Esempio n. 1
0
        void ComputeWind()
        {
            Vector3 newWind;

            if (overrideWind != Vector3.zero)
            {
                newWind = overrideWind;
            }
            else // Procedural wind
            {
                for (int i = 0; i < 4; i++)
                {
                    randTimes[i] += Time.deltaTime * randSpeeds[i] * turbulenceSpeed;
                }

                Quaternion windDir = windOrientation;

                float x = -1f + Mathf.PerlinNoise(randTimes[0], 256f + randTimes[1]) * 2f;
                float y = -1f + Mathf.PerlinNoise(-randTimes[1], 55f + randTimes[2]) * 2f;
                float z = -1f + Mathf.PerlinNoise(-randTimes[3], 55f + randTimes[0]) * 2f;
                windDir *= Quaternion.Euler(new Vector3(0, y, 0) * changesPower);
                windDir  = Quaternion.Euler(x * (changesPower / 6f), windDir.eulerAngles.y, z * (changesPower / 6f));

                smoothWindOrient = FEngineering.SmoothDampRotation(smoothWindOrient, windDir, ref smoothWindOrientHelper, 1f - rapidness, Time.deltaTime);

                transform.rotation = smoothWindOrient;
                newWind            = smoothWindOrient * Vector3.forward;
            }

            // Additional turbulence
            smoothAddTurbulence = Vector3.SmoothDamp(smoothAddTurbulence, GetAddTurbulence() * additionalTurbulence, ref addTurbHelper, 0.05f, Mathf.Infinity, Time.deltaTime);

            // Smooth out
            smoothWind = Vector3.SmoothDamp(smoothWind, newWind, ref windVeloHelper, 0.1f, Mathf.Infinity, Time.deltaTime);

            for (int i = 7; i < 10; i++)
            {
                randTimes[i] += Time.deltaTime * randSpeeds[i] * turbulenceSpeed;
            }

            float turbulencedPower = power * 0.015f;

            turbulencedPower *= 0.5f + Mathf.PerlinNoise(randTimes[7] * 2f, 25 + randTimes[8] * 0.5f);

            finalAddTurbulence = smoothAddTurbulence * turbulencedPower;
            targetWind         = smoothWind * turbulencedPower;
        }
Esempio n. 2
0
 /// <summary> Smoothing rotation for _tc_bone with smooth damp method changing _tc_smoothRot variable in iteration towards _tc_targetRot </summary>
 Quaternion TailCalculations_SmoothRotationSmoothDamp(Quaternion from, Quaternion to, ref Quaternion velo, float speed)
 {
     return(FEngineering.SmoothDampRotation(from, to, ref velo, Mathf.LerpUnclamped(0.25f, 0.0001f, Mathf.Sqrt(Mathf.Sqrt(speed))), rateDelta));
 }