_SDFGI_CONVERGE_IN_5_FRAMES = 0

Converge SDFGI over 5 frames. This is the most responsive, but creates the most noisy result with a given ray count.

EnvironmentSDFGIFramesToConverge ENV_SDFGI_CONVERGE_IN_10_FRAMES = 1

Configure SDFGI to fully converge over 10 frames.

EnvironmentSDFGIFramesToConverge ENV_SDFGI_CONVERGE_IN_15_FRAMES = 2

Configure SDFGI to fully converge over 15 frames.

EnvironmentSDFGIFramesToConverge ENV_SDFGI_CONVERGE_IN_20_FRAMES = 3

Configure SDFGI to fully converge over 20 frames.

EnvironmentSDFGIFramesToConverge ENV_SDFGI_CONVERGE_IN_25_FRAMES = 4

Configure SDFGI to fully converge over 25 frames.

EnvironmentSDFGIFramesToConverge ENV_SDFGI_CONVERGE_IN_30_FRAMES = 5

Configure SDFGI to fully converge over 30 frames. This is the least responsive, but creates the least noisy result with a given ray count.

EnvironmentSDFGIFramesToConverge ENV_SDFGI_CONVERGE_MAX = 6

Represents the size of the EnvironmentSDFGIFramesToConverge enum.


enum EnvironmentSDFGIFramesToUpdateLight:

EnvironmentSDFGIFramesToUpdateLight ENV_SDFGI_UPDATE_LIGHT_IN_1_FRAME = 0

Update indirect light from dynamic lights in SDFGI over 1 frame. This is the most responsive, but has the highest GPU requirements.

EnvironmentSDFGIFramesToUpdateLight ENV_SDFGI_UPDATE_LIGHT_IN_2_FRAMES = 1

Update indirect light from dynamic lights in SDFGI over 2 frames.

EnvironmentSDFGIFramesToUpdateLight ENV_SDFGI_UPDATE_LIGHT_IN_4_FRAMES = 2

Update indirect light from dynamic lights in SDFGI over 4 frames.

EnvironmentSDFGIFramesToUpdateLight ENV_SDFGI_UPDATE_LIGHT_IN_8_FRAMES = 3

Update indirect light from dynamic lights in SDFGI over 8 frames.

EnvironmentSDFGIFramesToUpdateLight ENV_SDFGI_UPDATE_LIGHT_IN_16_FRAMES = 4

Update indirect light from dynamic lights in SDFGI over 16 frames. This is the least responsive, but has the lowest GPU requirements.

EnvironmentSDFGIFramesToUpdateLight ENV_SDFGI_UPDATE_LIGHT_MAX = 5

Represents the size of the EnvironmentSDFGIFramesToUpdateLight enum.


enum SubSurfaceScatteringQuality:

SubSurfaceScatteringQuality SUB_SURFACE_SCATTERING_QUALITY_DISABLED = 0

Disables subsurface scattering entirely, even on materials that have BaseMaterial3D.subsurf_scatter_enabled set to true. This has the lowest GPU requirements.

SubSurfaceScatteringQuality SUB_SURFACE_SCATTERING_QUALITY_LOW = 1

Low subsurface scattering quality.

SubSurfaceScatteringQuality SUB_SURFACE_SCATTERING_QUALITY_MEDIUM = 2

Medium subsurface scattering quality.

SubSurfaceScatteringQuality SUB_SURFACE_SCATTERING_QUALITY_HIGH = 3

High subsurface scattering quality. This has the highest GPU requirements.


enum DOFBokehShape:

DOFBokehShape DOF_BOKEH_BOX = 0

Calculate the DOF blur using a box filter. The fastest option, but results in obvious lines in blur pattern.

DOFBokehShape DOF_BOKEH_HEXAGON = 1

Calculates DOF blur using a hexagon shaped filter.

DOFBokehShape DOF_BOKEH_CIRCLE = 2

Calculates DOF blur using a circle shaped filter. Best quality and most realistic, but slowest. Use only for areas where a lot of performance can be dedicated to post-processing (e.g. cutscenes).


enum DOFBlurQuality:

DOFBlurQuality DOF_BLUR_QUALITY_VERY_LOW = 0

Lowest quality DOF blur. This is the fastest setting, but you may be able to see filtering artifacts.

DOFBlurQuality DOF_BLUR_QUALITY_LOW = 1

Low quality DOF blur.

DOFBlurQuality DOF_BLUR_QUALITY_MEDIUM = 2

Medium quality DOF blur.

DOFBlurQuality DOF_BLUR_QUALITY_HIGH = 3

Highest quality DOF blur. Results in the smoothest looking blur by taking the most samples, but is also significantly slower.


enum InstanceType:

InstanceType INSTANCE_NONE = 0

The instance does not have a type.

InstanceType INSTANCE_MESH = 1

The instance is a mesh.

InstanceType INSTANCE_MULTIMESH = 2

The instance is a multimesh.

InstanceType INSTANCE_PARTICLES = 3

The instance is a particle emitter.

InstanceType INSTANCE_PARTICLES_COLLISION = 4

The instance is a GPUParticles collision shape.

InstanceType INSTANCE_LIGHT = 5

The instance is a light.

InstanceType INSTANCE_REFLECTION_PROBE = 6

The instance is a reflection probe.

InstanceType INSTANCE_DECAL = 7

The instance is a decal.

InstanceType INSTANCE_VOXEL_GI = 8

The instance is a VoxelGI.

InstanceType INSTANCE_LIGHTMAP = 9

The instance is a lightmap.

InstanceType INSTANCE_OCCLUDER = 10

The instance is an occlusion culling occluder.

InstanceType INSTANCE_VISIBLITY_NOTIFIER = 11

The instance is a visible on-screen notifier.

InstanceType INSTANCE_FOG_VOLUME = 12

The instance is a fog volume.

InstanceType INSTANCE_MAX = 13

Represents the size of the InstanceType enum.

InstanceType INSTANCE_GEOMETRY_MASK = 14

A combination of the flags of geometry instances (mesh, multimesh, immediate and particles).


enum InstanceFlags:

InstanceFlags INSTANCE_FLAG_USE_BAKED_LIGHT = 0

Allows the instance to be used in baked lighting.

InstanceFlags INSTANCE_FLAG_USE_DYNAMIC_GI = 1

Allows the instance to be used with dynamic global illumination.

InstanceFlags INSTANCE_FLAG_DRAW_NEXT_FRAME_IF_VISIBLE = 2

When set, manually requests to draw geometry on next frame.

InstanceFlags INSTANCE_FLAG_IGNORE_OCCLUSION_CULLING = 3

Always draw, even if the instance would be culled by occlusion culling. Does not affect view frustum culling.

InstanceFlags INSTANCE_FLAG_MAX = 4

Represents the size of the InstanceFlags enum.


enum ShadowCastingSetting:

ShadowCastingSetting SHADOW_CASTING_SETTING_OFF = 0

Disable shadows from this instance.

ShadowCastingSetting SHADOW_CASTING_SETTING_ON = 1

Cast shadows from this instance.

ShadowCastingSetting SHADOW_CASTING_SETTING_DOUBLE_SIDED = 2

Disable backface culling when rendering the shadow of the object. This is slightly slower but may result in more correct shadows.

ShadowCastingSetting SHADOW_CASTING_SETTING_SHADOWS_ONLY = 3

Only render the shadows from the object. The object itself will not be drawn.


enum VisibilityRangeFadeMode:

VisibilityRangeFadeMode VISIBILITY_RANGE_FADE_DISABLED = 0

Disable visibility range fading for the given instance.

VisibilityRangeFadeMode VISIBILITY_RANGE_FADE_SELF = 1

Fade-out the given instance when it approaches its visibility range limits.

VisibilityRangeFadeMode VISIBILITY_RANGE_FADE_DEPENDENCIES = 2

Fade-in the given instance's dependencies when reaching its visibility range limits.


enum BakeChannels:

BakeChannels BAKE_CHANNEL_ALBEDO_ALPHA = 0

Index of Image in array of Images returned by bake_render_uv2. Image uses Image.FORMAT_RGBA8 and contains albedo color in the .rgb channels and alpha in the .a channel.

BakeChannels BAKE_CHANNEL_NORMAL = 1

Index of Image in array of Images returned by bake_render_uv2. Image uses Image.FORMAT_RGBA8 and contains the per-pixel normal of the object in the .rgb channels and nothing in the .a channel. The per-pixel normal is encoded as normal * 0.5 + 0.5.

BakeChannels BAKE_CHANNEL_ORM = 2

Index of Image in array of Images returned by bake_render_uv2. Image uses Image.FORMAT_RGBA8 and contains ambient occlusion (from material and decals only) in the .r channel, roughness in the .g channel, metallic in the .b channel and sub surface scattering amount in the .a channel.

BakeChannels BAKE_CHANNEL_EMISSION = 3

Index of Image in array of Images returned by bake_render_uv2. Image uses Image.FORMAT_RGBAH and contains emission color in the .rgb channels and nothing in the .a channel.


enum CanvasTextureChannel:

CanvasTextureChannel CANVAS_TEXTURE_CHANNEL_DIFFUSE = 0

Diffuse canvas texture (CanvasTexture.diffuse_texture).

CanvasTextureChannel CANVAS_TEXTURE_CHANNEL_NORMAL = 1

Normal map canvas texture (CanvasTexture.normal_texture).

CanvasTextureChannel CANVAS_TEXTURE_CHANNEL_SPECULAR = 2

Specular map canvas texture (CanvasTexture.specular_texture).


enum NinePatchAxisMode:

NinePatchAxisMode NINE_PATCH_STRETCH = 0

The nine patch gets stretched where needed.

NinePatchAxisMode NINE_PATCH_TILE = 1

The nine patch gets filled with tiles where needed.

NinePatchAxisMode NINE_PATCH_TILE_FIT = 2

The nine patch gets filled with tiles where needed and stretches them a bit if needed.


enum CanvasItemTextureFilter:

CanvasItemTextureFilter CANVAS_ITEM_TEXTURE_FILTER_DEFAULT = 0

Uses the default filter mode for this Viewport.

CanvasItemTextureFilter CANVAS_ITEM_TEXTURE_FILTER_NEAREST = 1

The texture filter reads from the nearest pixel only. The simplest and fastest method of filtering, but the texture will look pixelized.

CanvasItemTextureFilter CANVAS_ITEM_TEXTURE_FILTER_LINEAR = 2

The texture filter blends between the nearest 4 pixels. Use this when you want to avoid a pixelated style, but do not want mipmaps.

CanvasItemTextureFilter CANVAS_ITEM_TEXTURE_FILTER_NEAREST_WITH_MIPMAPS = 3

The texture filter reads from the nearest pixel in the nearest mipmap. The fastest way to read from textures with mipmaps.

CanvasItemTextureFilter CANVAS_ITEM_TEXTURE_FILTER_LINEAR_WITH_MIPMAPS = 4

The texture filter blends between the nearest 4 pixels and between the nearest 2 mipmaps.

CanvasItemTextureFilter CANVAS_ITEM_TEXTURE_FILTER_NEAREST_WITH_MIPMAPS_ANISOTROPIC = 5

The texture filter reads from the nearest pixel, but selects a mipmap based on the angle between the surface and the camera view. This reduces artifacts on surfaces that are almost in line with the camera.

CanvasItemTextureFilter CANVAS_ITEM_TEXTURE_FILTER_LINEAR_WITH_MIPMAPS_ANISOTROPIC = 6

The texture filter blends between the nearest 4 pixels and selects a mipmap based on the angle between the surface and the camera view. This reduces artifacts on surfaces that are almost in line with the camera. This is the slowest of the filtering options, but results in the highest quality texturing.

CanvasItemTextureFilter CANVAS_ITEM_TEXTURE_FILTER_MAX = 7

Max value for CanvasItemTextureFilter enum.


enum CanvasItemTextureRepeat:

CanvasItemTextureRepeat CANVAS_ITEM_TEXTURE_REPEAT_DEFAULT = 0

Uses the default repeat mode for this Viewport.

CanvasItemTextureRepeat CANVAS_ITEM_TEXTURE_REPEAT_DISABLED = 1

Disables textures repeating. Instead, when reading UVs outside the 0-1 range, the value will be clamped to the edge of the texture, resulting in a stretched out look at the borders of the texture.

CanvasItemTextureRepeat CANVAS_ITEM_TEXTURE_REPEAT_ENABLED = 2

Enables the texture to repeat when UV coordinates are outside the 0-1 range. If using one of the linear filtering modes, this can result in artifacts at the edges of a texture when the sampler filters across the edges of the texture.

CanvasItemTextureRepeat CANVAS_ITEM_TEXTURE_REPEAT_MIRROR = 3

Flip the texture when repeating so that the edge lines up instead of abruptly changing.

CanvasItemTextureRepeat CANVAS_ITEM_TEXTURE_REPEAT_MAX = 4

Max value for CanvasItemTextureRepeat enum.


enum CanvasGroupMode:

CanvasGroupMode CANVAS_GROUP_MODE_DISABLED = 0

Child draws over parent and is not clipped.

CanvasGroupMode CANVAS_GROUP_MODE_CLIP_ONLY = 1

Parent is used for the purposes of clipping only. Child is clipped to the parent's visible area, parent is not drawn.

CanvasGroupMode CANVAS_GROUP_MODE_CLIP_AND_DRAW = 2

Parent is used for clipping child, but parent is also drawn underneath child as normal before clipping child to its visible area.

CanvasGroupMode CANVAS_GROUP_MODE_TRANSPARENT = 3


enum CanvasLightMode:

CanvasLightMode CANVAS_LIGHT_MODE_POINT = 0

2D point light (see PointLight2D).

CanvasLightMode CANVAS_LIGHT_MODE_DIRECTIONAL = 1

2D directional (sun/moon) light (see DirectionalLight2D).


enum CanvasLightBlendMode:

CanvasLightBlendMode CANVAS_LIGHT_BLEND_MODE_ADD = 0

Adds light color additive to the canvas.

CanvasLightBlendMode CANVAS_LIGHT_BLEND_MODE_SUB = 1

Adds light color subtractive to the canvas.

CanvasLightBlendMode CANVAS_LIGHT_BLEND_MODE_MIX = 2

The light adds color depending on transparency.


enum CanvasLightShadowFilter:

CanvasLightShadowFilter CANVAS_LIGHT_FILTER_NONE = 0

Do not apply a filter to canvas light shadows.

CanvasLightShadowFilter CANVAS_LIGHT_FILTER_PCF5 = 1

Use PCF5 filtering to filter canvas light shadows.

CanvasLightShadowFilter CANVAS_LIGHT_FILTER_PCF13 = 2

Use PCF13 filtering to filter canvas light shadows.

CanvasLightShadowFilter CANVAS_LIGHT_FILTER_MAX = 3

Max value of the CanvasLightShadowFilter enum.


enum CanvasOccluderPolygonCullMode:

CanvasOccluderPolygonCullMode CANVAS_OCCLUDER_POLYGON_CULL_DISABLED = 0

Culling of the canvas occluder is disabled.

CanvasOccluderPolygonCullMode CANVAS_OCCLUDER_POLYGON_CULL_CLOCKWISE = 1

Culling of the canvas occluder is clockwise.

CanvasOccluderPolygonCullMode CANVAS_OCCLUDER_POLYGON_CULL_COUNTER_CLOCKWISE = 2

Culling of the canvas occluder is counterclockwise.


enum GlobalShaderParameterType:

GlobalShaderParameterType GLOBAL_VAR_TYPE_BOOL = 0

Boolean global shader parameter (global uniform bool ...).

GlobalShaderParameterType GLOBAL_VAR_TYPE_BVEC2 = 1

2-dimensional boolean vector global shader parameter (global uniform bvec2 ...).

GlobalShaderParameterType GLOBAL_VAR_TYPE_BVEC3 = 2

3-dimensional boolean vector global shader parameter (global uniform bvec3 ...).

GlobalShaderParameterType GLOBAL_VAR_TYPE_BVEC4 = 3

4-dimensional boolean vector global shader parameter (global uniform bvec4 ...).

GlobalShaderParameterType GLOBAL_VAR_TYPE_INT = 4

Integer global shader parameter (global uniform int ...).

GlobalShaderParameterType GLOBAL_VAR_TYPE_IVEC2 = 5

2-dimensional integer vector global shader parameter (global uniform ivec2 ...).

GlobalShaderParameterType GLOBAL_VAR_TYPE_IVEC3 = 6

3-dimensional integer vector global shader parameter (global uniform ivec3 ...).

GlobalShaderParameterType GLOBAL_VAR_TYPE_IVEC4 = 7

4-dimensional integer vector global shader parameter (global uniform ivec4 ...).

GlobalShaderParameterType GLOBAL_VAR_TYPE_RECT2I = 8

2-dimensional integer rectangle global shader parameter (global uniform ivec4 ...). Equivalent to GLOBAL_VAR_TYPE_IVEC4 in shader code, but exposed as a Rect2i in the editor UI.

GlobalShaderParameterType GLOBAL_VAR_TYPE_UINT = 9

Unsigned integer global shader parameter (global uniform uint ...).

GlobalShaderParameterType GLOBAL_VAR_TYPE_UVEC2 = 10

2-dimensional unsigned integer vector global shader parameter (global uniform uvec2 ...).

GlobalShaderParameterType GLOBAL_VAR_TYPE_UVEC3 = 11

3-dimensional unsigned integer vector global shader parameter (global uniform uvec3 ...).

GlobalShaderParameterType GLOBAL_VAR_TYPE_UVEC4 = 12

4-dimensional unsigned integer vector global shader parameter (global uniform uvec4 ...).

GlobalShaderParameterType GLOBAL_VAR_TYPE_FLOAT = 13

Single-precision floating-point global shader parameter (global uniform float ...).

GlobalShaderParameterType GLOBAL_VAR_TYPE_VEC2 = 14

2-dimensional floating-point vector global shader parameter (global uniform vec2 ...).

GlobalShaderParameterType GLOBAL_VAR_TYPE_VEC3 = 15

3-dimensional floating-point vector global shader parameter (global uniform vec3 ...).

GlobalShaderParameterType GLOBAL_VAR_TYPE_VEC4 = 16

4-dimensional floating-point vector global shader parameter (global uniform vec4 ...).

GlobalShaderParameterType GLOBAL_VAR_TYPE_COLOR = 17

Color global shader parameter (global uniform vec4 ...). Equivalent to GLOBAL_VAR_TYPE_VEC4 in shader code, but exposed as a Color in the editor UI.

GlobalShaderParameterType GLOBAL_VAR_TYPE_RECT2 = 18

2-dimensional floating-point rectangle global shader parameter (global uniform vec4 ...). Equivalent to GLOBAL_VAR_TYPE_VEC4 in shader code, but exposed as a Rect2 in the editor UI.

GlobalShaderParameterType GLOBAL_VAR_TYPE_MAT2 = 19

2×2 matrix global shader parameter (global uniform mat2 ...). Exposed as a PackedInt32Array in the editor UI.

GlobalShaderParameterType GLOBAL_VAR_TYPE_MAT3 = 20

3×3 matrix global shader parameter (global uniform mat3 ...). Exposed as a Basis in the editor UI.

GlobalShaderParameterType GLOBAL_VAR_TYPE_MAT4 = 21

4×4 matrix global shader parameter (global uniform mat4 ...). Exposed as a Projection in the editor UI.

GlobalShaderParameterType GLOBAL_VAR_TYPE_TRANSFORM_2D = 22

2-dimensional transform global shader parameter (global uniform mat2x3 ...). Exposed as a Transform2D in the editor UI.

GlobalShaderParameterType GLOBAL_VAR_TYPE_TRANSFORM = 23

3-dimensional transform global shader parameter (global uniform mat3x4 ...). Exposed as a Transform3D in the editor UI.

GlobalShaderParameterType GLOBAL_VAR_TYPE_SAMPLER2D = 24

2D sampler global shader parameter (global uniform sampler2D ...). Exposed as a Texture2D in the editor UI.

GlobalShaderParameterType GLOBAL_VAR_TYPE_SAMPLER2DARRAY = 25

2D sampler array global shader parameter (global uniform sampler2DArray ...). Exposed as a Texture2DArray in the editor UI.

GlobalShaderParameterType GLOBAL_VAR_TYPE_SAMPLER3D = 26

3D sampler global shader parameter (global uniform sampler3D ...). Exposed as a Texture3D in the editor UI.

GlobalShaderParameterType GLOBAL_VAR_TYPE_SAMPLERCUBE = 27

Cubemap sampler global shader parameter (global uniform samplerCube ...). Exposed as a Cubemap in the editor UI.

GlobalShaderParameterType GLOBAL_VAR_TYPE_MAX = 28

Represents the size of the GlobalShaderParameterType enum.


enum RenderingInfo:

RenderingInfo RENDERING_INFO_TOTAL_OBJECTS_IN_FRAME = 0

Number of objects rendered in the current 3D scene. This varies depending on camera position and rotation.

RenderingInfo RENDERING_INFO_TOTAL_PRIMITIVES_IN_FRAME = 1

Number of points, lines, or triangles rendered in the current 3D scene. This varies depending on camera position and rotation.

RenderingInfo RENDERING_INFO_TOTAL_DRAW_CALLS_IN_FRAME = 2

Number of draw calls performed to render in the current 3D scene. This varies depending on camera position and rotation.

RenderingInfo RENDERING_INFO_TEXTURE_MEM_USED = 3

Texture memory used (in bytes).

RenderingInfo RENDERING_INFO_BUFFER_MEM_USED = 4

Buffer memory used (in bytes). This includes vertex data, uniform buffers, and many miscellaneous buffer types used internally.

RenderingInfo RENDERING_INFO_VIDEO_MEM_USED = 5

Video memory used (in bytes). When using the Forward+ or mobile rendering backends, this is always greater than the sum of RENDERING_INFO_TEXTURE_MEM_USED and RENDERING_INFO_BUFFER_MEM_USED, since there is miscellaneous data not accounted for by those two metrics. When using the GL Compatibility backend, this is equal to the sum of RENDERING_INFO_TEXTURE_MEM_USED and RENDERING_INFO_BUFFER_MEM_USED.


enum Features:

Features FEATURE_SHADERS = 0

Hardware supports shaders. This enum is currently unused in Godot 3.x.

Features FEATURE_MULTITHREADED = 1

Hardware supports multithreading. This enum is currently unused in Godot 3.x.


常量

NO_INDEX_ARRAY = -1

Marks an error that shows that the index array is empty.

ARRAY_WEIGHTS_SIZE = 4

Number of weights/bones per vertex.

CANVAS_ITEM_Z_MIN = -4096

The minimum Z-layer for canvas items.

CANVAS_ITEM_Z_MAX = 4096

The maximum Z-layer for canvas items.

MAX_GLOW_LEVELS = 7

The maximum number of glow levels that can be used with the glow post-processing effect.

MAX_CURSORS = 8

Deprecated. This constant is unused internally.

MAX_2D_DIRECTIONAL_LIGHTS = 8

The maximum number of directional lights that can be rendered at a given time in 2D.

MATERIAL_RENDER_PRIORITY_MIN = -128

The minimum renderpriority of all materials.

MATERIAL_RENDER_PRIORITY_MAX = 127

The maximum renderpriority of all materials.

ARRAY_CUSTOM_COUNT = 4

The number of custom data arrays available (ARRAY_CUSTOM0, ARRAY_CUSTOM1, ARRAY_CUSTOM2, ARRAY_CUSTOM3).

PARTICLES_EMIT_FLAG_POSITION = 1

PARTICLES_EMIT_FLAG_ROTATION_SCALE = 2

PARTICLES_EMIT_FLAG_VELOCITY = 4

PARTICLES_EMIT_FLAG_COLOR = 8

PARTICLES_EMIT_FLAG_CUSTOM = 16


Property Descriptions

bool render_loop_enabled

  • void set_render_loop_enabled ( bool value )

  • bool is_render_loop_enabled ( )

If false, disables rendering completely, but the engine logic is still being processed. You can call force_draw to draw a frame even with rendering disabled.


Method Descriptions

Image[] bake_render_uv2 ( RID base, RID[] material_overrides, Vector2i image_size )

Bakes the material data of the Mesh passed in the base parameter with optional material_overrides to a set of Images of size image_size. Returns an array of Images containing material properties as specified in BakeChannels.


void call_on_render_thread ( Callable callable )

As the RenderingServer actual logic may run on an separate thread, accessing its internals from the main (or any other) thread will result in errors. To make it easier to run code that can safely access the rendering internals (such as RenderingDevice and similar RD classes), push a callable via this function so it will be executed on the render thread.


RID camera_attributes_create ( )

Creates a camera attributes object and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all camera_attributes_ RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

Note: The equivalent resource is CameraAttributes.


void camera_attributes_set_auto_exposure ( RID camera_attributes, bool enable, float min_sensitivity, float max_sensitivity, float speed, float scale )

Sets the parameters to use with the auto-exposure effect. These parameters take on the same meaning as their counterparts in CameraAttributes and CameraAttributesPractical.


void camera_attributes_set_dof_blur ( RID camera_attributes, bool far_enable, float far_distance, float far_transition, bool near_enable, float near_distance, float near_transition, float amount )

Sets the parameters to use with the DOF blur effect. These parameters take on the same meaning as their counterparts in CameraAttributesPractical.


void camera_attributes_set_dof_blur_bokeh_shape ( DOFBokehShape shape )

Sets the shape of the DOF bokeh pattern. Different shapes may be used to achieve artistic effect, or to meet performance targets. For more detail on available options see DOFBokehShape.


void camera_attributes_set_dof_blur_quality ( DOFBlurQuality quality, bool use_jitter )

Sets the quality level of the DOF blur effect to one of the options in DOFBlurQuality. use_jitter can be used to jitter samples taken during the blur pass to hide artifacts at the cost of looking more fuzzy.


void camera_attributes_set_exposure ( RID camera_attributes, float multiplier, float normalization )

Sets the exposure values that will be used by the renderers. The normalization amount is used to bake a given Exposure Value (EV) into rendering calculations to reduce the dynamic range of the scene.

The normalization factor can be calculated from exposure value (EV100) as follows:

func get_exposure_normalization(float ev100):
                                return 1.0 / (pow(2.0, ev100) * 1.2)

The exposure value can be calculated from aperture (in f-stops), shutter speed (in seconds), and sensitivity (in ISO) as follows:

func get_exposure(float aperture, float shutter_speed, float sensitivity):
    return log2((aperture * aperture) / shutterSpeed * (100.0 / sensitivity))

RID camera_create ( )

Creates a 3D camera and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all camera_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

Note: The equivalent node is Camera3D.


void camera_set_camera_attributes ( RID camera, RID effects )

Sets the camera_attributes created with camera_attributes_create to the given camera.


void camera_set_cull_mask ( RID camera, int layers )

Sets the cull mask associated with this camera. The cull mask describes which 3D layers are rendered by this camera. Equivalent to Camera3D.cull_mask.


void camera_set_environment ( RID camera, RID env )

Sets the environment used by this camera. Equivalent to Camera3D.environment.


void camera_set_frustum ( RID camera, float size, Vector2 offset, float z_near, float z_far )

Sets camera to use frustum projection. This mode allows adjusting the offset argument to create "tilted frustum" effects.


void camera_set_orthogonal ( RID camera, float size, float z_near, float z_far )

Sets camera to use orthogonal projection, also known as orthographic projection. Objects remain the same size on the screen no matter how far away they are.


void camera_set_perspective ( RID camera, float fovy_degrees, float z_near, float z_far )

Sets camera to use perspective projection. Objects on the screen becomes smaller when they are far away.


void camera_set_transform ( RID camera, Transform3D transform )

Sets Transform3D of camera.


void camera_set_use_vertical_aspect ( RID camera, bool enable )

If true, preserves the horizontal aspect ratio which is equivalent to Camera3D.KEEP_WIDTH. If false, preserves the vertical aspect ratio which is equivalent to Camera3D.KEEP_HEIGHT.


RID canvas_create ( )

Creates a canvas and returns the assigned RID. It can be accessed with the RID that is returned. This RID will be used in all canvas_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

Canvas has no Resource or Node equivalent.


void canvas_item_add_animation_slice ( RID item, float animation_length, float slice_begin, float slice_end, float offset=0.0 )

Subsequent drawing commands will be ignored unless they fall within the specified animation slice. This is a faster way to implement animations that loop on background rather than redrawing constantly.


void canvas_item_add_circle ( RID item, Vector2 pos, float radius, Color color )

Draws a circle on the CanvasItem pointed to by the item RID. See also CanvasItem.draw_circle.


void canvas_item_add_clip_ignore ( RID item, bool ignore )

If ignore is true, ignore clipping on items drawn with this canvas item until this is called again with ignore set to false.


void canvas_item_add_lcd_texture_rect_region ( RID item, Rect2 rect, RID texture, Rect2 src_rect, Color modulate )

See also CanvasItem.draw_lcd_texture_rect_region.


void canvas_item_add_line ( RID item, Vector2 from, Vector2 to, Color color, float width=-1.0, bool antialiased=false )

Draws a line on the CanvasItem pointed to by the item RID. See also CanvasItem.draw_line.


void canvas_item_add_mesh ( RID item, RID mesh, Transform2D transform=Transform2D(1, 0, 0, 1, 0, 0), Color modulate=Color(1, 1, 1, 1), RID texture=RID() )

Draws a mesh created with mesh_create with given transform, modulate color, and texture. This is used internally by MeshInstance2D.


void canvas_item_add_msdf_texture_rect_region ( RID item, Rect2 rect, RID texture, Rect2 src_rect, Color modulate=Color(1, 1, 1, 1), int outline_size=0, float px_range=1.0, float scale=1.0 )

See also CanvasItem.draw_msdf_texture_rect_region.


void canvas_item_add_multiline ( RID item, PackedVector2Array points, PackedColorArray colors, float width=-1.0 )

Draws a 2D multiline on the CanvasItem pointed to by the item RID. See also CanvasItem.draw_multiline and CanvasItem.draw_multiline_colors.


void canvas_item_add_multimesh ( RID item, RID mesh, RID texture=RID() )

Draws a 2D MultiMesh on the CanvasItem pointed to by the item RID. See also CanvasItem.draw_multimesh.


void canvas_item_add_nine_patch ( RID item, Rect2 rect, Rect2 source, RID texture, Vector2 topleft, Vector2 bottomright, NinePatchAxisMode x_axis_mode=0, NinePatchAxisMode y_axis_mode=0, bool draw_center=true, Color modulate=Color(1, 1, 1, 1) )

Draws a nine-patch rectangle on the CanvasItem pointed to by the item RID.


void canvas_item_add_particles ( RID item, RID particles, RID texture )

Draws particles on the CanvasItem pointed to by the item RID.


void canvas_item_add_polygon ( RID item, PackedVector2Array points, PackedColorArray colors, PackedVector2Array uvs=PackedVector2Array(), RID texture=RID() )

Draws a 2D polygon on the CanvasItem pointed to by the item RID. If you need more flexibility (such as being able to use bones), use canvas_item_add_triangle_array instead. See also CanvasItem.draw_polygon.


void canvas_item_add_polyline ( RID item, PackedVector2Array points, PackedColorArray colors, float width=-1.0, bool antialiased=false )

Draws a 2D polyline on the CanvasItem pointed to by the item RID. See also CanvasItem.draw_polyline and CanvasItem.draw_polyline_colors.


void canvas_item_add_primitive ( RID item, PackedVector2Array points, PackedColorArray colors, PackedVector2Array uvs, RID texture )

Draws a 2D primitive on the CanvasItem pointed to by the item RID. See also CanvasItem.draw_primitive.


void canvas_item_add_rect ( RID item, Rect2 rect, Color color )

Draws a rectangle on the CanvasItem pointed to by the item RID. See also CanvasItem.draw_rect.


void canvas_item_add_set_transform ( RID item, Transform2D transform )

Sets a Transform2D that will be used to transform subsequent canvas item commands.


void canvas_item_add_texture_rect ( RID item, Rect2 rect, RID texture, bool tile=false, Color modulate=Color(1, 1, 1, 1), bool transpose=false )

Draws a 2D textured rectangle on the CanvasItem pointed to by the item RID. See also CanvasItem.draw_texture_rect and Texture2D.draw_rect.


void canvas_item_add_texture_rect_region ( RID item, Rect2 rect, RID texture, Rect2 src_rect, Color modulate=Color(1, 1, 1, 1), bool transpose=false, bool clip_uv=true )

Draws the specified region of a 2D textured rectangle on the CanvasItem pointed to by the item RID. See also CanvasItem.draw_texture_rect_region and Texture2D.draw_rect_region.


void canvas_item_add_triangle_array ( RID item, PackedInt32Array indices, PackedVector2Array points, PackedColorArray colors, PackedVector2Array uvs=PackedVector2Array(), PackedInt32Array bones=PackedInt32Array(), PackedFloat32Array weights=PackedFloat32Array(), RID texture=RID(), int count=-1 )

Draws a triangle array on the CanvasItem pointed to by the item RID. This is internally used by Line2D and StyleBoxFlat for rendering. canvas_item_add_triangle_array is highly flexible, but more complex to use than canvas_item_add_polygon.

Note: count is unused and can be left unspecified.


void canvas_item_clear ( RID item )

Clears the CanvasItem and removes all commands in it.


RID canvas_item_create ( )

Creates a new CanvasItem instance and returns its RID. It can be accessed with the RID that is returned. This RID will be used in all canvas_item_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

Note: The equivalent node is CanvasItem.


void canvas_item_set_canvas_group_mode ( RID item, CanvasGroupMode mode, float clear_margin=5.0, bool fit_empty=false, float fit_margin=0.0, bool blur_mipmaps=false )

Sets the canvas group mode used during 2D rendering for the canvas item specified by the item RID. For faster but more limited clipping, use canvas_item_set_clip instead.

Note: The equivalent node functionality is found in CanvasGroup and CanvasItem.clip_children.


void canvas_item_set_clip ( RID item, bool clip )

If clip is true, makes the canvas item specified by the item RID not draw anything outside of its rect's coordinates. This clipping is fast, but works only with axis-aligned rectangles. This means that rotation is ignored by the clipping rectangle. For more advanced clipping shapes, use canvas_item_set_canvas_group_mode instead.

Note: The equivalent node functionality is found in Label.clip_text, RichTextLabel (always enabled) and more.


void canvas_item_set_copy_to_backbuffer ( RID item, bool enabled, Rect2 rect )

Sets the CanvasItem to copy a rect to the backbuffer.


void canvas_item_set_custom_rect ( RID item, bool use_custom_rect, Rect2 rect=Rect2(0, 0, 0, 0) )

If use_custom_rect is true, sets the custom visibility rectangle (used for culling) to rect for the canvas item specified by item. Setting a custom visibility rect can reduce CPU load when drawing lots of 2D instances. If use_custom_rect is false, automatically computes a visibility rectangle based on the canvas item's draw commands.


void canvas_item_set_default_texture_filter ( RID item, CanvasItemTextureFilter filter )

Sets the default texture filter mode for the canvas item specified by the item RID. Equivalent to CanvasItem.texture_filter.


void canvas_item_set_default_texture_repeat ( RID item, CanvasItemTextureRepeat repeat )

Sets the default texture repeat mode for the canvas item specified by the item RID. Equivalent to CanvasItem.texture_repeat.


void canvas_item_set_distance_field_mode ( RID item, bool enabled )

If enabled is true, enables multichannel signed distance field rendering mode for the canvas item specified by the item RID. This is meant to be used for font rendering, or with specially generated images using msdfgen.


void canvas_item_set_draw_behind_parent ( RID item, bool enabled )

If enabled is true, draws the canvas item specified by the item RID behind its parent. Equivalent to CanvasItem.show_behind_parent.


void canvas_item_set_draw_index ( RID item, int index )

Sets the index for the CanvasItem.


void canvas_item_set_light_mask ( RID item, int mask )

Sets the light mask for the canvas item specified by the item RID. Equivalent to CanvasItem.light_mask.


void canvas_item_set_material ( RID item, RID material )

Sets a new material to the canvas item specified by the item RID. Equivalent to CanvasItem.material.


void canvas_item_set_modulate ( RID item, Color color )

Multiplies the color of the canvas item specified by the item RID, while affecting its children. See also canvas_item_set_self_modulate. Equivalent to CanvasItem.modulate.


void canvas_item_set_parent ( RID item, RID parent )

Sets a parent CanvasItem to the CanvasItem. The item will inherit transform, modulation and visibility from its parent, like CanvasItem nodes in the scene tree.


void canvas_item_set_self_modulate ( RID item, Color color )

Multiplies the color of the canvas item specified by the item RID, without affecting its children. See also canvas_item_set_modulate. Equivalent to CanvasItem.self_modulate.


void canvas_item_set_sort_children_by_y ( RID item, bool enabled )

If enabled is true, child nodes with the lowest Y position are drawn before those with a higher Y position. Y-sorting only affects children that inherit from the canvas item specified by the item RID, not the canvas item itself. Equivalent to CanvasItem.y_sort_enabled.


void canvas_item_set_transform ( RID item, Transform2D transform )

Sets the transform of the canvas item specified by the item RID. This affects where and how the item will be drawn. Child canvas items' transforms are multiplied by their parent's transform. Equivalent to Node2D.transform.


void canvas_item_set_use_parent_material ( RID item, bool enabled )

Sets if the CanvasItem uses its parent's material.


void canvas_item_set_visibility_layer ( RID item, int visibility_layer )

Sets the rendering visibility layer associated with this CanvasItem. Only Viewport nodes with a matching rendering mask will render this CanvasItem.


void canvas_item_set_visibility_notifier ( RID item, bool enable, Rect2 area, Callable enter_callable, Callable exit_callable )

Sets the given CanvasItem as visibility notifier. area defines the area of detecting visibility. enter_callable is called when the CanvasItem enters the screen, exit_callable is called when the CanvasItem exits the screen. If enable is false, the item will no longer function as notifier.

This method can be used to manually mimic VisibleOnScreenNotifier2D.


void canvas_item_set_visible ( RID item, bool visible )

Sets the visibility of the CanvasItem.


void canvas_item_set_z_as_relative_to_parent ( RID item, bool enabled )

If this is enabled, the Z index of the parent will be added to the children's Z index.


void canvas_item_set_z_index ( RID item, int z_index )

Sets the CanvasItem's Z index, i.e. its draw order (lower indexes are drawn first).


void canvas_light_attach_to_canvas ( RID light, RID canvas )

Attaches the canvas light to the canvas. Removes it from its previous canvas.


RID canvas_light_create ( )

Creates a canvas light and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all canvas_light_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

Note: The equivalent node is Light2D.


void canvas_light_occluder_attach_to_canvas ( RID occluder, RID canvas )

Attaches a light occluder to the canvas. Removes it from its previous canvas.


RID canvas_light_occluder_create ( )

Creates a light occluder and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all canvas_light_occluder_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

Note: The equivalent node is LightOccluder2D.


void canvas_light_occluder_set_as_sdf_collision ( RID occluder, bool enable )

There is currently no description for this method. Please help us by contributing one!


void canvas_light_occluder_set_enabled ( RID occluder, bool enabled )

Enables or disables light occluder.


void canvas_light_occluder_set_light_mask ( RID occluder, int mask )

The light mask. See LightOccluder2D for more information on light masks.


void canvas_light_occluder_set_polygon ( RID occluder, RID polygon )

Sets a light occluder's polygon.


void canvas_light_occluder_set_transform ( RID occluder, Transform2D transform )

Sets a light occluder's Transform2D.


void canvas_light_set_blend_mode ( RID light, CanvasLightBlendMode mode )

Sets the blend mode for the given canvas light. See CanvasLightBlendMode for options. Equivalent to Light2D.blend_mode.


void canvas_light_set_color ( RID light, Color color )

Sets the color for a light.


void canvas_light_set_enabled ( RID light, bool enabled )

Enables or disables a canvas light.


void canvas_light_set_energy ( RID light, float energy )

Sets a canvas light's energy.


void canvas_light_set_height ( RID light, float height )

Sets a canvas light's height.


void canvas_light_set_item_cull_mask ( RID light, int mask )

The light mask. See LightOccluder2D for more information on light masks.


void canvas_light_set_item_shadow_cull_mask ( RID light, int mask )

The binary mask used to determine which layers this canvas light's shadows affects. See LightOccluder2D for more information on light masks.


void canvas_light_set_layer_range ( RID light, int min_layer, int max_layer )

The layer range that gets rendered with this light.


void canvas_light_set_mode ( RID light, CanvasLightMode mode )

The mode of the light, see CanvasLightMode constants.


void canvas_light_set_shadow_color ( RID light, Color color )

Sets the color of the canvas light's shadow.


void canvas_light_set_shadow_enabled ( RID light, bool enabled )

Enables or disables the canvas light's shadow.


void canvas_light_set_shadow_filter ( RID light, CanvasLightShadowFilter filter )

Sets the canvas light's shadow's filter, see CanvasLightShadowFilter constants.


void canvas_light_set_shadow_smooth ( RID light, float smooth )

Smoothens the shadow. The lower, the smoother.


void canvas_light_set_texture ( RID light, RID texture )

Sets the texture to be used by a PointLight2D. Equivalent to PointLight2D.texture.


void canvas_light_set_texture_offset ( RID light, Vector2 offset )

Sets the offset of a PointLight2D's texture. Equivalent to PointLight2D.offset.


void canvas_light_set_texture_scale ( RID light, float scale )

Sets the scale factor of a PointLight2D's texture. Equivalent to PointLight2D.texture_scale.


void canvas_light_set_transform ( RID light, Transform2D transform )

Sets the canvas light's Transform2D.


void canvas_light_set_z_range ( RID light, int min_z, int max_z )

Sets the Z range of objects that will be affected by this light. Equivalent to Light2D.range_z_min and Light2D.range_z_max.


RID canvas_occluder_polygon_create ( )

Creates a new light occluder polygon and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all canvas_occluder_polygon_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

Note: The equivalent resource is OccluderPolygon2D.


void canvas_occluder_polygon_set_cull_mode ( RID occluder_polygon, CanvasOccluderPolygonCullMode mode )

Sets an occluder polygons cull mode. See CanvasOccluderPolygonCullMode constants.


void canvas_occluder_polygon_set_shape ( RID occluder_polygon, PackedVector2Array shape, bool closed )

Sets the shape of the occluder polygon.


void canvas_set_disable_scale ( bool disable )

There is currently no description for this method. Please help us by contributing one!


void canvas_set_item_mirroring ( RID canvas, RID item, Vector2 mirroring )

A copy of the canvas item will be drawn with a local offset of the mirroring Vector2.


void canvas_set_modulate ( RID canvas, Color color )

Modulates all colors in the given canvas.


void canvas_set_shadow_texture_size ( int size )

Sets the ProjectSettings.rendering/2d/shadow_atlas/size to use for Light2D shadow rendering (in pixels). The value is rounded up to the nearest power of 2.


RID canvas_texture_create ( )

Creates a canvas texture and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all canvas_texture_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method. See also texture_2d_create.

Note: The equivalent resource is CanvasTexture and is only meant to be used in 2D rendering, not 3D.


void canvas_texture_set_channel ( RID canvas_texture, CanvasTextureChannel channel, RID texture )

Sets the channel's texture for the canvas texture specified by the canvas_texture RID. Equivalent to CanvasTexture.diffuse_texture, CanvasTexture.normal_texture and CanvasTexture.specular_texture.


void canvas_texture_set_shading_parameters ( RID canvas_texture, Color base_color, float shininess )

Sets the base_color and shininess to use for the canvas texture specified by the canvas_texture RID. Equivalent to CanvasTexture.specular_color and CanvasTexture.specular_shininess.


void canvas_texture_set_texture_filter ( RID canvas_texture, CanvasItemTextureFilter filter )

Sets the texture filter mode to use for the canvas texture specified by the canvas_texture RID.


void canvas_texture_set_texture_repeat ( RID canvas_texture, CanvasItemTextureRepeat repeat )

Sets the texture repeat mode to use for the canvas texture specified by the canvas_texture RID.


RenderingDevice create_local_rendering_device ( ) const

Creates a RenderingDevice that can be used to do draw and compute operations on a separate thread. Cannot draw to the screen nor share data with the global RenderingDevice.

Note: When using the OpenGL backend or when running in headless mode, this function always returns null.


RID decal_create ( )

Creates a decal and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all decal_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

To place in a scene, attach this decal to an instance using instance_set_base using the returned RID.

Note: The equivalent node is Decal.


void decal_set_albedo_mix ( RID decal, float albedo_mix )

Sets the albedo_mix in the decal specified by the decal RID. Equivalent to Decal.albedo_mix.


void decal_set_cull_mask ( RID decal, int mask )

Sets the cull mask in the decal specified by the decal RID. Equivalent to Decal.cull_mask.


void decal_set_distance_fade ( RID decal, bool enabled, float begin, float length )

Sets the distance fade parameters in the decal specified by the decal RID. Equivalent to Decal.distance_fade_enabled, Decal.distance_fade_begin and Decal.distance_fade_length.


void decal_set_emission_energy ( RID decal, float energy )

Sets the emission energy in the decal specified by the decal RID. Equivalent to Decal.emission_energy.


void decal_set_fade ( RID decal, float above, float below )

Sets the upper fade (above) and lower fade (below) in the decal specified by the decal RID. Equivalent to Decal.upper_fade and Decal.lower_fade.


void decal_set_modulate ( RID decal, Color color )

Sets the color multiplier in the decal specified by the decal RID to color. Equivalent to Decal.modulate.


void decal_set_normal_fade ( RID decal, float fade )

Sets the normal fade in the decal specified by the decal RID. Equivalent to Decal.normal_fade.


void decal_set_size ( RID decal, Vector3 size )

Sets the size of the decal specified by the decal RID. Equivalent to Decal.size.


void decal_set_texture ( RID decal, DecalTexture type, RID texture )

Sets the texture in the given texture type slot for the specified decal. Equivalent to Decal.set_texture.


void decals_set_filter ( DecalFilter filter )

Sets the texture filter mode to use when rendering decals. This parameter is global and cannot be set on a per-decal basis.


RID directional_light_create ( )

Creates a directional light and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID can be used in most light_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

To place in a scene, attach this directional light to an instance using instance_set_base using the returned RID.

Note: The equivalent node is DirectionalLight3D.


void directional_shadow_atlas_set_size ( int size, bool is_16bits )

Sets the size of the directional light shadows in 3D. See also ProjectSettings.rendering/lights_and_shadows/directional_shadow/size. This parameter is global and cannot be set on a per-viewport basis.


void directional_soft_shadow_filter_set_quality ( ShadowQuality quality )

Sets the filter quality for directional light shadows in 3D. See also ProjectSettings.rendering/lights_and_shadows/directional_shadow/soft_shadow_filter_quality. This parameter is global and cannot be set on a per-viewport basis.


Image environment_bake_panorama ( RID environment, bool bake_irradiance, Vector2i size )

Generates and returns an Image containing the radiance map for the specified environment RID's sky. This supports built-in sky material and custom sky shaders. If bake_irradiance is true, the irradiance map is saved instead of the radiance map. The radiance map is used to render reflected light, while the irradiance map is used to render ambient light. See also sky_bake_panorama.

Note: The image is saved in linear color space without any tonemapping performed, which means it will look too dark if viewed directly in an image editor.

Note: size should be a 2:1 aspect ratio for the generated panorama to have square pixels. For radiance maps, there is no point in using a height greater than Sky.radiance_size, as it won't increase detail. Irradiance maps only contain low-frequency data, so there is usually no point in going past a size of 128×64 pixels when saving an irradiance map.


RID environment_create ( )

Creates an environment and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all environment_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

Note: The equivalent resource is Environment.


void environment_glow_set_use_bicubic_upscale ( bool enable )

If enable is true, enables bicubic upscaling for glow which improves quality at the cost of performance. Equivalent to ProjectSettings.rendering/environment/glow/upscale_mode.


void environment_set_adjustment ( RID env, bool enable, float brightness, float contrast, float saturation, bool use_1d_color_correction, RID color_correction )

Sets the values to be used with the "adjustments" post-process effect. See Environment for more details.


void environment_set_ambient_light ( RID env, Color color, EnvironmentAmbientSource ambient=0, float energy=1.0, float sky_contibution=0.0, EnvironmentReflectionSource reflection_source=0 )

Sets the values to be used for ambient light rendering. See Environment for more details.


void environment_set_background ( RID env, EnvironmentBG bg )

Sets the environment's background mode. Equivalent to Environment.background_mode.


void environment_set_bg_color ( RID env, Color color )

Color displayed for clear areas of the scene. Only effective if using the ENV_BG_COLOR background mode.


void environment_set_bg_energy ( RID env, float multiplier, float exposure_value )

Sets the intensity of the background color.


void environment_set_canvas_max_layer ( RID env, int max_layer )

Sets the maximum layer to use if using Canvas background mode.


void environment_set_fog ( RID env, bool enable, Color light_color, float light_energy, float sun_scatter, float density, float height, float height_density, float aerial_perspective, float sky_affect )

Configures fog for the specified environment RID. See fog_* properties in Environment for more information.


void environment_set_glow ( RID env, bool enable, PackedFloat32Array levels, float intensity, float strength, float mix, float bloom_threshold, EnvironmentGlowBlendMode blend_mode, float hdr_bleed_threshold, float hdr_bleed_scale, float hdr_luminance_cap, float glow_map_strength, RID glow_map )

Configures glow for the specified environment RID. See glow_* properties in Environment for more information.


void environment_set_sdfgi ( RID env, bool enable, int cascades, float min_cell_size, EnvironmentSDFGIYScale y_scale, bool use_occlusion, float bounce_feedback, bool read_sky, float energy, float normal_bias, float probe_bias )

Configures signed distance field global illumination for the specified environment RID. See sdfgi_* properties in Environment for more information.


void environment_set_sdfgi_frames_to_converge ( EnvironmentSDFGIFramesToConverge frames )

Sets the number of frames to use for converging signed distance field global illumination. Equivalent to ProjectSettings.rendering/global_illumination/sdfgi/frames_to_converge.


void environment_set_sdfgi_frames_to_update_light ( EnvironmentSDFGIFramesToUpdateLight frames )

Sets the update speed for dynamic lights' indirect lighting when computing signed distance field global illumination. Equivalent to ProjectSettings.rendering/global_illumination/sdfgi/frames_to_update_lights.


void environment_set_sdfgi_ray_count ( EnvironmentSDFGIRayCount ray_count )

Sets the number of rays to throw per frame when computing signed distance field global illumination. Equivalent to ProjectSettings.rendering/global_illumination/sdfgi/probe_ray_count.


void environment_set_sky ( RID env, RID sky )

Sets the Sky to be used as the environment's background when using BGMode sky. Equivalent to Environment.sky.


void environment_set_sky_custom_fov ( RID env, float scale )

Sets a custom field of view for the background Sky. Equivalent to Environment.sky_custom_fov.


void environment_set_sky_orientation ( RID env, Basis orientation )

Sets the rotation of the background Sky expressed as a Basis. Equivalent to Environment.sky_rotation, where the rotation vector is used to construct the Basis.


void environment_set_ssao ( RID env, bool enable, float radius, float intensity, float power, float detail, float horizon, float sharpness, float light_affect, float ao_channel_affect )

Sets the variables to be used with the screen-space ambient occlusion (SSAO) post-process effect. See Environment for more details.


void environment_set_ssao_quality ( EnvironmentSSAOQuality quality, bool half_size, float adaptive_target, int blur_passes, float fadeout_from, float fadeout_to )

Sets the quality level of the screen-space ambient occlusion (SSAO) post-process effect. See Environment for more details.


void environment_set_ssil_quality ( EnvironmentSSILQuality quality, bool half_size, float adaptive_target, int blur_passes, float fadeout_from, float fadeout_to )

Sets the quality level of the screen-space indirect lighting (SSIL) post-process effect. See Environment for more details.


void environment_set_ssr ( RID env, bool enable, int max_steps, float fade_in, float fade_out, float depth_tolerance )

Sets the variables to be used with the screen-space reflections (SSR) post-process effect. See Environment for more details.


void environment_set_ssr_roughness_quality ( EnvironmentSSRRoughnessQuality quality )

There is currently no description for this method. Please help us by contributing one!


void environment_set_tonemap ( RID env, EnvironmentToneMapper tone_mapper, float exposure, float white )

Sets the variables to be used with the "tonemap" post-process effect. See Environment for more details.


void environment_set_volumetric_fog ( RID env, bool enable, float density, Color albedo, Color emission, float emission_energy, float anisotropy, float length, float p_detail_spread, float gi_inject, bool temporal_reprojection, float temporal_reprojection_amount, float ambient_inject, float sky_affect )

Sets the variables to be used with the volumetric fog post-process effect. See Environment for more details.


void environment_set_volumetric_fog_filter_active ( bool active )

Enables filtering of the volumetric fog scattering buffer. This results in much smoother volumes with very few under-sampling artifacts.


void environment_set_volumetric_fog_volume_size ( int size, int depth )

Sets the resolution of the volumetric fog's froxel buffer. size is modified by the screen's aspect ratio and then used to set the width and height of the buffer. While depth is directly used to set the depth of the buffer.


RID fog_volume_create ( )

Creates a new fog volume and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all fog_volume_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

Note: The equivalent node is FogVolume.


void fog_volume_set_material ( RID fog_volume, RID material )

Sets the Material of the fog volume. Can be either a FogMaterial or a custom ShaderMaterial.


void fog_volume_set_shape ( RID fog_volume, FogVolumeShape shape )

Sets the shape of the fog volume to either FOG_VOLUME_SHAPE_ELLIPSOID, FOG_VOLUME_SHAPE_CONE, FOG_VOLUME_SHAPE_CYLINDER, FOG_VOLUME_SHAPE_BOX or FOG_VOLUME_SHAPE_WORLD.


void fog_volume_set_size ( RID fog_volume, Vector3 size )

Sets the size of the fog volume when shape is FOG_VOLUME_SHAPE_ELLIPSOID, FOG_VOLUME_SHAPE_CONE, FOG_VOLUME_SHAPE_CYLINDER or FOG_VOLUME_SHAPE_BOX.


void force_draw ( bool swap_buffers=true, float frame_step=0.0 )

Forces redrawing of all viewports at once.


void force_sync ( )

Forces a synchronization between the CPU and GPU, which may be required in certain cases. Only call this when needed, as CPU-GPU synchronization has a performance cost.


void free_rid ( RID rid )

Tries to free an object in the RenderingServer. To avoid memory leaks, this should be called after using an object as memory management does not occur automatically when using RenderingServer directly.


Color get_default_clear_color ( )

Returns the default clear color which is used when a specific clear color has not been selected. See also set_default_clear_color.


float get_frame_setup_time_cpu ( ) const

Returns the time taken to setup rendering on the CPU in milliseconds. This value is shared across all viewports and does not require viewport_set_measure_render_time to be enabled on a viewport to be queried. See also viewport_get_measured_render_time_cpu.


RenderingDevice get_rendering_device ( ) const

Returns the global RenderingDevice.

Note: When using the OpenGL backend or when running in headless mode, this function always returns null.


int get_rendering_info ( RenderingInfo info )

Returns a statistic about the rendering engine which can be used for performance profiling. See RenderingInfo for a list of values that can be queried. See also viewport_get_render_info, which returns information specific to a viewport.

Note: Only 3D rendering is currently taken into account by some of these values, such as the number of draw calls.

Note: Rendering information is not available until at least 2 frames have been rendered by the engine. If rendering information is not available, get_rendering_info returns 0. To print rendering information in _ready() successfully, use the following:

func _ready():
    for _i in 2:
        await get_tree().process_frame

    print(RenderingServer.get_rendering_info(RENDERING_INFO_TOTAL_DRAW_CALLS_IN_FRAME))

Dictionary[] get_shader_parameter_list ( RID shader ) const

Returns the parameters of a shader.


RID get_test_cube ( )

Returns the RID of the test cube. This mesh will be created and returned on the first call to get_test_cube, then it will be cached for subsequent calls. See also make_sphere_mesh.


RID get_test_texture ( )

Returns the RID of a 256×256 texture with a testing pattern on it (in Image.FORMAT_RGB8 format). This texture will be created and returned on the first call to get_test_texture, then it will be cached for subsequent calls. See also get_white_texture.

Example of getting the test texture and applying it to a Sprite2D node:

var texture_rid = RenderingServer.get_test_texture()
var texture = ImageTexture.create_from_image(RenderingServer.texture_2d_get(texture_rid))
$Sprite2D.texture = texture

String get_video_adapter_api_version ( ) const

Returns the version of the graphics video adapter currently in use (e.g. "1.2.189" for Vulkan, "3.3.0 NVIDIA 510.60.02" for OpenGL). This version may be different from the actual latest version supported by the hardware, as Godot may not always request the latest version. See also OS.get_video_adapter_driver_info.

Note: When running a headless or server binary, this function returns an empty string.


String get_video_adapter_name ( ) const

Returns the name of the video adapter (e.g. "GeForce GTX 1080/PCIe/SSE2").

Note: When running a headless or server binary, this function returns an empty string.

Note: On the web platform, some browsers such as Firefox may report a different, fixed GPU name such as "GeForce GTX 980" (regardless of the user's actual GPU model). This is done to make fingerprinting more difficult.


DeviceType get_video_adapter_type ( ) const

Returns the type of the video adapter. Since dedicated graphics cards from a given generation will usually be significantly faster than integrated graphics made in the same generation, the device type can be used as a basis for automatic graphics settings adjustment. However, this is not always true, so make sure to provide users with a way to manually override graphics settings.

Note: When using the OpenGL backend or when running in headless mode, this function always returns RenderingDevice.DEVICE_TYPE_OTHER.


String get_video_adapter_vendor ( ) const

Returns the vendor of the video adapter (e.g. "NVIDIA Corporation").

Note: When running a headless or server binary, this function returns an empty string.


RID get_white_texture ( )

Returns the ID of a 4×4 white texture (in Image.FORMAT_RGB8 format). This texture will be created and returned on the first call to get_white_texture, then it will be cached for subsequent calls. See also get_test_texture.

Example of getting the white texture and applying it to a Sprite2D node:

var texture_rid = RenderingServer.get_white_texture()
var texture = ImageTexture.create_from_image(RenderingServer.texture_2d_get(texture_rid))
$Sprite2D.texture = texture

void gi_set_use_half_resolution ( bool half_resolution )

If half_resolution is true, renders VoxelGI and SDFGI (Environment.sdfgi_enabled) buffers at halved resolution on each axis (e.g. 960×540 when the viewport size is 1920×1080). This improves performance significantly when VoxelGI or SDFGI is enabled, at the cost of artifacts that may be visible on polygon edges. The loss in quality becomes less noticeable as the viewport resolution increases. LightmapGI rendering is not affected by this setting. Equivalent to ProjectSettings.rendering/global_illumination/gi/use_half_resolution.


void global_shader_parameter_add ( StringName name, GlobalShaderParameterType type, Variant default_value )

Creates a new global shader uniform.

Note: Global shader parameter names are case-sensitive.


Variant global_shader_parameter_get ( StringName name ) const

Returns the value of the global shader uniform specified by name.

Note: global_shader_parameter_get has a large performance penalty as the rendering thread needs to synchronize with the calling thread, which is slow. Do not use this method during gameplay to avoid stuttering. If you need to read values in a script after setting them, consider creating an autoload where you store the values you need to query at the same time you're setting them as global parameters.


StringName[] global_shader_parameter_get_list ( ) const

Returns the list of global shader uniform names.

Note: global_shader_parameter_get has a large performance penalty as the rendering thread needs to synchronize with the calling thread, which is slow. Do not use this method during gameplay to avoid stuttering. If you need to read values in a script after setting them, consider creating an autoload where you store the values you need to query at the same time you're setting them as global parameters.


GlobalShaderParameterType global_shader_parameter_get_type ( StringName name ) const

Returns the type associated to the global shader uniform specified by name.

Note: global_shader_parameter_get has a large performance penalty as the rendering thread needs to synchronize with the calling thread, which is slow. Do not use this method during gameplay to avoid stuttering. If you need to read values in a script after setting them, consider creating an autoload where you store the values you need to query at the same time you're setting them as global parameters.


void global_shader_parameter_remove ( StringName name )

Removes the global shader uniform specified by name.


void global_shader_parameter_set ( StringName name, Variant value )

Sets the global shader uniform name to value.


void global_shader_parameter_set_override ( StringName name, Variant value )

Overrides the global shader uniform name with value. Equivalent to the ShaderGlobalsOverride node.


bool has_changed ( ) const

Returns true if changes have been made to the RenderingServer's data. force_draw is usually called if this happens.


bool has_feature ( Features feature ) const

Not yet implemented. Always returns false.


bool has_os_feature ( String feature ) const

Returns true if the OS supports a certain feature. Features might be s3tc, etc, and etc2.


void instance_attach_object_instance_id ( RID instance, int id )

Attaches a unique Object ID to instance. Object ID must be attached to instance for proper culling with instances_cull_aabb, instances_cull_convex, and instances_cull_ray.


void instance_attach_skeleton ( RID instance, RID skeleton )

Attaches a skeleton to an instance. Removes the previous skeleton from the instance.


RID instance_create ( )

Creates a visual instance and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all instance_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

An instance is a way of placing a 3D object in the scenario. Objects like particles, meshes, reflection probes and decals need to be associated with an instance to be visible in the scenario using instance_set_base.

Note: The equivalent node is VisualInstance3D.


RID instance_create2 ( RID base, RID scenario )

Creates a visual instance, adds it to the RenderingServer, and sets both base and scenario. It can be accessed with the RID that is returned. This RID will be used in all instance_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method. This is a shorthand for using instance_create and setting the base and scenario manually.


Variant instance_geometry_get_shader_parameter ( RID instance, StringName parameter ) const

Returns the value of the per-instance shader uniform from the specified 3D geometry instance. Equivalent to GeometryInstance3D.get_instance_shader_parameter.

Note: Per-instance shader parameter names are case-sensitive.


Variant instance_geometry_get_shader_parameter_default_value ( RID instance, StringName parameter ) const

Returns the default value of the per-instance shader uniform from the specified 3D geometry instance. Equivalent to GeometryInstance3D.get_instance_shader_parameter.


Dictionary[] instance_geometry_get_shader_parameter_list ( RID instance ) const

Returns a dictionary of per-instance shader uniform names of the per-instance shader uniform from the specified 3D geometry instance. The returned dictionary is in PropertyInfo format, with the keys name, class_name, type, hint, hint_string and usage. Equivalent to GeometryInstance3D.get_instance_shader_parameter.


void instance_geometry_set_cast_shadows_setting ( RID instance, ShadowCastingSetting shadow_casting_setting )

Sets the shadow casting setting to one of ShadowCastingSetting. Equivalent to GeometryInstance3D.cast_shadow.


void instance_geometry_set_flag ( RID instance, InstanceFlags flag, bool enabled )

Sets the flag for a given InstanceFlags. See InstanceFlags for more details.


void instance_geometry_set_lightmap ( RID instance, RID lightmap, Rect2 lightmap_uv_scale, int lightmap_slice )

Sets the lightmap GI instance to use for the specified 3D geometry instance. The lightmap UV scale for the specified instance (equivalent to GeometryInstance3D.gi_lightmap_scale) and lightmap atlas slice must also be specified.


void instance_geometry_set_lod_bias ( RID instance, float lod_bias )

Sets the level of detail bias to use when rendering the specified 3D geometry instance. Higher values result in higher detail from further away. Equivalent to GeometryInstance3D.lod_bias.


void instance_geometry_set_material_overlay ( RID instance, RID material )

Sets a material that will be rendered for all surfaces on top of active materials for the mesh associated with this instance. Equivalent to GeometryInstance3D.material_overlay.


void instance_geometry_set_material_override ( RID instance, RID material )

Sets a material that will override the material for all surfaces on the mesh associated with this instance. Equivalent to GeometryInstance3D.material_override.


void instance_geometry_set_shader_parameter ( RID instance, StringName parameter, Variant value )

Sets the per-instance shader uniform on the specified 3D geometry instance. Equivalent to GeometryInstance3D.set_instance_shader_parameter.


void instance_geometry_set_transparency ( RID instance, float transparency )

Sets the transparency for the given geometry instance. Equivalent to GeometryInstance3D.transparency.

A transparency of 0.0 is fully opaque, while 1.0 is fully transparent. Values greater than 0.0 (exclusive) will force the geometry's materials to go through the transparent pipeline, which is slower to render and can exhibit rendering issues due to incorrect transparency sorting. However, unlike using a transparent material, setting transparency to a value greater than 0.0 (exclusive) will not disable shadow rendering.

In spatial shaders, 1.0 - transparency is set as the default value of the ALPHA built-in.

Note: transparency is clamped between 0.0 and 1.0, so this property cannot be used to make transparent materials more opaque than they originally are.


void instance_geometry_set_visibility_range ( RID instance, float min, float max, float min_margin, float max_margin, VisibilityRangeFadeMode fade_mode )

Sets the visibility range values for the given geometry instance. Equivalent to GeometryInstance3D.visibility_range_begin and related properties.


void instance_set_base ( RID instance, RID base )

Sets the base of the instance. A base can be any of the 3D objects that are created in the RenderingServer that can be displayed. For example, any of the light types, mesh, multimesh, particle system, reflection probe, decal, lightmap, voxel GI and visibility notifiers are all types that can be set as the base of an instance in order to be displayed in the scenario.


void instance_set_blend_shape_weight ( RID instance, int shape, float weight )

Sets the weight for a given blend shape associated with this instance.


void instance_set_custom_aabb ( RID instance, AABB aabb )

Sets a custom AABB to use when culling objects from the view frustum. Equivalent to setting GeometryInstance3D.custom_aabb.


void instance_set_extra_visibility_margin ( RID instance, float margin )

Sets a margin to increase the size of the AABB when culling objects from the view frustum. This allows you to avoid culling objects that fall outside the view frustum. Equivalent to GeometryInstance3D.extra_cull_margin.


void instance_set_ignore_culling ( RID instance, bool enabled )

If true, ignores both frustum and occlusion culling on the specified 3D geometry instance. This is not the same as GeometryInstance3D.ignore_occlusion_culling, which only ignores occlusion culling and leaves frustum culling intact.


void instance_set_layer_mask ( RID instance, int mask )

Sets the render layers that this instance will be drawn to. Equivalent to VisualInstance3D.layers.


void instance_set_pivot_data ( RID instance, float sorting_offset, bool use_aabb_center )

Sets the sorting offset and switches between using the bounding box or instance origin for depth sorting.


void instance_set_scenario ( RID instance, RID scenario )

Sets the scenario that the instance is in. The scenario is the 3D world that the objects will be displayed in.


void instance_set_surface_override_material ( RID instance, int surface, RID material )

Sets the override material of a specific surface. Equivalent to MeshInstance3D.set_surface_override_material.


void instance_set_transform ( RID instance, Transform3D transform )

Sets the world space transform of the instance. Equivalent to Node3D.transform.


void instance_set_visibility_parent ( RID instance, RID parent )

Sets the visibility parent for the given instance. Equivalent to Node3D.visibility_parent.


void instance_set_visible ( RID instance, bool visible )

Sets whether an instance is drawn or not. Equivalent to Node3D.visible.


PackedInt64Array instances_cull_aabb ( AABB aabb, RID scenario=RID() ) const

Returns an array of object IDs intersecting with the provided AABB. Only 3D nodes that inherit from VisualInstance3D are considered, such as MeshInstance3D or DirectionalLight3D. Use @GlobalScope.instance_from_id to obtain the actual nodes. A scenario RID must be provided, which is available in the World3D you want to query. This forces an update for all resources queued to update.

Warning: This function is primarily intended for editor usage. For in-game use cases, prefer physics collision.


PackedInt64Array instances_cull_convex ( Plane[] convex, RID scenario=RID() ) const

Returns an array of object IDs intersecting with the provided convex shape. Only 3D nodes that inherit from VisualInstance3D are considered, such as MeshInstance3D or DirectionalLight3D. Use @GlobalScope.instance_from_id to obtain the actual nodes. A scenario RID must be provided, which is available in the World3D you want to query. This forces an update for all resources queued to update.

Warning: This function is primarily intended for editor usage. For in-game use cases, prefer physics collision.


PackedInt64Array instances_cull_ray ( Vector3 from, Vector3 to, RID scenario=RID() ) const

Returns an array of object IDs intersecting with the provided 3D ray. Only 3D nodes that inherit from VisualInstance3D are considered, such as MeshInstance3D or DirectionalLight3D. Use @GlobalScope.instance_from_id to obtain the actual nodes. A scenario RID must be provided, which is available in the World3D you want to query. This forces an update for all resources queued to update.

Warning: This function is primarily intended for editor usage. For in-game use cases, prefer physics collision.


void light_directional_set_blend_splits ( RID light, bool enable )

If true, this directional light will blend between shadow map splits resulting in a smoother transition between them. Equivalent to DirectionalLight3D.directional_shadow_blend_splits.


void light_directional_set_shadow_mode ( RID light, LightDirectionalShadowMode mode )

Sets the shadow mode for this directional light. Equivalent to DirectionalLight3D.directional_shadow_mode. See LightDirectionalShadowMode for options.


void light_directional_set_sky_mode ( RID light, LightDirectionalSkyMode mode )

If true, this light will not be used for anything except sky shaders. Use this for lights that impact your sky shader that you may want to hide from affecting the rest of the scene. For example, you may want to enable this when the sun in your sky shader falls below the horizon.


void light_omni_set_shadow_mode ( RID light, LightOmniShadowMode mode )

Sets whether to use a dual paraboloid or a cubemap for the shadow map. Dual paraboloid is faster but may suffer from artifacts. Equivalent to OmniLight3D.omni_shadow_mode.


void light_projectors_set_filter ( LightProjectorFilter filter )

Sets the texture filter mode to use when rendering light projectors. This parameter is global and cannot be set on a per-light basis.


void light_set_bake_mode ( RID light, LightBakeMode bake_mode )

Sets the bake mode to use for the specified 3D light. Equivalent to Light3D.light_bake_mode.


void light_set_color ( RID light, Color color )

Sets the color of the light. Equivalent to Light3D.light_color.


void light_set_cull_mask ( RID light, int mask )

Sets the cull mask for this 3D light. Lights only affect objects in the selected layers. Equivalent to Light3D.light_cull_mask.


void light_set_distance_fade ( RID decal, bool enabled, float begin, float shadow, float length )

Sets the distance fade for this 3D light. This acts as a form of level of detail (LOD) and can be used to improve performance. Equivalent to Light3D.distance_fade_enabled, Light3D.distance_fade_begin, Light3D.distance_fade_shadow, and Light3D.distance_fade_length.


void light_set_max_sdfgi_cascade ( RID light, int cascade )

Sets the maximum SDFGI cascade in which the 3D light's indirect lighting is rendered. Higher values allow the light to be rendered in SDFGI further away from the camera.


void light_set_negative ( RID light, bool enable )

If true, the 3D light will subtract light instead of adding light. Equivalent to Light3D.light_negative.


void light_set_param ( RID light, LightParam param, float value )

Sets the specified 3D light parameter. See LightParam for options. Equivalent to Light3D.set_param.


void light_set_projector ( RID light, RID texture )

Sets the projector texture to use for the specified 3D light. Equivalent to Light3D.light_projector.


void light_set_reverse_cull_face_mode ( RID light, bool enabled )

If true, reverses the backface culling of the mesh. This can be useful when you have a flat mesh that has a light behind it. If you need to cast a shadow on both sides of the mesh, set the mesh to use double-sided shadows with instance_geometry_set_cast_shadows_setting. Equivalent to Light3D.shadow_reverse_cull_face.


void light_set_shadow ( RID light, bool enabled )

If true, light will cast shadows. Equivalent to Light3D.shadow_enabled.


RID lightmap_create ( )

Creates a new lightmap global illumination instance and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all lightmap_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

Note: The equivalent node is LightmapGI.


PackedInt32Array lightmap_get_probe_capture_bsp_tree ( RID lightmap ) const

There is currently no description for this method. Please help us by contributing one!


PackedVector3Array lightmap_get_probe_capture_points ( RID lightmap ) const

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PackedColorArray lightmap_get_probe_capture_sh ( RID lightmap ) const

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PackedInt32Array lightmap_get_probe_capture_tetrahedra ( RID lightmap ) const

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void lightmap_set_baked_exposure_normalization ( RID lightmap, float baked_exposure )

Used to inform the renderer what exposure normalization value was used while baking the lightmap. This value will be used and modulated at run time to ensure that the lightmap maintains a consistent level of exposure even if the scene-wide exposure normalization is changed at run time. For more information see camera_attributes_set_exposure.


void lightmap_set_probe_bounds ( RID lightmap, AABB bounds )

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void lightmap_set_probe_capture_data ( RID lightmap, PackedVector3Array points, PackedColorArray point_sh, PackedInt32Array tetrahedra, PackedInt32Array bsp_tree )

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void lightmap_set_probe_capture_update_speed ( float speed )

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void lightmap_set_probe_interior ( RID lightmap, bool interior )

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void lightmap_set_textures ( RID lightmap, RID light, bool uses_sh )

Set the textures on the given lightmap GI instance to the texture array pointed to by the light RID. If the lightmap texture was baked with LightmapGI.directional set to true, then uses_sh must also be true.


RID make_sphere_mesh ( int latitudes, int longitudes, float radius )

Returns a mesh of a sphere with the given number of horizontal subdivisions, vertical subdivisions and radius. See also get_test_cube.


RID material_create ( )

Creates an empty material and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all material_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

Note: The equivalent resource is Material.


Variant material_get_param ( RID material, StringName parameter ) const

Returns the value of a certain material's parameter.


void material_set_next_pass ( RID material, RID next_material )

Sets an object's next material.


void material_set_param ( RID material, StringName parameter, Variant value )

Sets a material's parameter.


void material_set_render_priority ( RID material, int priority )

Sets a material's render priority.


void material_set_shader ( RID shader_material, RID shader )

Sets a shader material's shader.


void mesh_add_surface ( RID mesh, Dictionary surface )

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void mesh_add_surface_from_arrays ( RID mesh, PrimitiveType primitive, Array arrays, Array blend_shapes=[], Dictionary lods={}, BitField<ArrayFormat> compress_format=0 )

There is currently no description for this method. Please help us by contributing one!


void mesh_clear ( RID mesh )

Removes all surfaces from a mesh.


RID mesh_create ( )

Creates a new mesh and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all mesh_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

To place in a scene, attach this mesh to an instance using instance_set_base using the returned RID.

Note: The equivalent resource is Mesh.


RID mesh_create_from_surfaces ( Dictionary[] surfaces, int blend_shape_count=0 )

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int mesh_get_blend_shape_count ( RID mesh ) const

Returns a mesh's blend shape count.


BlendShapeMode mesh_get_blend_shape_mode ( RID mesh ) const

Returns a mesh's blend shape mode.


AABB mesh_get_custom_aabb ( RID mesh ) const

Returns a mesh's custom aabb.


Dictionary mesh_get_surface ( RID mesh, int surface )

There is currently no description for this method. Please help us by contributing one!


int mesh_get_surface_count ( RID mesh ) const

Returns a mesh's number of surfaces.


void mesh_set_blend_shape_mode ( RID mesh, BlendShapeMode mode )

Sets a mesh's blend shape mode.


void mesh_set_custom_aabb ( RID mesh, AABB aabb )

Sets a mesh's custom aabb.


void mesh_set_shadow_mesh ( RID mesh, RID shadow_mesh )

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Array mesh_surface_get_arrays ( RID mesh, int surface ) const

Returns a mesh's surface's buffer arrays.


Array[] mesh_surface_get_blend_shape_arrays ( RID mesh, int surface ) const

Returns a mesh's surface's arrays for blend shapes.


int mesh_surface_get_format_attribute_stride ( BitField<ArrayFormat> format, int vertex_count ) const

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int mesh_surface_get_format_offset ( BitField<ArrayFormat> format, int vertex_count, int array_index ) const

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int mesh_surface_get_format_skin_stride ( BitField<ArrayFormat> format, int vertex_count ) const

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int mesh_surface_get_format_vertex_stride ( BitField<ArrayFormat> format, int vertex_count ) const

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RID mesh_surface_get_material ( RID mesh, int surface ) const

Returns a mesh's surface's material.


void mesh_surface_set_material ( RID mesh, int surface, RID material )

Sets a mesh's surface's material.


void mesh_surface_update_attribute_region ( RID mesh, int surface, int offset, PackedByteArray data )

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void mesh_surface_update_skin_region ( RID mesh, int surface, int offset, PackedByteArray data )

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void mesh_surface_update_vertex_region ( RID mesh, int surface, int offset, PackedByteArray data )

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void multimesh_allocate_data ( RID multimesh, int instances, MultimeshTransformFormat transform_format, bool color_format=false, bool custom_data_format=false )

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RID multimesh_create ( )

Creates a new multimesh on the RenderingServer and returns an RID handle. This RID will be used in all multimesh_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

To place in a scene, attach this multimesh to an instance using instance_set_base using the returned RID.

Note: The equivalent resource is MultiMesh.


AABB multimesh_get_aabb ( RID multimesh ) const

Calculates and returns the axis-aligned bounding box that encloses all instances within the multimesh.


PackedFloat32Array multimesh_get_buffer ( RID multimesh ) const

Returns the MultiMesh data (such as instance transforms, colors, etc). See multimesh_set_buffer for a description of the returned data.

Note: If the buffer is in the engine's internal cache, it will have to be fetched from GPU memory and possibly decompressed. This means multimesh_get_buffer is potentially a slow operation and should be avoided whenever possible.


int multimesh_get_instance_count ( RID multimesh ) const

Returns the number of instances allocated for this multimesh.


RID multimesh_get_mesh ( RID multimesh ) const

Returns the RID of the mesh that will be used in drawing this multimesh.


int multimesh_get_visible_instances ( RID multimesh ) const

Returns the number of visible instances for this multimesh.


Color multimesh_instance_get_color ( RID multimesh, int index ) const

Returns the color by which the specified instance will be modulated.


Color multimesh_instance_get_custom_data ( RID multimesh, int index ) const

Returns the custom data associated with the specified instance.


Transform3D multimesh_instance_get_transform ( RID multimesh, int index ) const

Returns the Transform3D of the specified instance.


Transform2D multimesh_instance_get_transform_2d ( RID multimesh, int index ) const

Returns the Transform2D of the specified instance. For use when the multimesh is set to use 2D transforms.


void multimesh_instance_set_color ( RID multimesh, int index, Color color )

Sets the color by which this instance will be modulated. Equivalent to MultiMesh.set_instance_color.


void multimesh_instance_set_custom_data ( RID multimesh, int index, Color custom_data )

Sets the custom data for this instance. Custom data is passed as a Color, but is interpreted as a vec4 in the shader. Equivalent to MultiMesh.set_instance_custom_data.


void multimesh_instance_set_transform ( RID multimesh, int index, Transform3D transform )

Sets the Transform3D for this instance. Equivalent to MultiMesh.set_instance_transform.


void multimesh_instance_set_transform_2d ( RID multimesh, int index, Transform2D transform )

Sets the Transform2D for this instance. For use when multimesh is used in 2D. Equivalent to MultiMesh.set_instance_transform_2d.


void multimesh_set_buffer ( RID multimesh, PackedFloat32Array buffer )

Set the entire data to use for drawing the multimesh at once to buffer (such as instance transforms and colors). buffer's size must match the number of instances multiplied by the per-instance data size (which depends on the enabled MultiMesh fields). Otherwise, an error message is printed and nothing is rendered. See also multimesh_get_buffer.

The per-instance data size and expected data order is:

2D:
  - Position: 8 floats (8 floats for Transform2D)
  - Position + Vertex color: 12 floats (8 floats for Transform2D, 4 floats for Color)
  - Position + Custom data: 12 floats (8 floats for Transform2D, 4 floats of custom data)
  - Position + Vertex color + Custom data: 16 floats (8 floats for Transform2D, 4 floats for Color, 4 floats of custom data)
3D:
  - Position: 12 floats (12 floats for Transform3D)
  - Position + Vertex color: 16 floats (12 floats for Transform3D, 4 floats for Color)
  - Position + Custom data: 16 floats (12 floats for Transform3D, 4 floats of custom data)
  - Position + Vertex color + Custom data: 20 floats (12 floats for Transform3D, 4 floats for Color, 4 floats of custom data)

void multimesh_set_mesh ( RID multimesh, RID mesh )

Sets the mesh to be drawn by the multimesh. Equivalent to MultiMesh.mesh.


void multimesh_set_visible_instances ( RID multimesh, int visible )

Sets the number of instances visible at a given time. If -1, all instances that have been allocated are drawn. Equivalent to MultiMesh.visible_instance_count.


RID occluder_create ( )

Creates an occluder instance and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all occluder_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

Note: The equivalent resource is Occluder3D (not to be confused with the OccluderInstance3D node).


void occluder_set_mesh ( RID occluder, PackedVector3Array vertices, PackedInt32Array indices )

Sets the mesh data for the given occluder RID, which controls the shape of the occlusion culling that will be performed.


RID omni_light_create ( )

Creates a new omni light and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID can be used in most light_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

To place in a scene, attach this omni light to an instance using instance_set_base using the returned RID.

Note: The equivalent node is OmniLight3D.


RID particles_collision_create ( )

Creates a new 3D GPU particle collision or attractor and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID can be used in most particles_collision_* RenderingServer functions.

Note: The equivalent nodes are GPUParticlesCollision3D and GPUParticlesAttractor3D.


void particles_collision_height_field_update ( RID particles_collision )

Requests an update for the 3D GPU particle collision heightfield. This may be automatically called by the 3D GPU particle collision heightfield depending on its GPUParticlesCollisionHeightField3D.update_mode.


void particles_collision_set_attractor_attenuation ( RID particles_collision, float curve )

Sets the attenuation curve for the 3D GPU particles attractor specified by the particles_collision RID. Only used for attractors, not colliders. Equivalent to GPUParticlesAttractor3D.attenuation.


void particles_collision_set_attractor_directionality ( RID particles_collision, float amount )

Sets the directionality amount for the 3D GPU particles attractor specified by the particles_collision RID. Only used for attractors, not colliders. Equivalent to GPUParticlesAttractor3D.directionality.


void particles_collision_set_attractor_strength ( RID particles_collision, float strength )

Sets the strength for the 3D GPU particles attractor specified by the particles_collision RID. Only used for attractors, not colliders. Equivalent to GPUParticlesAttractor3D.strength.


void particles_collision_set_box_extents ( RID particles_collision, Vector3 extents )

Sets the extents for the 3D GPU particles collision by the particles_collision RID. Equivalent to GPUParticlesCollisionBox3D.size, GPUParticlesCollisionSDF3D.size, GPUParticlesCollisionHeightField3D.size, GPUParticlesAttractorBox3D.size or GPUParticlesAttractorVectorField3D.size depending on the particles_collision type.


void particles_collision_set_collision_type ( RID particles_collision, ParticlesCollisionType type )

Sets the collision or attractor shape type for the 3D GPU particles collision or attractor specified by the particles_collision RID.


void particles_collision_set_cull_mask ( RID particles_collision, int mask )

Sets the cull mask for the 3D GPU particles collision or attractor specified by the particles_collision RID. Equivalent to GPUParticlesCollision3D.cull_mask or GPUParticlesAttractor3D.cull_mask depending on the particles_collision type.


void particles_collision_set_field_texture ( RID particles_collision, RID texture )

Sets the signed distance field texture for the 3D GPU particles collision specified by the particles_collision RID. Equivalent to GPUParticlesCollisionSDF3D.texture or GPUParticlesAttractorVectorField3D.texture depending on the particles_collision type.


void particles_collision_set_height_field_resolution ( RID particles_collision, ParticlesCollisionHeightfieldResolution resolution )

Sets the heightmap resolution for the 3D GPU particles heightfield collision specified by the particles_collision RID. Equivalent to GPUParticlesCollisionHeightField3D.resolution.


void particles_collision_set_sphere_radius ( RID particles_collision, float radius )

Sets the radius for the 3D GPU particles sphere collision or attractor specified by the particles_collision RID. Equivalent to GPUParticlesCollisionSphere3D.radius or GPUParticlesAttractorSphere3D.radius depending on the particles_collision type.


RID particles_create ( )

Creates a GPU-based particle system and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all particles_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

To place in a scene, attach these particles to an instance using instance_set_base using the returned RID.

Note: The equivalent nodes are GPUParticles2D and GPUParticles3D.

Note: All particles_* methods only apply to GPU-based particles, not CPU-based particles. CPUParticles2D and CPUParticles3D do not have equivalent RenderingServer functions available, as these use MultiMeshInstance2D and MultiMeshInstance3D under the hood (see multimesh_* methods).


void particles_emit ( RID particles, Transform3D transform, Vector3 velocity, Color color, Color custom, int emit_flags )

Manually emits particles from the particles instance.


AABB particles_get_current_aabb ( RID particles )

Calculates and returns the axis-aligned bounding box that contains all the particles. Equivalent to GPUParticles3D.capture_aabb.


bool particles_get_emitting ( RID particles )

Returns true if particles are currently set to emitting.


bool particles_is_inactive ( RID particles )

Returns true if particles are not emitting and particles are set to inactive.


void particles_request_process ( RID particles )

Add particle system to list of particle systems that need to be updated. Update will take place on the next frame, or on the next call to instances_cull_aabb, instances_cull_convex, or instances_cull_ray.


void particles_restart ( RID particles )

Reset the particles on the next update. Equivalent to GPUParticles3D.restart.


void particles_set_amount ( RID particles, int amount )

Sets the number of particles to be drawn and allocates the memory for them. Equivalent to GPUParticles3D.amount.


void particles_set_collision_base_size ( RID particles, float size )

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void particles_set_custom_aabb ( RID particles, AABB aabb )

Sets a custom axis-aligned bounding box for the particle system. Equivalent to GPUParticles3D.visibility_aabb.


void particles_set_draw_order ( RID particles, ParticlesDrawOrder order )

Sets the draw order of the particles to one of the named enums from ParticlesDrawOrder. See ParticlesDrawOrder for options. Equivalent to GPUParticles3D.draw_order.


void particles_set_draw_pass_mesh ( RID particles, int pass, RID mesh )

Sets the mesh to be used for the specified draw pass. Equivalent to GPUParticles3D.draw_pass_1, GPUParticles3D.draw_pass_2, GPUParticles3D.draw_pass_3, and GPUParticles3D.draw_pass_4.


void particles_set_draw_passes ( RID particles, int count )

Sets the number of draw passes to use. Equivalent to GPUParticles3D.draw_passes.


void particles_set_emission_transform ( RID particles, Transform3D transform )

Sets the Transform3D that will be used by the particles when they first emit.


void particles_set_emitting ( RID particles, bool emitting )

If true, particles will emit over time. Setting to false does not reset the particles, but only stops their emission. Equivalent to GPUParticles3D.emitting.


void particles_set_explosiveness_ratio ( RID particles, float ratio )

Sets the explosiveness ratio. Equivalent to GPUParticles3D.explosiveness.


void particles_set_fixed_fps ( RID particles, int fps )

Sets the frame rate that the particle system rendering will be fixed to. Equivalent to GPUParticles3D.fixed_fps.


void particles_set_fractional_delta ( RID particles, bool enable )

If true, uses fractional delta which smooths the movement of the particles. Equivalent to GPUParticles3D.fract_delta.


void particles_set_interpolate ( RID particles, bool enable )

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void particles_set_lifetime ( RID particles, float lifetime )

Sets the lifetime of each particle in the system. Equivalent to GPUParticles3D.lifetime.


void particles_set_mode ( RID particles, ParticlesMode mode )

Sets whether the GPU particles specified by the particles RID should be rendered in 2D or 3D according to mode.


void particles_set_one_shot ( RID particles, bool one_shot )

If true, particles will emit once and then stop. Equivalent to GPUParticles3D.one_shot.


void particles_set_pre_process_time ( RID particles, float time )

Sets the preprocess time for the particles' animation. This lets you delay starting an animation until after the particles have begun emitting. Equivalent to GPUParticles3D.preprocess.


void particles_set_process_material ( RID particles, RID material )

Sets the material for processing the particles.

Note: This is not the material used to draw the materials. Equivalent to GPUParticles3D.process_material.


void particles_set_randomness_ratio ( RID particles, float ratio )

Sets the emission randomness ratio. This randomizes the emission of particles within their phase. Equivalent to GPUParticles3D.randomness.


void particles_set_speed_scale ( RID particles, float scale )

Sets the speed scale of the particle system. Equivalent to GPUParticles3D.speed_scale.


void particles_set_subemitter ( RID particles, RID subemitter_particles )

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void particles_set_trail_bind_poses ( RID particles, Transform3D[] bind_poses )

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void particles_set_trails ( RID particles, bool enable, float length_sec )

If enable is true, enables trails for the particles with the specified length_sec in seconds. Equivalent to GPUParticles3D.trail_enabled and GPUParticles3D.trail_lifetime.


void particles_set_transform_align ( RID particles, ParticlesTransformAlign align )

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void particles_set_use_local_coordinates ( RID particles, bool enable )

If true, particles use local coordinates. If false they use global coordinates. Equivalent to GPUParticles3D.local_coords.


void positional_soft_shadow_filter_set_quality ( ShadowQuality quality )

Sets the filter quality for omni and spot light shadows in 3D. See also ProjectSettings.rendering/lights_and_shadows/positional_shadow/soft_shadow_filter_quality. This parameter is global and cannot be set on a per-viewport basis.


RID reflection_probe_create ( )

Creates a reflection probe and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all reflection_probe_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

To place in a scene, attach this reflection probe to an instance using instance_set_base using the returned RID.

Note: The equivalent node is ReflectionProbe.


void reflection_probe_set_ambient_color ( RID probe, Color color )

Sets the reflection probe's custom ambient light color. Equivalent to ReflectionProbe.ambient_color.


void reflection_probe_set_ambient_energy ( RID probe, float energy )

Sets the reflection probe's custom ambient light energy. Equivalent to ReflectionProbe.ambient_color_energy.


void reflection_probe_set_ambient_mode ( RID probe, ReflectionProbeAmbientMode mode )

Sets the reflection probe's ambient light mode. Equivalent to ReflectionProbe.ambient_mode.


void reflection_probe_set_as_interior ( RID probe, bool enable )

If true, reflections will ignore sky contribution. Equivalent to ReflectionProbe.interior.


void reflection_probe_set_cull_mask ( RID probe, int layers )

Sets the render cull mask for this reflection probe. Only instances with a matching cull mask will be rendered by this probe. Equivalent to ReflectionProbe.cull_mask.


void reflection_probe_set_enable_box_projection ( RID probe, bool enable )

If true, uses box projection. This can make reflections look more correct in certain situations. Equivalent to ReflectionProbe.box_projection.


void reflection_probe_set_enable_shadows ( RID probe, bool enable )

If true, computes shadows in the reflection probe. This makes the reflection much slower to compute. Equivalent to ReflectionProbe.enable_shadows.


void reflection_probe_set_intensity ( RID probe, float intensity )

Sets the intensity of the reflection probe. Intensity modulates the strength of the reflection. Equivalent to ReflectionProbe.intensity.


void reflection_probe_set_max_distance ( RID probe, float distance )

Sets the max distance away from the probe an object can be before it is culled. Equivalent to ReflectionProbe.max_distance.


void reflection_probe_set_mesh_lod_threshold ( RID probe, float pixels )

Sets the mesh level of detail to use in the reflection probe rendering. Higher values will use less detailed versions of meshes that have LOD variations generated, which can improve performance. Equivalent to ReflectionProbe.mesh_lod_threshold.


void reflection_probe_set_origin_offset ( RID probe, Vector3 offset )

Sets the origin offset to be used when this reflection probe is in box project mode. Equivalent to ReflectionProbe.origin_offset.


void reflection_probe_set_resolution ( RID probe, int resolution )

Sets the resolution to use when rendering the specified reflection probe. The resolution is specified for each cubemap face: for instance, specifying 512 will allocate 6 faces of 512×512 each (plus mipmaps for roughness levels).


void reflection_probe_set_size ( RID probe, Vector3 size )

Sets the size of the area that the reflection probe will capture. Equivalent to ReflectionProbe.size.


void reflection_probe_set_update_mode ( RID probe, ReflectionProbeUpdateMode mode )

Sets how often the reflection probe updates. Can either be once or every frame. See ReflectionProbeUpdateMode for options.


void request_frame_drawn_callback ( Callable callable )

Schedules a callback to the given callable after a frame has been drawn.


RID scenario_create ( )

Creates a scenario and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all scenario_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

The scenario is the 3D world that all the visual instances exist in.


void scenario_set_camera_attributes ( RID scenario, RID effects )

Sets the camera attributes (effects) that will be used with this scenario. See also CameraAttributes.


void scenario_set_environment ( RID scenario, RID environment )

Sets the environment that will be used with this scenario. See also Environment.


void scenario_set_fallback_environment ( RID scenario, RID environment )

Sets the fallback environment to be used by this scenario. The fallback environment is used if no environment is set. Internally, this is used by the editor to provide a default environment.


void screen_space_roughness_limiter_set_active ( bool enable, float amount, float limit )

Sets the screen-space roughness limiter parameters, such as whether it should be enabled and its thresholds. Equivalent to ProjectSettings.rendering/anti_aliasing/screen_space_roughness_limiter/enabled, ProjectSettings.rendering/anti_aliasing/screen_space_roughness_limiter/amount and ProjectSettings.rendering/anti_aliasing/screen_space_roughness_limiter/limit.


void set_boot_image ( Image image, Color color, bool scale, bool use_filter=true )

Sets a boot image. The color defines the background color. If scale is true, the image will be scaled to fit the screen size. If use_filter is true, the image will be scaled with linear interpolation. If use_filter is false, the image will be scaled with nearest-neighbor interpolation.


void set_debug_generate_wireframes ( bool generate )

This method is currently unimplemented and does nothing if called with generate set to true.


void set_default_clear_color ( Color color )

Sets the default clear color which is used when a specific clear color has not been selected. See also get_default_clear_color.


RID shader_create ( )

Creates an empty shader and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all shader_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

Note: The equivalent resource is Shader.


String shader_get_code ( RID shader ) const

Returns a shader's source code as a string.


RID shader_get_default_texture_parameter ( RID shader, StringName name, int index=0 ) const

Returns a default texture from a shader searched by name.

Note: If the sampler array is used use index to access the specified texture.


Variant shader_get_parameter_default ( RID shader, StringName name ) const

Returns the default value for the specified shader uniform. This is usually the value written in the shader source code.


void shader_set_code ( RID shader, String code )

Sets the shader's source code (which triggers recompilation after being changed).


void shader_set_default_texture_parameter ( RID shader, StringName name, RID texture, int index=0 )

Sets a shader's default texture. Overwrites the texture given by name.

Note: If the sampler array is used use index to access the specified texture.


void shader_set_path_hint ( RID shader, String path )

Sets the path hint for the specified shader. This should generally match the Shader resource's Resource.resource_path.


void skeleton_allocate_data ( RID skeleton, int bones, bool is_2d_skeleton=false )

There is currently no description for this method. Please help us by contributing one!


Transform3D skeleton_bone_get_transform ( RID skeleton, int bone ) const

Returns the Transform3D set for a specific bone of this skeleton.


Transform2D skeleton_bone_get_transform_2d ( RID skeleton, int bone ) const

Returns the Transform2D set for a specific bone of this skeleton.


void skeleton_bone_set_transform ( RID skeleton, int bone, Transform3D transform )

Sets the Transform3D for a specific bone of this skeleton.


void skeleton_bone_set_transform_2d ( RID skeleton, int bone, Transform2D transform )

Sets the Transform2D for a specific bone of this skeleton.


RID skeleton_create ( )

Creates a skeleton and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all skeleton_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.


int skeleton_get_bone_count ( RID skeleton ) const

Returns the number of bones allocated for this skeleton.


void skeleton_set_base_transform_2d ( RID skeleton, Transform2D base_transform )

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Image sky_bake_panorama ( RID sky, float energy, bool bake_irradiance, Vector2i size )

Generates and returns an Image containing the radiance map for the specified sky RID. This supports built-in sky material and custom sky shaders. If bake_irradiance is true, the irradiance map is saved instead of the radiance map. The radiance map is used to render reflected light, while the irradiance map is used to render ambient light. See also environment_bake_panorama.

Note: The image is saved in linear color space without any tonemapping performed, which means it will look too dark if viewed directly in an image editor. energy values above 1.0 can be used to brighten the resulting image.

Note: size should be a 2:1 aspect ratio for the generated panorama to have square pixels. For radiance maps, there is no point in using a height greater than Sky.radiance_size, as it won't increase detail. Irradiance maps only contain low-frequency data, so there is usually no point in going past a size of 128×64 pixels when saving an irradiance map.


RID sky_create ( )

Creates an empty sky and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all sky_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.


void sky_set_material ( RID sky, RID material )

Sets the material that the sky uses to render the background, ambient and reflection maps.


void sky_set_mode ( RID sky, SkyMode mode )

Sets the process mode of the sky specified by the sky RID. Equivalent to Sky.process_mode.


void sky_set_radiance_size ( RID sky, int radiance_size )

Sets the radiance_size of the sky specified by the sky RID (in pixels). Equivalent to Sky.radiance_size.


RID spot_light_create ( )

Creates a spot light and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID can be used in most light_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

To place in a scene, attach this spot light to an instance using instance_set_base using the returned RID.


void sub_surface_scattering_set_quality ( SubSurfaceScatteringQuality quality )

Sets ProjectSettings.rendering/environment/subsurface_scattering/subsurface_scattering_quality to use when rendering materials that have subsurface scattering enabled.


void sub_surface_scattering_set_scale ( float scale, float depth_scale )

Sets the ProjectSettings.rendering/environment/subsurface_scattering/subsurface_scattering_scale and ProjectSettings.rendering/environment/subsurface_scattering/subsurface_scattering_depth_scale to use when rendering materials that have subsurface scattering enabled.


RID texture_2d_create ( Image image )

Creates a 2-dimensional texture and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all texture_2d_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

Note: The equivalent resource is Texture2D.

Note: Not to be confused with RenderingDevice.texture_create, which creates the graphics API's own texture type as opposed to the Godot-specific Texture2D resource.


Image texture_2d_get ( RID texture ) const

Returns an Image instance from the given texture RID.

Example of getting the test texture from get_test_texture and applying it to a Sprite2D node:

var texture_rid = RenderingServer.get_test_texture()
var texture = ImageTexture.create_from_image(RenderingServer.texture_2d_get(texture_rid))
$Sprite2D.texture = texture

Image texture_2d_layer_get ( RID texture, int layer ) const

Returns an Image instance from the given texture RID and layer.


RID texture_2d_layered_create ( Image[] layers, TextureLayeredType layered_type )

Creates a 2-dimensional layered texture and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all texture_2d_layered_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

Note: The equivalent resource is TextureLayered.


RID texture_2d_layered_placeholder_create ( TextureLayeredType layered_type )

Creates a placeholder for a 2-dimensional layered texture and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all texture_2d_layered_* RenderingServer functions, although it does nothing when used. See also texture_2d_placeholder_create.

Note: The equivalent resource is PlaceholderTextureLayered.


RID texture_2d_placeholder_create ( )

Creates a placeholder for a 2-dimensional layered texture and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all texture_2d_layered_* RenderingServer functions, although it does nothing when used. See also texture_2d_layered_placeholder_create

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

Note: The equivalent resource is PlaceholderTexture2D.


void texture_2d_update ( RID texture, Image image, int layer )

Updates the texture specified by the texture RID with the data in image. A layer must also be specified, which should be 0 when updating a single-layer texture (Texture2D).

Note: The image must have the same width, height and format as the current texture data. Otherwise, an error will be printed and the original texture won't be modified. If you need to use different width, height or format, use texture_replace instead.


RID texture_3d_create ( Format format, int width, int height, int depth, bool mipmaps, Image[] data )

Note: The equivalent resource is Texture3D.


Image[] texture_3d_get ( RID texture ) const

Returns 3D texture data as an array of Images for the specified texture RID.


RID texture_3d_placeholder_create ( )

Creates a placeholder for a 3-dimensional texture and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all texture_3d_* RenderingServer functions, although it does nothing when used.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

Note: The equivalent resource is PlaceholderTexture3D.


void texture_3d_update ( RID texture, Image[] data )

Updates the texture specified by the texture RID's data with the data in data. All the texture's layers must be replaced at once.

Note: The texture must have the same width, height, depth and format as the current texture data. Otherwise, an error will be printed and the original texture won't be modified. If you need to use different width, height, depth or format, use texture_replace instead.


Format texture_get_format ( RID texture ) const

Returns the Format for the texture.


int texture_get_native_handle ( RID texture, bool srgb=false ) const

Returns the internal graphics handle for this texture object. For use when communicating with third-party APIs mostly with GDExtension.

Note: This function returns a uint64_t which internally maps to a GLuint (OpenGL) or VkImage (Vulkan).


String texture_get_path ( RID texture ) const

There is currently no description for this method. Please help us by contributing one!


RID texture_get_rd_texture ( RID texture, bool srgb=false ) const

Returns a texture RID that can be used with RenderingDevice.


RID texture_proxy_create ( RID base )

Deprecated. ProxyTexture was removed in Godot 4, so this method does nothing when called and always returns a null RID.


void texture_proxy_update ( RID texture, RID proxy_to )

Deprecated. ProxyTexture was removed in Godot 4, so this method cannot be used anymore.


RID texture_rd_create ( RID rd_texture, TextureLayeredType layer_type=0 )

Creates a new texture object based on a texture created directly on the RenderingDevice. If the texture contains layers, layer_type is used to define the layer type.


void texture_replace ( RID texture, RID by_texture )

Replaces texture's texture data by the texture specified by the by_texture RID, without changing texture's RID.


void texture_set_force_redraw_if_visible ( RID texture, bool enable )

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void texture_set_path ( RID texture, String path )

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void texture_set_size_override ( RID texture, int width, int height )

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void viewport_attach_camera ( RID viewport, RID camera )

Sets a viewport's camera.


void viewport_attach_canvas ( RID viewport, RID canvas )

Sets a viewport's canvas.


void viewport_attach_to_screen ( RID viewport, Rect2 rect=Rect2(0, 0, 0, 0), int screen=0 )

Copies the viewport to a region of the screen specified by rect. If viewport_set_render_direct_to_screen is true, then the viewport does not use a framebuffer and the contents of the viewport are rendered directly to screen. However, note that the root viewport is drawn last, therefore it will draw over the screen. Accordingly, you must set the root viewport to an area that does not cover the area that you have attached this viewport to.

For example, you can set the root viewport to not render at all with the following code:

FIXME: The method seems to be non-existent.

func _ready():
    get_viewport().set_attach_to_screen_rect(Rect2())
    $Viewport.set_attach_to_screen_rect(Rect2(0, 0, 600, 600))

Using this can result in significant optimization, especially on lower-end devices. However, it comes at the cost of having to manage your viewports manually. For further optimization, see viewport_set_render_direct_to_screen.


RID viewport_create ( )

Creates an empty viewport and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all viewport_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

Note: The equivalent node is Viewport.


float viewport_get_measured_render_time_cpu ( RID viewport ) const

Returns the CPU time taken to render the last frame in milliseconds. This only includes time spent in rendering-related operations; scripts' _process functions and other engine subsystems are not included in this readout. To get a complete readout of CPU time spent to render the scene, sum the render times of all viewports that are drawn every frame plus get_frame_setup_time_cpu. Unlike Engine.get_frames_per_second, this method will accurately reflect CPU utilization even if framerate is capped via V-Sync or Engine.max_fps. See also viewport_get_measured_render_time_gpu.

Note: Requires measurements to be enabled on the specified viewport using viewport_set_measure_render_time. Otherwise, this method returns 0.0.


float viewport_get_measured_render_time_gpu ( RID viewport ) const

Returns the GPU time taken to render the last frame in milliseconds. To get a complete readout of GPU time spent to render the scene, sum the render times of all viewports that are drawn every frame. Unlike Engine.get_frames_per_second, this method accurately reflects GPU utilization even if framerate is capped via V-Sync or Engine.max_fps. See also viewport_get_measured_render_time_gpu.

Note: Requires measurements to be enabled on the specified viewport using viewport_set_measure_render_time. Otherwise, this method returns 0.0.

Note: When GPU utilization is low enough during a certain period of time, GPUs will decrease their power state (which in turn decreases core and memory clock speeds). This can cause the reported GPU time to increase if GPU utilization is kept low enough by a framerate cap (compared to what it would be at the GPU's highest power state). Keep this in mind when benchmarking using viewport_get_measured_render_time_gpu. This behavior can be overridden in the graphics driver settings at the cost of higher power usage.


int viewport_get_render_info ( RID viewport, ViewportRenderInfoType type, ViewportRenderInfo info )

Returns a statistic about the rendering engine which can be used for performance profiling. This is separated into render pass types, each of them having the same infos you can query (different passes will return different values). See ViewportRenderInfoType for a list of render pass types and ViewportRenderInfo for a list of information that can be queried.

See also get_rendering_info, which returns global information across all viewports.

Note: Viewport rendering information is not available until at least 2 frames have been rendered by the engine. If rendering information is not available, viewport_get_render_info returns 0. To print rendering information in _ready() successfully, use the following:

func _ready():
    for _i in 2:
        await get_tree().process_frame

    print(
            RenderingServer.viewport_get_render_info(get_viewport().get_viewport_rid(),
            RenderingServer.VIEWPORT_RENDER_INFO_TYPE_VISIBLE,
            RenderingServer.VIEWPORT_RENDER_INFO_DRAW_CALLS_IN_FRAME)
    )

RID viewport_get_render_target ( RID viewport ) const

Returns the render target for the viewport.


RID viewport_get_texture ( RID viewport ) const

Returns the viewport's last rendered frame.


void viewport_remove_canvas ( RID viewport, RID canvas )

Detaches a viewport from a canvas and vice versa.


void viewport_set_active ( RID viewport, bool active )

If true, sets the viewport active, else sets it inactive.


void viewport_set_canvas_cull_mask ( RID viewport, int canvas_cull_mask )

Sets the rendering mask associated with this Viewport. Only CanvasItem nodes with a matching rendering visibility layer will be rendered by this Viewport.


void viewport_set_canvas_stacking ( RID viewport, RID canvas, int layer, int sublayer )

Sets the stacking order for a viewport's canvas.

layer is the actual canvas layer, while sublayer specifies the stacking order of the canvas among those in the same layer.


void viewport_set_canvas_transform ( RID viewport, RID canvas, Transform2D offset )

Sets the transformation of a viewport's canvas.


void viewport_set_clear_mode ( RID viewport, ViewportClearMode clear_mode )

Sets the clear mode of a viewport. See ViewportClearMode for options.


void viewport_set_debug_draw ( RID viewport, ViewportDebugDraw draw )

Sets the debug draw mode of a viewport. See ViewportDebugDraw for options.


void viewport_set_default_canvas_item_texture_filter ( RID viewport, CanvasItemTextureFilter filter )

Sets the default texture filtering mode for the specified viewport RID. See CanvasItemTextureFilter for options.


void viewport_set_default_canvas_item_texture_repeat ( RID viewport, CanvasItemTextureRepeat repeat )

Sets the default texture repeat mode for the specified viewport RID. See CanvasItemTextureRepeat for options.


void viewport_set_disable_2d ( RID viewport, bool disable )

If true, the viewport's canvas (i.e. 2D and GUI elements) is not rendered.


void viewport_set_disable_3d ( RID viewport, bool disable )

If true, the viewport's 3D elements are not rendered.


void viewport_set_environment_mode ( RID viewport, ViewportEnvironmentMode mode )

Sets the viewport's environment mode which allows enabling or disabling rendering of 3D environment over 2D canvas. When disabled, 2D will not be affected by the environment. When enabled, 2D will be affected by the environment if the environment background mode is ENV_BG_CANVAS. The default behavior is to inherit the setting from the viewport's parent. If the topmost parent is also set to VIEWPORT_ENVIRONMENT_INHERIT, then the behavior will be the same as if it was set to VIEWPORT_ENVIRONMENT_ENABLED.


void viewport_set_fsr_sharpness ( RID viewport, float sharpness )

Determines how sharp the upscaled image will be when using the FSR upscaling mode. Sharpness halves with every whole number. Values go from 0.0 (sharpest) to 2.0. Values above 2.0 won't make a visible difference.


void viewport_set_global_canvas_transform ( RID viewport, Transform2D transform )

Sets the viewport's global transformation matrix.


void viewport_set_measure_render_time ( RID viewport, bool enable )

Sets the measurement for the given viewport RID (obtained using Viewport.get_viewport_rid). Once enabled, viewport_get_measured_render_time_cpu and viewport_get_measured_render_time_gpu will return values greater than 0.0 when queried with the given viewport.


void viewport_set_msaa_2d ( RID viewport, ViewportMSAA msaa )

Sets the multisample anti-aliasing mode for 2D/Canvas on the specified viewport RID. See ViewportMSAA for options.


void viewport_set_msaa_3d ( RID viewport, ViewportMSAA msaa )

Sets the multisample anti-aliasing mode for 3D on the specified viewport RID. See ViewportMSAA for options.


void viewport_set_occlusion_culling_build_quality ( ViewportOcclusionCullingBuildQuality quality )

Sets the ProjectSettings.rendering/occlusion_culling/bvh_build_quality to use for occlusion culling. This parameter is global and cannot be set on a per-viewport basis.


void viewport_set_occlusion_rays_per_thread ( int rays_per_thread )

Sets the ProjectSettings.rendering/occlusion_culling/occlusion_rays_per_thread to use for occlusion culling. This parameter is global and cannot be set on a per-viewport basis.


void viewport_set_parent_viewport ( RID viewport, RID parent_viewport )

Sets the viewport's parent to the viewport specified by the parent_viewport RID.


void viewport_set_positional_shadow_atlas_quadrant_subdivision ( RID viewport, int quadrant, int subdivision )

Sets the number of subdivisions to use in the specified shadow atlas quadrant for omni and spot shadows. See also Viewport.set_positional_shadow_atlas_quadrant_subdiv.


void viewport_set_positional_shadow_atlas_size ( RID viewport, int size, bool use_16_bits=false )

Sets the size of the shadow atlas's images (used for omni and spot lights) on the viewport specified by the viewport RID. The value is rounded up to the nearest power of 2. If use_16_bits is true, use 16 bits for the omni/spot shadow depth map. Enabling this results in shadows having less precision and may result in shadow acne, but can lead to performance improvements on some devices.

Note: If this is set to 0, no positional shadows will be visible at all. This can improve performance significantly on low-end systems by reducing both the CPU and GPU load (as fewer draw calls are needed to draw the scene without shadows).


void viewport_set_render_direct_to_screen ( RID viewport, bool enabled )

If true, render the contents of the viewport directly to screen. This allows a low-level optimization where you can skip drawing a viewport to the root viewport. While this optimization can result in a significant increase in speed (especially on older devices), it comes at a cost of usability. When this is enabled, you cannot read from the viewport or from the screen_texture. You also lose the benefit of certain window settings, such as the various stretch modes. Another consequence to be aware of is that in 2D the rendering happens in window coordinates, so if you have a viewport that is double the size of the window, and you set this, then only the portion that fits within the window will be drawn, no automatic scaling is possible, even if your game scene is significantly larger than the window size.


void viewport_set_scaling_3d_mode ( RID viewport, ViewportScaling3DMode scaling_3d_mode )

Sets the 3D resolution scaling mode. Bilinear scaling renders at different resolution to either undersample or supersample the viewport. FidelityFX Super Resolution 1.0, abbreviated to FSR, is an upscaling technology that produces high quality images at fast framerates by using a spatially aware upscaling algorithm. FSR is slightly more expensive than bilinear, but it produces significantly higher image quality. FSR should be used where possible.


void viewport_set_scaling_3d_scale ( RID viewport, float scale )

Scales the 3D render buffer based on the viewport size uses an image filter specified in ViewportScaling3DMode to scale the output image to the full viewport size. Values lower than 1.0 can be used to speed up 3D rendering at the cost of quality (undersampling). Values greater than 1.0 are only valid for bilinear mode and can be used to improve 3D rendering quality at a high performance cost (supersampling). See also ViewportMSAA for multi-sample antialiasing, which is significantly cheaper but only smoothens the edges of polygons.

When using FSR upscaling, AMD recommends exposing the following values as preset options to users "Ultra Quality: 0.77", "Quality: 0.67", "Balanced: 0.59", "Performance: 0.5" instead of exposing the entire scale.


void viewport_set_scenario ( RID viewport, RID scenario )

Sets a viewport's scenario. The scenario contains information about environment information, reflection atlas, etc.


void viewport_set_screen_space_aa ( RID viewport, ViewportScreenSpaceAA mode )

Sets the viewport's screen-space antialiasing mode.


void viewport_set_sdf_oversize_and_scale ( RID viewport, ViewportSDFOversize oversize, ViewportSDFScale scale )

Sets the viewport's 2D signed distance field ProjectSettings.rendering/2d/sdf/oversize and ProjectSettings.rendering/2d/sdf/scale. This is used when sampling the signed distance field in CanvasItem shaders as well as GPUParticles2D collision. This is not used by SDFGI in 3D rendering.


void viewport_set_size ( RID viewport, int width, int height )

Sets the viewport's width and height in pixels.


void viewport_set_snap_2d_transforms_to_pixel ( RID viewport, bool enabled )

If true, canvas item transforms (i.e. origin position) are snapped to the nearest pixel when rendering. This can lead to a crisper appearance at the cost of less smooth movement, especially when Camera2D smoothing is enabled. Equivalent to ProjectSettings.rendering/2d/snap/snap_2d_transforms_to_pixel.


void viewport_set_snap_2d_vertices_to_pixel ( RID viewport, bool enabled )

If true, canvas item vertices (i.e. polygon points) are snapped to the nearest pixel when rendering. This can lead to a crisper appearance at the cost of less smooth movement, especially when Camera2D smoothing is enabled. Equivalent to ProjectSettings.rendering/2d/snap/snap_2d_vertices_to_pixel.


void viewport_set_texture_mipmap_bias ( RID viewport, float mipmap_bias )

Affects the final texture sharpness by reading from a lower or higher mipmap (also called "texture LOD bias"). Negative values make mipmapped textures sharper but grainier when viewed at a distance, while positive values make mipmapped textures blurrier (even when up close). To get sharper textures at a distance without introducing too much graininess, set this between -0.75 and 0.0. Enabling temporal antialiasing (ProjectSettings.rendering/anti_aliasing/quality/use_taa) can help reduce the graininess visible when using negative mipmap bias.

Note: When the 3D scaling mode is set to FSR 1.0, this value is used to adjust the automatic mipmap bias which is calculated internally based on the scale factor. The formula for this is -log2(1.0 / scale) + mipmap_bias.


void viewport_set_transparent_background ( RID viewport, bool enabled )

If true, the viewport renders its background as transparent.


void viewport_set_update_mode ( RID viewport, ViewportUpdateMode update_mode )

Sets when the viewport should be updated. See ViewportUpdateMode constants for options.


void viewport_set_use_debanding ( RID viewport, bool enable )

If true, enables debanding on the specified viewport. Equivalent to ProjectSettings.rendering/anti_aliasing/quality/use_debanding.


void viewport_set_use_hdr_2d ( RID viewport, bool enabled )

If true, 2D rendering will use a high dynamic range (HDR) format framebuffer matching the bit depth of the 3D framebuffer. When using the Forward+ renderer this will be a RGBA16 framebuffer, while when using the Mobile renderer it will be a RGB10_A2 framebuffer. Additionally, 2D rendering will take place in linear color space and will be converted to sRGB space immediately before blitting to the screen (if the Viewport is attached to the screen). Practically speaking, this means that the end result of the Viewport will not be clamped into the 0-1 range and can be used in 3D rendering without color space adjustments. This allows 2D rendering to take advantage of effects requiring high dynamic range (e.g. 2D glow) as well as substantially improves the appearance of effects requiring highly detailed gradients. This setting has the same effect as Viewport.use_hdr_2d.

Note: This setting will have no effect when using the GL Compatibility renderer as the GL Compatibility renderer always renders in low dynamic range for performance reasons.


void viewport_set_use_occlusion_culling ( RID viewport, bool enable )

If true, enables occlusion culling on the specified viewport. Equivalent to ProjectSettings.rendering/occlusion_culling/use_occlusion_culling.


void viewport_set_use_taa ( RID viewport, bool enable )

If true, use Temporal Anti-Aliasing. Equivalent to ProjectSettings.rendering/anti_aliasing/quality/use_taa.


void viewport_set_use_xr ( RID viewport, bool use_xr )

If true, the viewport uses augmented or virtual reality technologies. See XRInterface.


void viewport_set_vrs_mode ( RID viewport, ViewportVRSMode mode )

Sets the Variable Rate Shading (VRS) mode for the viewport. If the GPU does not support VRS, this property is ignored. Equivalent to ProjectSettings.rendering/vrs/mode.


void viewport_set_vrs_texture ( RID viewport, RID texture )

The texture to use when the VRS mode is set to VIEWPORT_VRS_TEXTURE. Equivalent to ProjectSettings.rendering/vrs/texture.


RID visibility_notifier_create ( )

Creates a new 3D visibility notifier object and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all visibility_notifier_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

To place in a scene, attach this mesh to an instance using instance_set_base using the returned RID.

Note: The equivalent node is VisibleOnScreenNotifier3D.


void visibility_notifier_set_aabb ( RID notifier, AABB aabb )

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void visibility_notifier_set_callbacks ( RID notifier, Callable enter_callable, Callable exit_callable )

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void voxel_gi_allocate_data ( RID voxel_gi, Transform3D to_cell_xform, AABB aabb, Vector3i octree_size, PackedByteArray octree_cells, PackedByteArray data_cells, PackedByteArray distance_field, PackedInt32Array level_counts )

There is currently no description for this method. Please help us by contributing one!


RID voxel_gi_create ( )

Creates a new voxel-based global illumination object and adds it to the RenderingServer. It can be accessed with the RID that is returned. This RID will be used in all voxel_gi_* RenderingServer functions.

Once finished with your RID, you will want to free the RID using the RenderingServer's free_rid method.

Note: The equivalent node is VoxelGI.


PackedByteArray voxel_gi_get_data_cells ( RID voxel_gi ) const

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PackedByteArray voxel_gi_get_distance_field ( RID voxel_gi ) const

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PackedInt32Array voxel_gi_get_level_counts ( RID voxel_gi ) const

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PackedByteArray voxel_gi_get_octree_cells ( RID voxel_gi ) const

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Vector3i voxel_gi_get_octree_size ( RID voxel_gi ) const

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Transform3D voxel_gi_get_to_cell_xform ( RID voxel_gi ) const

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void voxel_gi_set_baked_exposure_normalization ( RID voxel_gi, float baked_exposure )

Used to inform the renderer what exposure normalization value was used while baking the voxel gi. This value will be used and modulated at run time to ensure that the voxel gi maintains a consistent level of exposure even if the scene-wide exposure normalization is changed at run time. For more information see camera_attributes_set_exposure.


void voxel_gi_set_bias ( RID voxel_gi, float bias )

Sets the VoxelGIData.bias value to use on the specified voxel_gi's RID.


void voxel_gi_set_dynamic_range ( RID voxel_gi, float range )

Sets the VoxelGIData.dynamic_range value to use on the specified voxel_gi's RID.


void voxel_gi_set_energy ( RID voxel_gi, float energy )

Sets the VoxelGIData.energy value to use on the specified voxel_gi's RID.


void voxel_gi_set_interior ( RID voxel_gi, bool enable )

Sets the VoxelGIData.interior value to use on the specified voxel_gi's RID.


void voxel_gi_set_normal_bias ( RID voxel_gi, float bias )

Sets the VoxelGIData.normal_bias value to use on the specified voxel_gi's RID.


void voxel_gi_set_propagation ( RID voxel_gi, float amount )

Sets the VoxelGIData.propagation value to use on the specified voxel_gi's RID.


void voxel_gi_set_quality ( VoxelGIQuality quality )

Sets the ProjectSettings.rendering/global_illumination/voxel_gi/quality value to use when rendering. This parameter is global and cannot be set on a per-VoxelGI basis.


void voxel_gi_set_use_two_bounces ( RID voxel_gi, bool enable )

Sets the VoxelGIData.use_two_bounces value to use on the specified voxel_gi's RID.