Legacy Documentation: Version 5.3
LanguageEnglish
  • C#
  • JS

Script language

Select your preferred scripting language. All code snippets will be displayed in this language.

Mesh

class in UnityEngine

/

Inherits from: Object

Suggest a change

Success!

Thank you for helping us improve the quality of Unity Documentation. Although we cannot accept all submissions, we do read each suggested change from our users and will make updates where applicable.

Close

Sumbission failed

For some reason your suggested change could not be submitted. Please try again in a few minutes. And thank you for taking the time to help us improve the quality of Unity Documentation.

Close

Cancel

Switch to Manual

Description

A class that allows creating or modifying meshes from scripts.

Meshes contain vertices and multiple triangle arrays. See the Procedural example project for examples of using the mesh interface.

The triangle arrays are simply indices into the vertex arrays; three indices for each triangle.

For every vertex there can be a normal, two texture coordinates, color and tangent. These are optional though and can be removed at will. All vertex information is stored in separate arrays of the same size, so if your mesh has 10 vertices, you would also have 10-size arrays for normals and other attributes.

There are probably 3 things you might want to use the modifiable mesh interface for:

1. Building a mesh from scratch: should always be done in the following order:
a) assign vertices
b) assign triangles.

var newVertices : Vector3[];
var newUV : Vector2[];
var newTriangles : int[];

function Start () { var mesh : Mesh = new Mesh (); GetComponent.<MeshFilter>().mesh = mesh; mesh.vertices = newVertices; mesh.uv = newUV; mesh.triangles = newTriangles; }
using UnityEngine;
using System.Collections;

public class ExampleClass : MonoBehaviour { public Vector3[] newVertices; public Vector2[] newUV; public int[] newTriangles; void Start() { Mesh mesh = new Mesh(); GetComponent<MeshFilter>().mesh = mesh; mesh.vertices = newVertices; mesh.uv = newUV; mesh.triangles = newTriangles; } }

2. Modifying vertex attributes every frame:
a) get vertices
b) modify them
c) assign them back to the mesh.

function Update () {
	var mesh : Mesh = GetComponent.<MeshFilter>().mesh;
	var vertices : Vector3[] = mesh.vertices;
	var normals : Vector3[] = mesh.normals;

for (var i = 0; i < vertices.Length; i++) vertices[i] += normals[i] * Mathf.Sin(Time.time);

mesh.vertices = vertices; }
using UnityEngine;
using System.Collections;

public class ExampleClass : MonoBehaviour { void Update() { Mesh mesh = GetComponent<MeshFilter>().mesh; Vector3[] vertices = mesh.vertices; Vector3[] normals = mesh.normals; int i = 0; while (i < vertices.Length) { vertices[i] += normals[i] * Mathf.Sin(Time.time); i++; } mesh.vertices = vertices; } }

3. Continously changing the mesh triangles and vertices:
a) call Clear to start fresh
b) assign vertices and other attributes
c) assign triangle indices.

It is important to call Clear before assigning new vertices or triangles. Unity always checks the supplied triangle indices whether they don't reference out of bounds vertices. Calling Clear then assigning vertices then triangles makes sure you never have out of bounds data.

#pragma strict
var newVertices: Vector3[];
var newUV: Vector2[];
var newTriangles: int[];
function Start() {
	var mesh: Mesh = GetComponent.<MeshFilter>().mesh;
	mesh.Clear();
	// Do some calculations...
	mesh.vertices = newVertices;
	mesh.uv = newUV;
	mesh.triangles = newTriangles;
}
using UnityEngine;

public class ExampleClass : MonoBehaviour {

Vector3[] newVertices; Vector2[] newUV; int[] newTriangles; void Start() { Mesh mesh = GetComponent<MeshFilter>().mesh;

mesh.Clear(); // Do some calculations... mesh.vertices = newVertices; mesh.uv = newUV; mesh.triangles = newTriangles; } }

Variables

bindposesThe bind poses. The bind pose at each index refers to the bone with the same index.
blendShapeCountReturns BlendShape count on this mesh.
boneWeightsThe bone weights of each vertex.
boundsThe bounding volume of the mesh.
colorsVertex colors of the mesh.
colors32Vertex colors of the mesh.
isReadableReturns state of the Read/Write Enabled checkbox when model was imported.
normalsThe normals of the mesh.
subMeshCountThe number of submeshes. Every material has a separate triangle list.
tangentsThe tangents of the mesh.
trianglesAn array containing all triangles in the mesh.
uvThe base texture coordinates of the mesh.
uv2The second texture coordinate set of the mesh, if present.
uv3The third texture coordinate set of the mesh, if present.
uv4The fourth texture coordinate set of the mesh, if present.
vertexCountReturns the number of vertices in the mesh (Read Only).
verticesReturns a copy of the vertex positions or assigns a new vertex positions array.

Constructors

MeshCreates an empty mesh.

Public Functions

AddBlendShapeFrameAdds a new blend shape frame.
ClearClears all vertex data and all triangle indices.
ClearBlendShapesClears all blend shapes from Mesh.
CombineMeshesCombines several meshes into this mesh.
GetBlendShapeFrameCountReturns the frame count for a blend shape.
GetBlendShapeFrameVerticesRetreives deltaVertices, deltaNormals and deltaTangents of a blend shape frame.
GetBlendShapeFrameWeightReturns the weight of a blend shape frame.
GetBlendShapeIndexReturns index of BlendShape by given name.
GetBlendShapeNameReturns name of BlendShape by given index.
GetIndicesReturns the index buffer for the submesh.
GetTopologyGets the topology of a submesh.
GetTrianglesReturns the triangle list for the submesh.
GetUVsGet the UVs for a given chanel.
MarkDynamicOptimize mesh for frequent updates.
OptimizeOptimizes the mesh for display.
RecalculateBoundsRecalculate the bounding volume of the mesh from the vertices.
RecalculateNormalsRecalculates the normals of the mesh from the triangles and vertices.
SetColorsVertex colors of the mesh.
SetIndicesSets the index buffer for the submesh.
SetNormalsSet the normals of the mesh.
SetTangentsSet the tangents of the mesh.
SetTrianglesSets the triangle list for the submesh.
SetUVsSet the UVs for a given chanel.
SetVerticesAssigns a new vertex positions array.
UploadMeshDataUpload previously done mesh modifications to the graphics API.

Inherited members

Variables

hideFlagsShould the object be hidden, saved with the scene or modifiable by the user?
nameThe name of the object.

Public Functions

GetInstanceIDReturns the instance id of the object.
ToStringReturns the name of the game object.

Static Functions

DestroyRemoves a gameobject, component or asset.
DestroyImmediateDestroys the object obj immediately. You are strongly recommended to use Destroy instead.
DontDestroyOnLoadMakes the object target not be destroyed automatically when loading a new scene.
FindObjectOfTypeReturns the first active loaded object of Type type.
FindObjectsOfTypeReturns a list of all active loaded objects of Type type.
InstantiateReturns a copy of the object original.

Operators

boolDoes the object exist?
operator !=Compares if two objects refer to a different object.
operator ==Compares two object references to see if they refer to the same object.