衝突したメッシュの三角形における重心座標
この関数で3軸に沿った頂点データのいずれかを補完できます。
// Attach this script to a camera and it will // draw a debug line pointing outward from the normal function Update () { // Only if we hit something, do we continue var hit : RaycastHit; if (!Physics.Raycast (Camera.main.ScreenPointToRay(Input.mousePosition), hit)) return;
// Just in case, also make sure the collider also has a renderer // material and texture var meshCollider = hit.collider as MeshCollider; if (meshCollider == null || meshCollider.sharedMesh == null) return;
var mesh : Mesh = meshCollider.sharedMesh; var normals = mesh.normals; var triangles = mesh.triangles;
// Extract local space normals of the triangle we hit var n0 = normals[triangles[hit.triangleIndex * 3 + 0]]; var n1 = normals[triangles[hit.triangleIndex * 3 + 1]]; var n2 = normals[triangles[hit.triangleIndex * 3 + 2]]; // interpolate using the barycentric coordinate of the hitpoint var baryCenter = hit.barycentricCoordinate;
// Use barycentric coordinate to interpolate normal var interpolatedNormal = n0 * baryCenter.x + n1 * baryCenter.y + n2 * baryCenter.z; // normalize the interpolated normal interpolatedNormal = interpolatedNormal.normalized; // Transform local space normals to world space var hitTransform : Transform = hit.collider.transform; interpolatedNormal = hitTransform.TransformDirection(interpolatedNormal);
// Display with Debug.DrawLine Debug.DrawRay(hit.point, interpolatedNormal); }
using UnityEngine; using System.Collections;
public class ExampleClass : MonoBehaviour { void Update() { RaycastHit hit; if (!Physics.Raycast(Camera.main.ScreenPointToRay(Input.mousePosition), out hit)) return; MeshCollider meshCollider = hit.collider as MeshCollider; if (meshCollider == null || meshCollider.sharedMesh == null) return; Mesh mesh = meshCollider.sharedMesh; Vector3[] normals = mesh.normals; int[] triangles = mesh.triangles; Vector3 n0 = normals[triangles[hit.triangleIndex * 3 + 0]]; Vector3 n1 = normals[triangles[hit.triangleIndex * 3 + 1]]; Vector3 n2 = normals[triangles[hit.triangleIndex * 3 + 2]]; Vector3 baryCenter = hit.barycentricCoordinate; Vector3 interpolatedNormal = n0 * baryCenter.x + n1 * baryCenter.y + n2 * baryCenter.z; interpolatedNormal = interpolatedNormal.normalized; Transform hitTransform = hit.collider.transform; interpolatedNormal = hitTransform.TransformDirection(interpolatedNormal); Debug.DrawRay(hit.point, interpolatedNormal); } }