ベクトルが正規化され他のベクトルと直交するようにします
Normalizes normal.
Normalizes tangent and makes sure it is orthogonal to normal (that is, angle between them is 90 degrees).
関連項目: Normalize 関数
ベクトルが正規化され他のベクトルと直交するようにします
Normalizes normal.
Normalizes tangent and makes sure it is orthogonal to normal.
Normalizes binormal and makes sure it is orthogonal to both normal and tangent.
Points in space are usually specified with coordinates in the standard XYZ axis system. However, you
can interpret any three vectors as "axes" if they are normalized (ie, have a magnitude of 1) and are
orthogonal (ie, perpendicular to each other).
Creating your own coordinate axes is useful, say, if you want to scale a mesh
in arbitrary directions rather than just along the XYZ axes - you can transform the vertices
to your own coordinate system, scale them and then transform back. Often, a transformation like this will
be carried out along only one axis while the other two are either left as they are or treated equally.
For example, a stretching effect can be applied to a mesh by scaling up on one axis while scaling down
proportionally on the other two. This means that once the first axis vector is specified, it doesn't
greatly matter what the other two are as long as they are normalized and orthogonal. OrthoNormalize
can be used to ensure the first vector is normal and then generate two normalized, orthogonal vectors
for the other two axes.
using UnityEngine; using System.Collections;
public class ExampleClass : MonoBehaviour { public Vector3 stretchAxis; public float stretchFactor = 1.0F; private MeshFilter mf; private Vector3[] origVerts; private Vector3[] newVerts; private Vector3 basisA; private Vector3 basisB; private Vector3 basisC; void Start() { mf = GetComponent<MeshFilter>(); origVerts = mf.mesh.vertices; newVerts = new Vector3[origVerts.Length]; } void Update() { basisA = stretchAxis; Vector3.OrthoNormalize(ref basisA, ref basisB, ref basisC); Matrix4x4 toNewSpace = new Matrix4x4(); toNewSpace.SetRow(0, basisA); toNewSpace.SetRow(1, basisB); toNewSpace.SetRow(2, basisC); toNewSpace[3, 3] = 1.0F; Matrix4x4 scale = new Matrix4x4(); scale[0, 0] = stretchFactor; scale[1, 1] = 1.0F / stretchFactor; scale[2, 2] = 1.0F / stretchFactor; scale[3, 3] = 1.0F; Matrix4x4 fromNewSpace = toNewSpace.transpose; Matrix4x4 trans = toNewSpace * scale * fromNewSpace; int i = 0; while (i < origVerts.Length) { newVerts[i] = trans.MultiplyPoint3x4(origVerts[i]); i++; } mf.mesh.vertices = newVerts; } }
関連項目: Normalize 関数