unreal.ProceduralMeshLibrary

class unreal.ProceduralMeshLibrary(outer=None, name='None')

Bases: unreal.BlueprintFunctionLibrary

Kismet Procedural Mesh Library

C++ Source:

• Plugin: ProceduralMeshComponent

• Module: ProceduralMeshComponent

• File: KismetProceduralMeshLibrary.h

classmethod calculate_tangents_for_mesh(vertices, triangles, u_vs) -> (normals=Array(Vector), tangents=Array(ProcMeshTangent))

Automatically generate normals and tangent vectors for a mesh UVs are required for correct tangent generation.

Parameters

• vertices (Array(Vector)) –

• triangles (Array(int32)) –

• u_vs (Array(Vector2D)) –

Returns

normals (Array(Vector)):

tangents (Array(ProcMeshTangent)):

Return type

tuple

classmethod convert_quad_to_triangles(triangles, vert0, vert1, vert2, vert3)

Add a quad, specified by four indices, to a triangle index buffer as two triangles.

Parameters

• triangles (Array(int32)) –

• vert0 (int32) –

• vert1 (int32) –

• vert2 (int32) –

• vert3 (int32) –

Returns

triangles (Array(int32)):

Return type

Array(int32)

classmethod copy_procedural_mesh_from_static_mesh_component(static_mesh_component, lod_index, proc_mesh_component, create_collision) → None

Copy materials from StaticMeshComponent to ProceduralMeshComponent.

Parameters

• static_mesh_component (StaticMeshComponent) –

• lod_index (int32) –

• proc_mesh_component (ProceduralMeshComponent) –

• create_collision (bool) –

classmethod create_grid_mesh_split(num_x, num_y, grid_spacing=16.000000) -> (triangles=Array(int32), vertices=Array(Vector), u_vs=Array(Vector2D), uv1s=Array(Vector2D))

Generate a vertex buffer, index buffer and UVs for a grid mesh where each quad is split, with standard 0-1 UVs on UV0 and point sampled texel center UVs for UV1. out: Triangles Output index buffer out: Vertices Output vertex buffer out: UVs Out UVs out: UV1s Out UV1s

Parameters

• num_x (int32) – Number of vertices in X direction (must be >= 2)

• num_y (int32) – Number of vertices in y direction (must be >= 2)

• grid_spacing (float) – Size of each quad in world units

Returns

triangles (Array(int32)):

vertices (Array(Vector)):

u_vs (Array(Vector2D)):

uv1s (Array(Vector2D)):

Return type

tuple

classmethod create_grid_mesh_triangles(num_x, num_y, winding)

Generate an index buffer for a grid of quads. out: Triangles Output index buffer

Parameters

• num_x (int32) – Number of vertices in X direction (must be >= 2)

• num_y (int32) – Number of vertices in y direction (must be >= 2)

• winding (bool) – Reverses winding of indices generated for each quad

Returns

triangles (Array(int32)):

Return type

Array(int32)

classmethod create_grid_mesh_welded(num_x, num_y, grid_spacing=16.000000) -> (triangles=Array(int32), vertices=Array(Vector), u_vs=Array(Vector2D))

Generate a vertex buffer, index buffer and UVs for a tessellated grid mesh. out: Triangles Output index buffer out: Vertices Output vertex buffer out: UVs Out UVs

Parameters

• num_x (int32) – Number of vertices in X direction (must be >= 2)

• num_y (int32) – Number of vertices in y direction (must be >= 2)

• grid_spacing (float) – Size of each quad in world units

Returns

triangles (Array(int32)):

vertices (Array(Vector)):

u_vs (Array(Vector2D)):

Return type

tuple

classmethod generate_box_mesh(box_radius) -> (vertices=Array(Vector), triangles=Array(int32), normals=Array(Vector), u_vs=Array(Vector2D), tangents=Array(ProcMeshTangent))

Generate vertex and index buffer for a simple box, given the supplied dimensions. Normals, UVs and tangents are also generated for each vertex.

Parameters

box_radius (Vector) –

Returns

vertices (Array(Vector)):

triangles (Array(int32)):

normals (Array(Vector)):

u_vs (Array(Vector2D)):

tangents (Array(ProcMeshTangent)):

Return type

tuple

classmethod get_section_from_procedural_mesh(proc_mesh, section_index) -> (vertices=Array(Vector), triangles=Array(int32), normals=Array(Vector), u_vs=Array(Vector2D), tangents=Array(ProcMeshTangent))

Grab geometry data from a ProceduralMeshComponent.

Parameters

• proc_mesh (ProceduralMeshComponent) –

• section_index (int32) –

Returns

vertices (Array(Vector)):

triangles (Array(int32)):

normals (Array(Vector)):

u_vs (Array(Vector2D)):

tangents (Array(ProcMeshTangent)):

Return type

tuple

classmethod get_section_from_static_mesh(mesh, lod_index, section_index) -> (vertices=Array(Vector), triangles=Array(int32), normals=Array(Vector), u_vs=Array(Vector2D), tangents=Array(ProcMeshTangent))

Grab geometry data from a StaticMesh asset.

Parameters

• mesh (StaticMesh) –

• lod_index (int32) –

• section_index (int32) –

Returns

vertices (Array(Vector)):

triangles (Array(int32)):

normals (Array(Vector)):

u_vs (Array(Vector2D)):

tangents (Array(ProcMeshTangent)):

Return type

tuple

classmethod slice_procedural_mesh(proc_mesh, plane_position, plane_normal, create_other_half, cap_option, cap_material) → ProceduralMeshComponent

Slice the ProceduralMeshComponent (including simple convex collision) using a plane. Optionally create ‘cap’ geometry.

Parameters

• proc_mesh (ProceduralMeshComponent) – ProceduralMeshComponent to slice

• plane_position (Vector) – Point on the plane to use for slicing, in world space

• plane_normal (Vector) – Normal of plane used for slicing. Geometry on the positive side of the plane will be kept.

• create_other_half (bool) – If true, an additional ProceduralMeshComponent (OutOtherHalfProcMesh) will be created using the other half of the sliced geometry

• cap_option (ProcMeshSliceCapOption) – If and how to create ‘cap’ geometry on the slicing plane

• cap_material (MaterialInterface) – If creating a new section for the cap, assign this material to that section

Returns

out_other_half_proc_mesh (ProceduralMeshComponent): If bCreateOtherHalf is set, this is the new component created. Its owner will be the same as the supplied InProcMesh.

Return type

ProceduralMeshComponent