Dynamic creation of a mesh:

```
MeshFilter meshFilter = GetComponent();
Mesh mesh = meshFilter.sharedMesh;
if (mesh == null){
meshFilter.mesh = new Mesh();
mesh = meshFilter.sharedMesh;
}
Vector3 p0 = new Vector3(0,0,0);
Vector3 p1 = new Vector3(1,0,0);
Vector3 p2 = new Vector3(0,1,0);
Vector3 p3 = new Vector3(0,0,1);
// clear mesh of current data
mesh.Clear();
// set vertices
mesh.vertices = new Vector3[]{p0,p1,p2,p3};
// set
mesh.triangles = new int[]{
0,1,2,
0,2,3,
2,1,3,
0,3,1
};
mesh.RecalculateNormals();
mesh.RecalculateBounds();
mesh.Optimize();
```

Modifying existing vertices (would work similarly for faces):

```
// mesh.vertices returns a copy
Vector3[] vert_copy = mesh.vertices;
vert_copy[0] = new Vector3(10,11,12);
vert_copy[1] = new Vector3(13,14,15);
// reassign new vertices to mesh
mesh.vertices = vert_copy;
mesh.RecalculateNormals();
mesh.RecalculateBounds();
mesh.Optimize();
```

These calls get expensive when you recalculate the normals and the bounds. If your mesh will not physically interact with other meshes while "transforming" you can defer **RecalculateBounds()** until after the "transformation" is complete. Similarly, if you anticipate only small per-frame transformations to your mesh you could limit **RecalculateNormals()** to every other frame or every 300ms.