using UnityEngine; using System; using System.Collections.Generic; namespace UnityEditor.U2D.Animation { internal static class ModuleUtility { public static Vector3 GUIToWorld(Vector3 guiPosition) { return GUIToWorld(guiPosition, Vector3.forward, Vector3.zero); } public static Vector3 GUIToWorld(Vector3 guiPosition, Vector3 planeNormal, Vector3 planePos) { Vector3 worldPos = Handles.inverseMatrix.MultiplyPoint(guiPosition); if (Camera.current) { Ray ray = HandleUtility.GUIPointToWorldRay(guiPosition); planeNormal = Handles.matrix.MultiplyVector(planeNormal); planePos = Handles.matrix.MultiplyPoint(planePos); Plane plane = new Plane(planeNormal, planePos); float distance = 0f; if (plane.Raycast(ray, out distance)) { worldPos = Handles.inverseMatrix.MultiplyPoint(ray.GetPoint(distance)); } } return worldPos; } public static GUIContent[] ToGUIContentArray(string[] names) { return Array.ConvertAll(names, n => new GUIContent(n)); } public static Color CalculateNiceColor(int index, int numColors) { numColors = Mathf.Clamp(numColors, 1, int.MaxValue); int loops = index / numColors; index = index % 360; int hueAngleStep = 360 / numColors; float hueLoopOffset = hueAngleStep * 0.5f; float hue = index * hueAngleStep + loops * hueLoopOffset; return Color.HSVToRGB(Mathf.Repeat(hue, 360f) / 360f, 1f, 1f); } public static void UpdateLocalToWorldMatrices(List spriteBoneDataList, Matrix4x4 rootMatrix, ref Matrix4x4[] localToWorldMatrices) { if (localToWorldMatrices == null || localToWorldMatrices.Length != spriteBoneDataList.Count) localToWorldMatrices = new Matrix4x4[spriteBoneDataList.Count]; bool[] calculatedMatrix = new bool[spriteBoneDataList.Count]; var processedBoneCount = 0; while (processedBoneCount < spriteBoneDataList.Count) { int oldCount = processedBoneCount; for (var i = 0; i < spriteBoneDataList.Count; ++i) { if (calculatedMatrix[i]) continue; var sourceBone = spriteBoneDataList[i]; if (sourceBone.parentId != -1 && !calculatedMatrix[sourceBone.parentId]) continue; var localToWorldMatrix = Matrix4x4.identity; localToWorldMatrix.SetTRS(sourceBone.localPosition, sourceBone.localRotation, Vector3.one); if (sourceBone.parentId == -1) localToWorldMatrix = rootMatrix * localToWorldMatrix; else if (calculatedMatrix[sourceBone.parentId]) localToWorldMatrix = localToWorldMatrices[sourceBone.parentId] * localToWorldMatrix; localToWorldMatrices[i] = localToWorldMatrix; calculatedMatrix[i] = true; processedBoneCount++; } if (oldCount == processedBoneCount) throw new ArgumentException("Invalid hierarchy detected"); } } public static List CreateSpriteBoneData(UnityEngine.U2D.SpriteBone[] spriteBoneList, Matrix4x4 rootMatrix) { List spriteBoneDataList = new List(spriteBoneList.Length); foreach (var spriteBone in spriteBoneList) { spriteBoneDataList.Add(new SpriteBoneData() { parentId = spriteBone.parentId, localPosition = spriteBone.position, localRotation = spriteBone.rotation, depth = spriteBone.position.z, length = spriteBone.length }); } Matrix4x4[] localToWorldMatrices = null; UpdateLocalToWorldMatrices(spriteBoneDataList, rootMatrix, ref localToWorldMatrices); for (int i = 0; i < spriteBoneDataList.Count; ++i) { var spriteBoneData = spriteBoneDataList[i]; spriteBoneData.position = localToWorldMatrices[i].MultiplyPoint(Vector2.zero); spriteBoneData.endPosition = localToWorldMatrices[i].MultiplyPoint(Vector2.right * spriteBoneData.length); } return spriteBoneDataList; } } }