The elements of vertex data are called vertex attributes.
Every vertex can have the following attributes:
Internally, all vertex data is stored in separate arrays of the same size. If your meshThe main graphics primitive of Unity. Meshes make up a large part of your 3D worlds. Unity supports triangulated or Quadrangulated polygon meshes. Nurbs, Nurms, Subdiv surfaces must be converted to polygons. More info
See in Glossary contains an array with 10 vertex positions, it also has arrays with 10 elements for each other vertex attribute that it uses.
In C#, Unity describes the available vertex attributes with the VertexAttribute enum. You can check whether an instance of the Mesh
class has a given vertex attribute with the Mesh.HasVertexAttribute function.
The vertex position represents the position of the vertex in object space.
Unity uses this value to determine the surface of the mesh.
This vertex attribute is required for all meshes.
In the Mesh
class, the simplest way to access this data is with Mesh.GetVertices and Mesh.SetVertices. Unity also stores this data in Mesh.vertices, but this older property is less efficient and user-friendly.
The vertex normal represents the direction that points directly “out” from the surface at the position of the vertex.
Unity uses this value to calculate the way that light reflects off the surface of a mesh.
This vertex attribute is optional.
In the Mesh
class, the simplest way to access this data is with Mesh.GetNormals and Mesh.SetNormals. Unity also stores this data in Mesh.normals, but this older property is less efficient and user-friendly.
The vertex tangent represents the direction that points along the “u” (horizontal texture) axis of the surface at the position of the vertex.
Unity stores the vertex tangent with an additional piece of data, in a four-component vector. The x,y,z components of the vector describe the tangent, and the w component of the vector describes its orientation. Unity uses the w value to compute the binormal, which is the cross product of the tangent and normal.
Unity uses the tangent and binormal values in normal mapping.
This vertex attribute is optional.
In the Mesh
class, the simplest way to access this data is with Mesh.GetTangents and Mesh.SetTangents. Unity also stores this data in Mesh.tangents, but this older property is less efficient and user-friendly.
A mesh can contain up to eight sets of texture coordinates. Texture coordinates are commonly called UVs, and the sets are called channels.
Unity uses texture coordinates when it “wraps” a texture around the mesh. The UVs indicate which part of the texture aligns with the mesh surface at the vertex position.
UV channels are commonly called “UV0” for the first channel, “UV1” for the second channel, and so on up to “UV7”. The channels respectively map to the shaderA program that runs on the GPU. More info
See in Glossary semantics TEXCOORD0
, TEXCOORD1
, and so on up to TEXCOORD7
.
By default, Unity uses the first channel (UV0) to store UVs for regular textures such as diffuse maps and specular maps. Unity can use the second channel (UV1) to store baked lightmapA pre-rendered texture that contains the effects of light sources on static objects in the scene. Lightmaps are overlaid on top of scene geometry to create the effect of lighting. More info
See in Glossary UVs, and the third channel (UV2) to store input data for real-time lightmap UVs. For more information on lightmap UVs and how Unity uses these channels, see Lightmap UVs.
All eight texture coordinate attributes are optional.
In the Mesh
class, the simplest way to access this data is with Mesh.GetUVs and Mesh.SetUVs. Unity also stores this data in the following properties: Mesh.uv, Mesh.uv2, Mesh.uv3 and so on, up to Mesh.uv8. Note that these older properties are less efficient and user-friendly.
The vertex color represents the base color of a vertex, if any.
This color exists independently of any textures that the mesh may use.
This vertex attribute is optional.
In the Mesh
class, the simplest way to access this data is with Mesh.GetColors and Mesh.SetColors. Unity also stores this data in Mesh.colors, but this older property is less efficient and user-friendly.
In a skinned mesh, blend indices indicate which bones affects a vertex, and bone weights describe how much influence those bones have on the vertex.
In Unity, these vertex attributes are stored together.
Unity uses blend indices and bone weights to deform a skinned mesh based on the movement of its skeleton. For more information, see Skinned Mesh Renderer.
These vertex attributes are required for skinned meshes.
In the past, Unity only allowed up to 4 bones to influence a vertex. It stored this data in a BoneWeight struct, in the Mesh.boneWeights array. Now, Unity allows up to 256 bones to influence a vertex. It stores this data in a BoneWeight1 struct, and you can access it with Mesh.GetAllBoneWeights and Mesh.SetBoneWeights. For more information, read the linked API documentation.
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