Struct SurfaceTool

pub struct SurfaceTool { /* private fields */ }

Expand description

Godot class SurfaceTool.

Inherits RefCounted.

Related symbols:

surface_tool: sidecar module with related enum/flag types
ISurfaceTool: virtual methods

§Construction

This class is reference-counted. You can create a new instance using SurfaceTool::new_gd().

§Godot docs

The SurfaceTool is used to construct a Mesh by specifying vertex attributes individually. It can be used to construct a Mesh from a script. All properties except indices need to be added before calling add_vertex. For example, to add vertex colors and UVs:

var st = SurfaceTool.new()
st.begin(Mesh.PRIMITIVE_TRIANGLES)
st.set_color(Color(1, 0, 0))
st.set_uv(Vector2(0, 0))
st.add_vertex(Vector3(0, 0, 0))

The above SurfaceTool now contains one vertex of a triangle which has a UV coordinate and a specified Color. If another vertex were added without calling set_uv or set_color, then the last values would be used.

Vertex attributes must be passed before calling add_vertex. Failure to do so will result in an error when committing the vertex information to a mesh.

Additionally, the attributes used before the first vertex is added determine the format of the mesh. For example, if you only add UVs to the first vertex, you cannot add color to any of the subsequent vertices.

See also ArrayMesh, ImmediateMesh and MeshDataTool for procedural geometry generation.

Note: Godot uses clockwise winding order for front faces of triangle primitive modes.

Implementations§

§

impl SurfaceTool

pub fn set_skin_weight_count(&mut self, count: SkinWeightCount)

Set to SkinWeightCount::SKIN_8_WEIGHTS to indicate that up to 8 bone influences per vertex may be used.

By default, only 4 bone influences are used (SkinWeightCount::SKIN_4_WEIGHTS).

Note: This function takes an enum, not the exact number of weights.

pub fn get_skin_weight_count(&self) -> SkinWeightCount

By default, returns SkinWeightCount::SKIN_4_WEIGHTS to indicate only 4 bone influences per vertex are used.

Returns SkinWeightCount::SKIN_8_WEIGHTS if up to 8 influences are used.

Note: This function returns an enum, not the exact number of weights.

pub fn set_custom_format(&mut self, channel_index: i32, format: CustomFormat)

Sets the color format for this custom channel_index. Use CustomFormat::MAX to disable.

Must be invoked after begin and should be set before commit or commit_to_arrays.

pub fn get_custom_format(&self, channel_index: i32) -> CustomFormat

Returns the format for custom channel_index (currently up to 4). Returns CustomFormat::MAX if this custom channel is unused.

pub fn begin(&mut self, primitive: PrimitiveType)

Called before adding any vertices. Takes the primitive type as an argument (e.g. PrimitiveType::TRIANGLES).

pub fn add_vertex(&mut self, vertex: Vector3)

Specifies the position of current vertex. Should be called after specifying other vertex properties (e.g. Color, UV).

pub fn set_color(&mut self, color: Color)

Specifies a Color to use for the next vertex. If every vertex needs to have this information set and you fail to submit it for the first vertex, this information may not be used at all.

Note: The material must have [member BaseMaterial3D.vertex_color_use_as_albedo] enabled for the vertex color to be visible.

pub fn set_normal(&mut self, normal: Vector3)

Specifies a normal to use for the next vertex. If every vertex needs to have this information set and you fail to submit it for the first vertex, this information may not be used at all.

pub fn set_tangent(&mut self, tangent: Plane)

Specifies a tangent to use for the next vertex. If every vertex needs to have this information set and you fail to submit it for the first vertex, this information may not be used at all.

Note: Even though tangent is a Plane, it does not directly represent the tangent plane. Its [member Plane.x], [member Plane.y], and [member Plane.z] represent the tangent vector and [member Plane.d] should be either -1 or 1. See also ArrayType::TANGENT.

pub fn set_uv(&mut self, uv: Vector2)

Specifies a set of UV coordinates to use for the next vertex. If every vertex needs to have this information set and you fail to submit it for the first vertex, this information may not be used at all.

pub fn set_uv2(&mut self, uv2: Vector2)

Specifies an optional second set of UV coordinates to use for the next vertex. If every vertex needs to have this information set and you fail to submit it for the first vertex, this information may not be used at all.

pub fn set_bones(&mut self, bones: &PackedArray<i32>)

Specifies an array of bones to use for the next vertex. bones must contain 4 integers.

pub fn set_weights(&mut self, weights: &PackedArray<f32>)

Specifies weight values to use for the next vertex. weights must contain 4 values. If every vertex needs to have this information set and you fail to submit it for the first vertex, this information may not be used at all.

pub fn set_custom(&mut self, channel_index: i32, custom_color: Color)

Sets the custom value on this vertex for channel_index.

set_custom_format must be called first for this channel_index. Formats which are not RGBA will ignore other color channels.

pub fn set_smooth_group(&mut self, index: u32)

Specifies the smooth group to use for the next vertex. If this is never called, all vertices will have the default smooth group of 0 and will be smoothed with adjacent vertices of the same group. To produce a mesh with flat normals, set the smooth group to -1.

Note: This function actually takes a uint32_t, so C# users should use uint32.MaxValue instead of -1 to produce a mesh with flat normals.

pub fn add_triangle_fan(&mut self, vertices: &PackedArray<Vector3>)

To set the default parameters, use add_triangle_fan_ex and its builder methods. See the book for detailed usage instructions. Inserts a triangle fan made of array data into Mesh being constructed.

Requires the primitive type be set to PrimitiveType::TRIANGLES.

pub fn add_triangle_fan_ex<'ex>( &'ex mut self, vertices: &'ex PackedArray<Vector3>, ) -> ExAddTriangleFan<'ex>

Inserts a triangle fan made of array data into Mesh being constructed.

Requires the primitive type be set to PrimitiveType::TRIANGLES.

pub fn add_index(&mut self, index: i32)

Adds a vertex to index array if you are using indexed vertices. Does not need to be called before adding vertices.

pub fn index(&mut self)

Shrinks the vertex array by creating an index array. This can improve performance by avoiding vertex reuse.

pub fn deindex(&mut self)

Removes the index array by expanding the vertex array.

pub fn generate_normals(&mut self)

To set the default parameters, use generate_normals_ex and its builder methods. See the book for detailed usage instructions. Generates normals from vertices so you do not have to do it manually. If flip is true, the resulting normals will be inverted. generate_normals should be called after generating geometry and before committing the mesh using commit or commit_to_arrays. For correct display of normal-mapped surfaces, you will also have to generate tangents using generate_tangents.

Note: generate_normals only works if the primitive type is set to PrimitiveType::TRIANGLES.

Note: generate_normals takes smooth groups into account. To generate smooth normals, set the smooth group to a value greater than or equal to 0 using set_smooth_group or leave the smooth group at the default of 0. To generate flat normals, set the smooth group to -1 using set_smooth_group prior to adding vertices.

pub fn generate_normals_ex<'ex>(&'ex mut self) -> ExGenerateNormals<'ex>

Generates normals from vertices so you do not have to do it manually. If flip is true, the resulting normals will be inverted. generate_normals should be called after generating geometry and before committing the mesh using commit or commit_to_arrays. For correct display of normal-mapped surfaces, you will also have to generate tangents using generate_tangents.

Note: generate_normals only works if the primitive type is set to PrimitiveType::TRIANGLES.

Note: generate_normals takes smooth groups into account. To generate smooth normals, set the smooth group to a value greater than or equal to 0 using set_smooth_group or leave the smooth group at the default of 0. To generate flat normals, set the smooth group to -1 using set_smooth_group prior to adding vertices.

pub fn generate_tangents(&mut self)

Generates a tangent vector for each vertex. Requires that each vertex already has UVs and normals set (see generate_normals).

pub fn optimize_indices_for_cache(&mut self)

Optimizes triangle sorting for performance. Requires that get_primitive_type is PrimitiveType::TRIANGLES.

pub fn get_aabb(&self) -> Aabb

Returns the axis-aligned bounding box of the vertex positions.

pub fn generate_lod(&mut self, nd_threshold: f32) -> PackedArray<i32>

To set the default parameters, use generate_lod_ex and its builder methods. See the book for detailed usage instructions. Generates an LOD for a given nd_threshold in linear units (square root of quadric error metric), using at most target_index_count indices.

pub fn generate_lod_ex<'ex>( &'ex mut self, nd_threshold: f32, ) -> ExGenerateLod<'ex>

Generates an LOD for a given nd_threshold in linear units (square root of quadric error metric), using at most target_index_count indices.

pub fn set_material(&mut self, material: impl AsArg<Option<Gd<Material>>>)

Sets Material to be used by the Mesh you are constructing.

pub fn get_primitive_type(&self) -> PrimitiveType

Returns the type of mesh geometry, such as PrimitiveType::TRIANGLES.

pub fn clear(&mut self)

Clear all information passed into the surface tool so far.

pub fn create_from( &mut self, existing: impl AsArg<Option<Gd<Mesh>>>, surface: i32, )

Creates a vertex array from an existing Mesh.

pub fn create_from_arrays(&mut self, arrays: &AnyArray)

To set the default parameters, use create_from_arrays_ex and its builder methods. See the book for detailed usage instructions. Creates this SurfaceTool from existing vertex arrays such as returned by commit_to_arrays, surface_get_arrays, surface_get_blend_shape_arrays, get_surface_arrays, and get_surface_blend_shape_arrays. primitive_type controls the type of mesh data, defaulting to PrimitiveType::TRIANGLES.

pub fn create_from_arrays_ex<'ex>( &'ex mut self, arrays: &'ex AnyArray, ) -> ExCreateFromArrays<'ex>

Creates this SurfaceTool from existing vertex arrays such as returned by commit_to_arrays, surface_get_arrays, surface_get_blend_shape_arrays, get_surface_arrays, and get_surface_blend_shape_arrays. primitive_type controls the type of mesh data, defaulting to PrimitiveType::TRIANGLES.

pub fn create_from_blend_shape( &mut self, existing: impl AsArg<Option<Gd<Mesh>>>, surface: i32, blend_shape: impl AsArg<GString>, )

Creates a vertex array from the specified blend shape of an existing Mesh. This can be used to extract a specific pose from a blend shape.

pub fn append_from( &mut self, existing: impl AsArg<Option<Gd<Mesh>>>, surface: i32, transform: Transform3D, )

Append vertices from a given Mesh surface onto the current vertex array with specified Transform3D.

pub fn commit(&mut self) -> Option<Gd<ArrayMesh>>

To set the default parameters, use commit_ex and its builder methods. See the book for detailed usage instructions. Returns a constructed ArrayMesh from current information passed in. If an existing ArrayMesh is passed in as an argument, will add an extra surface to the existing ArrayMesh.

The flags argument can be the bitwise OR of ArrayFormat::FLAG_USE_DYNAMIC_UPDATE, ArrayFormat::FLAG_USE_8_BONE_WEIGHTS, or ArrayFormat::FLAG_USES_EMPTY_VERTEX_ARRAY.

pub fn commit_ex<'ex>(&'ex mut self) -> ExCommit<'ex>

Returns a constructed ArrayMesh from current information passed in. If an existing ArrayMesh is passed in as an argument, will add an extra surface to the existing ArrayMesh.

The flags argument can be the bitwise OR of ArrayFormat::FLAG_USE_DYNAMIC_UPDATE, ArrayFormat::FLAG_USE_8_BONE_WEIGHTS, or ArrayFormat::FLAG_USES_EMPTY_VERTEX_ARRAY.

pub fn commit_to_arrays(&mut self) -> Array<Variant>

Commits the data to the same format used by add_surface_from_arrays, add_surface, and create_from_arrays. This way you can further process the mesh data using the ArrayMesh or ImporterMesh APIs.

Methods from Deref<Target = RefCounted>§

pub fn get_reference_count(&self) -> i32

Returns the current reference count.

Methods from Deref<Target = Object>§

pub fn get_script(&self) -> Option<Gd<Script>>

pub fn set_script(&mut self, script: impl AsArg<Option<Gd<Script>>>)

pub fn connect( &mut self, signal: impl AsArg<StringName>, callable: &Callable, ) -> Error

pub fn connect_flags( &mut self, signal: impl AsArg<StringName>, callable: &Callable, flags: ConnectFlags, ) -> Error

pub fn get_class(&self) -> GString

Returns the object’s built-in class name, as a String. See also is_class.

Note: This method ignores class_name declarations. If this object’s script has defined a class_name, the base, built-in class name is returned instead.

pub fn is_class(&self, class: impl AsArg<GString>) -> bool

Returns true if the object inherits from the given class. See also get_class.

var sprite2d = Sprite2D.new()
sprite2d.is_class("Sprite2D") # Returns true
sprite2d.is_class("Node")     # Returns true
sprite2d.is_class("Node3D")   # Returns false

Note: This method ignores class_name declarations in the object’s script.

pub fn set(&mut self, property: impl AsArg<StringName>, value: &Variant)

Assigns value to the given property. If the property does not exist or the given value’s type doesn’t match, nothing happens.

var node = Node2D.new()
node.set("global_scale", Vector2(8, 2.5))
print(node.global_scale) # Prints (8.0, 2.5)

Note: In C#, property must be in snake_case when referring to built-in Godot properties. Prefer using the names exposed in the PropertyName class to avoid allocating a new StringName on each call.

pub fn get(&self, property: impl AsArg<StringName>) -> Variant

Returns the Variant value of the given property. If the property does not exist, this method returns null.

var node = Node2D.new()
node.rotation = 1.5
var a = node.get("rotation") # a is 1.5

Note: In C#, property must be in snake_case when referring to built-in Godot properties. Prefer using the names exposed in the PropertyName class to avoid allocating a new StringName on each call.

pub fn set_indexed( &mut self, property_path: impl AsArg<NodePath>, value: &Variant, )

Assigns a new value to the property identified by the property_path. The path should be a NodePath relative to this object, and can use the colon character (:) to access nested properties.

var node = Node2D.new()
node.set_indexed("position", Vector2(42, 0))
node.set_indexed("position:y", -10)
print(node.position) # Prints (42.0, -10.0)

Note: In C#, property_path must be in snake_case when referring to built-in Godot properties. Prefer using the names exposed in the PropertyName class to avoid allocating a new StringName on each call.

pub fn get_indexed(&self, property_path: impl AsArg<NodePath>) -> Variant

Gets the object’s property indexed by the given property_path. The path should be a NodePath relative to the current object and can use the colon character (:) to access nested properties.

Examples: "position:x" or "material:next_pass:blend_mode".

var node = Node2D.new()
node.position = Vector2(5, -10)
var a = node.get_indexed("position")   # a is Vector2(5, -10)
var b = node.get_indexed("position:y") # b is -10

Note: In C#, property_path must be in snake_case when referring to built-in Godot properties. Prefer using the names exposed in the PropertyName class to avoid allocating a new StringName on each call.

Note: This method does not support actual paths to nodes in the SceneTree, only sub-property paths. In the context of nodes, use get_node_and_resource instead.

pub fn get_property_list(&self) -> Array<Dictionary<Variant, Variant>>

Returns the object’s property list as an Array of dictionaries. Each Dictionary contains the following entries:

name is the property’s name, as a String;
class_name is an empty StringName, unless the property is VariantType::OBJECT and it inherits from a class;
type is the property’s type, as an int (see [enum Variant.Type]);
hint is how the property is meant to be edited (see [enum PropertyHint]);
hint_string depends on the hint (see [enum PropertyHint]);
usage is a combination of [enum PropertyUsageFlags].

Note: In GDScript, all class members are treated as properties. In C# and GDExtension, it may be necessary to explicitly mark class members as Godot properties using decorators or attributes.

pub fn get_method_list(&self) -> Array<Dictionary<Variant, Variant>>

Returns this object’s methods and their signatures as an Array of dictionaries. Each Dictionary contains the following entries:

name is the name of the method, as a String;
args is an Array of dictionaries representing the arguments;
default_args is the default arguments as an Array of variants;
flags is a combination of [enum MethodFlags];
id is the method’s internal identifier int;
return is the returned value, as a Dictionary;

Note: The dictionaries of args and return are formatted identically to the results of get_property_list, although not all entries are used.

pub fn property_can_revert(&self, property: impl AsArg<StringName>) -> bool

Returns true if the given property has a custom default value. Use property_get_revert to get the property’s default value.

Note: This method is used by the Inspector dock to display a revert icon. The object must implement [method _property_can_revert] to customize the default value. If [method _property_can_revert] is not implemented, this method returns false.

pub fn property_get_revert(&self, property: impl AsArg<StringName>) -> Variant

Returns the custom default value of the given property. Use property_can_revert to check if the property has a custom default value.

Note: This method is used by the Inspector dock to display a revert icon. The object must implement [method _property_get_revert] to customize the default value. If [method _property_get_revert] is not implemented, this method returns null.

pub fn set_meta(&mut self, name: impl AsArg<StringName>, value: &Variant)

Adds or changes the entry name inside the object’s metadata. The metadata value can be any Variant, although some types cannot be serialized correctly.

If value is null, the entry is removed. This is the equivalent of using remove_meta. See also has_meta and get_meta.