Esempio n. 1
0
        private Vector3 GetInterpPathV3()
        {
            float t = currentPercentage - pathWeight[pathWeight.Length - 1];

            if (t >= pathWeight[currentStep])
            {
                pathWeight[pathWeight.Length - 1] += pathWeight[currentStep];
                t -= pathWeight[currentStep];
                ++currentStep;
            }

            t /= pathWeight[currentStep];
            switch (pathType)
            {
            case PathType.Linear:
                return(Vector3.Lerp(pathNodes[LimitRangeInt(currentStep, pathNodes.Length - 1)],
                                    pathNodes[LimitRangeInt(currentStep + 1, pathNodes.Length - 1)], t)); // 线性插值

            case PathType.CatmullRom:
                return(TweenMath.CatmullRomPoint(pathNodes[LimitRangeInt(currentStep - 1, pathNodes.Length - 1)],
                                                 pathNodes[LimitRangeInt(currentStep, pathNodes.Length - 1)],
                                                 pathNodes[LimitRangeInt(currentStep + 1, pathNodes.Length - 1)],
                                                 pathNodes[LimitRangeInt(currentStep + 2, pathNodes.Length - 1)], t));

            default:
                return(Vector3.zero);
            }
        }
Esempio n. 2
0
        void OnDrawGizmos() //画线
        {
#if UNITY_EDITOR
            Handles.color = DebugColor;
            Matrix4x4 mtx = GetCurveMatrix();
            Vector3   oldVector3 = Vector3.zero, nowVector3 = Vector3.zero;
            float     part = 20;
            for (int i = 0; i < localNodes.Count; i++)
            {
                if (i != localNodes.Count - 1 || isClosedLoop)
                {
                    oldVector3 = TweenMath.CatmullRomPoint(localNodes[LimitRangeInt(i - 1, localNodes.Count - 1)],
                                                           localNodes[LimitRangeInt(i, localNodes.Count - 1)],
                                                           localNodes[LimitRangeInt(i + 1, localNodes.Count - 1)],
                                                           localNodes[LimitRangeInt(i + 2, localNodes.Count - 1)], 0);
                    oldVector3 = mtx * ToVec4(oldVector3);
                    for (int j = 1; j <= part; j++)
                    {
                        nowVector3 = TweenMath.CatmullRomPoint(localNodes[LimitRangeInt(i - 1, localNodes.Count - 1)],
                                                               localNodes[LimitRangeInt(i, localNodes.Count - 1)],
                                                               localNodes[LimitRangeInt(i + 1, localNodes.Count - 1)],
                                                               localNodes[LimitRangeInt(i + 2, localNodes.Count - 1)], j / part);
                        nowVector3 = mtx * ToVec4(nowVector3);
                        Handles.DrawLine(oldVector3, nowVector3);
                        oldVector3 = nowVector3;
                    }
                }
            }
#endif
        }
Esempio n. 3
0
        private void InitPathWeight()
        {
            currentStep = 0;
            if (pathType == PathType.CatmullRom)
            {
                float part = 20;
                pathWeight = new float[pathNodes.Length];
                float   sum = 0;
                Vector3 oldVector3 = Vector3.zero, nowVector3 = Vector3.zero;
                for (int i = 0; i < pathNodes.Length - 1; i++)
                {
                    pathWeight[i] = 0; //此时保存长度
                    oldVector3    = TweenMath.CatmullRomPoint(pathNodes[LimitRangeInt(i - 1, pathNodes.Length - 1)],
                                                              pathNodes[LimitRangeInt(i, pathNodes.Length - 1)],
                                                              pathNodes[LimitRangeInt(i + 1, pathNodes.Length - 1)],
                                                              pathNodes[LimitRangeInt(i + 2, pathNodes.Length - 1)], 0);
                    for (int j = 1; j <= part; j++)
                    {
                        nowVector3 = TweenMath.CatmullRomPoint(pathNodes[LimitRangeInt(i - 1, pathNodes.Length - 1)],
                                                               pathNodes[LimitRangeInt(i, pathNodes.Length - 1)],
                                                               pathNodes[LimitRangeInt(i + 1, pathNodes.Length - 1)],
                                                               pathNodes[LimitRangeInt(i + 2, pathNodes.Length - 1)], j / part);
                        pathWeight[i] += Vector3.Distance(oldVector3, nowVector3);
                        oldVector3     = nowVector3;
                    }

                    sum += pathWeight[i];
                }

                for (int i = 0; i < pathWeight.Length - 1; i++)
                {
                    pathWeight[i] = pathWeight[i] / sum; // 插值百分比
                }

                pathWeight[pathWeight.Length - 1] = 0; //保存已插值完成的百分比
            }

            if (pathType == PathType.Linear)
            {
                // 根据距离分配时间
                pathWeight = new float[pathNodes.Length];
                float sum = 0;
                for (int i = 0; i < pathNodes.Length - 1; i++)
                {
                    pathWeight[i] = Vector3.Distance(pathNodes[i], pathNodes[i + 1]);
                    sum          += pathWeight[i];
                }

                for (int i = 0; i < pathWeight.Length - 1; i++)
                {
                    pathWeight[i] = pathWeight[i] / sum; // 插值百分比
                }

                pathWeight[pathWeight.Length - 1] = 0; //已插值完成的百分比
            }
        }
Esempio n. 4
0
        /// <summary>
        /// 插值入口
        /// </summary>
        /// <returns></returns>
        float GetInterp(float fromValue, float aimValue, float current, float total)
        {
            switch (easeType)
            {
            case Ease.InBack:
                return(TweenMath.InBack(fromValue, aimValue, current, total));

            case Ease.OutBack:
                return(TweenMath.OutBack(fromValue, aimValue, current, total));

            case Ease.InOutBack:
                return(TweenMath.InOutBack(fromValue, aimValue, current, total));

            case Ease.OutInBack:
                return(TweenMath.OutInBack(fromValue, aimValue, current, total));

            case Ease.InQuad:
                return(TweenMath.InQuad(fromValue, aimValue, current, total));

            case Ease.OutQuad:
                return(TweenMath.OutQuad(fromValue, aimValue, current, total));

            case Ease.InoutQuad:
                return(TweenMath.InoutQuad(fromValue, aimValue, current, total));

            case Ease.InCubic:
                return(TweenMath.InCubic(fromValue, aimValue, current, total));

            case Ease.OutCubic:
                return(TweenMath.OutCubic(fromValue, aimValue, current, total));

            case Ease.InoutCubic:
                return(TweenMath.InoutCubic(fromValue, aimValue, current, total));

            case Ease.InQuart:
                return(TweenMath.InQuart(fromValue, aimValue, current, total));

            case Ease.OutQuart:
                return(TweenMath.OutQuart(fromValue, aimValue, current, total));

            case Ease.InOutQuart:
                return(TweenMath.InOutQuart(fromValue, aimValue, current, total));

            case Ease.OutInQuart:
                return(TweenMath.OutInQuart(fromValue, aimValue, current, total));

            case Ease.InQuint:
                return(TweenMath.InQuint(fromValue, aimValue, current, total));

            case Ease.OutQuint:
                return(TweenMath.OutQuint(fromValue, aimValue, current, total));

            case Ease.InOutQuint:
                return(TweenMath.InOutQuint(fromValue, aimValue, current, total));

            case Ease.OutInQuint:
                return(TweenMath.OutInQuint(fromValue, aimValue, current, total));

            case Ease.InSine:
                return(TweenMath.InSine(fromValue, aimValue, current, total));

            case Ease.OutSine:
                return(TweenMath.OutSine(fromValue, aimValue, current, total));

            case Ease.InOutSine:
                return(TweenMath.InOutSine(fromValue, aimValue, current, total));

            case Ease.OutInSine:
                return(TweenMath.OutInSine(fromValue, aimValue, current, total));

            case Ease.InExpo:
                return(TweenMath.InExpo(fromValue, aimValue, current, total));

            case Ease.OutExpo:
                return(TweenMath.OutExpo(fromValue, aimValue, current, total));

            case Ease.InOutExpo:
                return(TweenMath.InOutExpo(fromValue, aimValue, current, total));

            case Ease.OutInExpo:
                return(TweenMath.OutInExpo(fromValue, aimValue, current, total));

            case Ease.InBounce:
                return(TweenMath.InBounce(fromValue, aimValue, current, total));

            case Ease.OutBounce:
                return(TweenMath.OutBounce(fromValue, aimValue, current, total));

            case Ease.InOutBounce:
                return(TweenMath.InOutBounce(fromValue, aimValue, current, total));

            case Ease.OutInBounce:
                return(TweenMath.OutInBounce(fromValue, aimValue, current, total));

            case Ease.Default:
                return(curve.Evaluate(current / total) * (aimValue - fromValue) + fromValue);

            // 线性
            default:
                return(Mathf.Lerp(fromValue, aimValue, current / total));
            }
        }