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398 行
15 KiB
398 行
15 KiB
using System;
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using UnityEngine;
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using UnityEngine.Rendering;
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using UnityEngine.Experimental.Rendering;
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using UnityEngine.Rendering.Universal;
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using WaterSystem.Data;
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using Object = UnityEngine.Object;
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using Random = UnityEngine.Random;
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namespace WaterSystem
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{
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[ExecuteAlways]
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public class Water : MonoBehaviour
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{
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// Singleton
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private static Water _instance;
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public static Water Instance
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{
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get
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{
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if (_instance == null)
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_instance = (Water)FindObjectOfType(typeof(Water));
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return _instance;
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}
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}
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// Script references
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private PlanarReflections _planarReflections;
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private bool _useComputeBuffer;
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public bool computeOverride;
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[SerializeField] RenderTexture _depthTex;
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public Texture bakedDepthTex;
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private Camera _depthCam;
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private Texture2D _rampTexture;
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[SerializeField]
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public Wave[] _waves;
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[SerializeField]
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private ComputeBuffer waveBuffer;
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private float _maxWaveHeight;
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private float _waveHeight;
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[SerializeField]
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public WaterSettingsData settingsData;
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[SerializeField]
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public WaterSurfaceData surfaceData;
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[SerializeField]
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private WaterResources resources;
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private static readonly int CameraRoll = Shader.PropertyToID("_CameraRoll");
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private static readonly int InvViewProjection = Shader.PropertyToID("_InvViewProjection");
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private static readonly int WaterDepthMap = Shader.PropertyToID("_WaterDepthMap");
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private static readonly int FoamMap = Shader.PropertyToID("_FoamMap");
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private static readonly int SurfaceMap = Shader.PropertyToID("_SurfaceMap");
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private static readonly int WaveHeight = Shader.PropertyToID("_WaveHeight");
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private static readonly int MaxWaveHeight = Shader.PropertyToID("_MaxWaveHeight");
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private static readonly int MaxDepth = Shader.PropertyToID("_MaxDepth");
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private static readonly int WaveCount = Shader.PropertyToID("_WaveCount");
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private static readonly int CubemapTexture = Shader.PropertyToID("_CubemapTexture");
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private static readonly int WaveDataBuffer = Shader.PropertyToID("_WaveDataBuffer");
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private static readonly int WaveData = Shader.PropertyToID("waveData");
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private static readonly int AbsorptionScatteringRamp = Shader.PropertyToID("_AbsorptionScatteringRamp");
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private static readonly int DepthCamZParams = Shader.PropertyToID("_VeraslWater_DepthCamParams");
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private void OnEnable()
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{
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if (!computeOverride)
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_useComputeBuffer = SystemInfo.supportsComputeShaders &&
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Application.platform != RuntimePlatform.WebGLPlayer &&
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Application.platform != RuntimePlatform.Android;
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else
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_useComputeBuffer = false;
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Init();
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RenderPipelineManager.beginCameraRendering += BeginCameraRendering;
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if(resources == null)
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{
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resources = Resources.Load("WaterResources") as WaterResources;
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}
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}
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private void OnDisable() {
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Cleanup();
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}
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void Cleanup()
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{
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//if(Application.isPlaying)
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//GerstnerWavesJobs.Cleanup();
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RenderPipelineManager.beginCameraRendering -= BeginCameraRendering;
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if (_depthCam)
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{
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_depthCam.targetTexture = null;
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SafeDestroy(_depthCam.gameObject);
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}
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if (_depthTex)
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{
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SafeDestroy(_depthTex);
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}
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waveBuffer?.Dispose();
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}
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private void BeginCameraRendering(ScriptableRenderContext src, Camera cam)
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{
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if (cam.cameraType == CameraType.Preview) return;
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var roll = cam.transform.localEulerAngles.z;
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Shader.SetGlobalFloat(CameraRoll, roll);
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Shader.SetGlobalMatrix(InvViewProjection,
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(GL.GetGPUProjectionMatrix(cam.projectionMatrix, false) * cam.worldToCameraMatrix).inverse);
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// Water matrix
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const float quantizeValue = 6.25f;
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const float forwards = 10f;
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const float yOffset = -0.25f;
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var newPos = cam.transform.TransformPoint(Vector3.forward * forwards);
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newPos.y = yOffset;
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newPos.x = quantizeValue * (int) (newPos.x / quantizeValue);
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newPos.z = quantizeValue * (int) (newPos.z / quantizeValue);
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var matrix = Matrix4x4.TRS(newPos + transform.position, Quaternion.identity, Vector3.one); // transform.localToWorldMatrix;
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foreach (var mesh in resources.defaultWaterMeshes)
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{
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Graphics.DrawMesh(mesh,
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matrix,
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resources.defaultSeaMaterial,
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gameObject.layer,
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cam,
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0,
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null,
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ShadowCastingMode.Off,
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true,
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null,
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LightProbeUsage.Off,
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null);
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}
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}
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private static void SafeDestroy(Object o)
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{
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if(Application.isPlaying)
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Destroy(o);
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else
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DestroyImmediate(o);
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}
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public void Init()
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{
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SetWaves();
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GenerateColorRamp();
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if (bakedDepthTex)
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{
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Shader.SetGlobalTexture(WaterDepthMap, bakedDepthTex);
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}
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if (!gameObject.TryGetComponent(out _planarReflections))
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{
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_planarReflections = gameObject.AddComponent<PlanarReflections>();
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}
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_planarReflections.hideFlags = HideFlags.HideAndDontSave | HideFlags.HideInInspector;
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_planarReflections.m_settings = settingsData.planarSettings;
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_planarReflections.enabled = settingsData.refType == ReflectionType.PlanarReflection;
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if(resources == null)
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{
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resources = Resources.Load("WaterResources") as WaterResources;
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}
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Invoke(nameof(CaptureDepthMap), 1.0f);
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}
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private void LateUpdate()
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{
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GerstnerWavesJobs.UpdateHeights();
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}
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public void FragWaveNormals(bool toggle)
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{
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var mat = GetComponent<Renderer>().sharedMaterial;
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if (toggle)
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mat.EnableKeyword("GERSTNER_WAVES");
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else
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mat.DisableKeyword("GERSTNER_WAVES");
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}
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private void SetWaves()
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{
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SetupWaves(surfaceData._customWaves);
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// set default resources
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Shader.SetGlobalTexture(FoamMap, resources.defaultFoamMap);
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Shader.SetGlobalTexture(SurfaceMap, resources.defaultSurfaceMap);
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_maxWaveHeight = 0f;
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foreach (var w in _waves)
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{
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_maxWaveHeight += w.amplitude;
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}
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_maxWaveHeight /= _waves.Length;
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_waveHeight = transform.position.y;
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Shader.SetGlobalFloat(WaveHeight, _waveHeight);
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Shader.SetGlobalFloat(MaxWaveHeight, _maxWaveHeight);
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Shader.SetGlobalFloat(MaxDepth, surfaceData._waterMaxVisibility);
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switch(settingsData.refType)
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{
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case ReflectionType.Cubemap:
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Shader.EnableKeyword("_REFLECTION_CUBEMAP");
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Shader.DisableKeyword("_REFLECTION_PROBES");
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Shader.DisableKeyword("_REFLECTION_PLANARREFLECTION");
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Shader.SetGlobalTexture(CubemapTexture, settingsData.cubemapRefType);
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break;
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case ReflectionType.ReflectionProbe:
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Shader.DisableKeyword("_REFLECTION_CUBEMAP");
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Shader.EnableKeyword("_REFLECTION_PROBES");
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Shader.DisableKeyword("_REFLECTION_PLANARREFLECTION");
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break;
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case ReflectionType.PlanarReflection:
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Shader.DisableKeyword("_REFLECTION_CUBEMAP");
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Shader.DisableKeyword("_REFLECTION_PROBES");
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Shader.EnableKeyword("_REFLECTION_PLANARREFLECTION");
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break;
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default:
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throw new ArgumentOutOfRangeException();
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}
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Shader.SetGlobalInt(WaveCount, _waves.Length);
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//GPU side
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if (_useComputeBuffer)
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{
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Shader.EnableKeyword("USE_STRUCTURED_BUFFER");
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if (waveBuffer == null)
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waveBuffer = new ComputeBuffer(10, (sizeof(float) * 6));
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waveBuffer.SetData(_waves);
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Shader.SetGlobalBuffer(WaveDataBuffer, waveBuffer);
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}
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else
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{
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Shader.DisableKeyword("USE_STRUCTURED_BUFFER");
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Shader.SetGlobalVectorArray(WaveData, GetWaveData());
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}
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//CPU side
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if(GerstnerWavesJobs.Initialized == false && Application.isPlaying)
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GerstnerWavesJobs.Init();
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}
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private Vector4[] GetWaveData()
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{
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var waveData = new Vector4[20];
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for (var i = 0; i < _waves.Length; i++)
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{
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waveData[i] = new Vector4(_waves[i].amplitude, _waves[i].direction, _waves[i].wavelength, _waves[i].onmiDir);
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waveData[i+10] = new Vector4(_waves[i].origin.x, _waves[i].origin.y, 0, 0);
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}
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return waveData;
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}
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private void SetupWaves(bool custom)
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{
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if(!custom)
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{
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//create basic waves based off basic wave settings
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var backupSeed = Random.state;
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Random.InitState(surfaceData.randomSeed);
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var basicWaves = surfaceData._basicWaveSettings;
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var a = basicWaves.amplitude;
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var d = basicWaves.direction;
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var l = basicWaves.wavelength;
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var numWave = basicWaves.numWaves;
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_waves = new Wave[numWave];
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var r = 1f / numWave;
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for (var i = 0; i < numWave; i++)
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{
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var p = Mathf.Lerp(0.5f, 1.5f, i * r);
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var amp = a * p * Random.Range(0.8f, 1.2f);
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var dir = d + Random.Range(-90f, 90f);
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var len = l * p * Random.Range(0.6f, 1.4f);
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_waves[i] = new Wave(amp, dir, len, Vector2.zero, false);
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Random.InitState(surfaceData.randomSeed + i + 1);
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}
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Random.state = backupSeed;
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}
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else
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{
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_waves = surfaceData._waves.ToArray();
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}
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}
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private void GenerateColorRamp()
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{
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if(_rampTexture == null)
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_rampTexture = new Texture2D(128, 4, GraphicsFormat.R8G8B8A8_SRGB, TextureCreationFlags.None);
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_rampTexture.wrapMode = TextureWrapMode.Clamp;
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var defaultFoamRamp = resources.defaultFoamRamp;
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var cols = new Color[512];
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for (var i = 0; i < 128; i++)
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{
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cols[i] = surfaceData._absorptionRamp.Evaluate(i / 128f);
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}
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for (var i = 0; i < 128; i++)
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{
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cols[i + 128] = surfaceData._scatterRamp.Evaluate(i / 128f);
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}
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for (var i = 0; i < 128; i++)
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{
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switch(surfaceData._foamSettings.foamType)
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{
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case 0: // default
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cols[i + 256] = defaultFoamRamp.GetPixelBilinear(i / 128f , 0.5f);
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break;
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case 1: // simple
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cols[i + 256] = defaultFoamRamp.GetPixelBilinear(surfaceData._foamSettings.basicFoam.Evaluate(i / 128f) , 0.5f);
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break;
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case 2: // custom
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cols[i + 256] = Color.black;
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break;
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}
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}
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_rampTexture.SetPixels(cols);
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_rampTexture.Apply();
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Shader.SetGlobalTexture(AbsorptionScatteringRamp, _rampTexture);
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////////////////
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////////////////////////////////////////Shoreline Depth Texture/////////////////////////////////////////////////
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////////////////////////////////////////////////////////////////////////////////////////////////////////////////
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[ContextMenu("Capture Depth")]
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public void CaptureDepthMap()
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{
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//Generate the camera
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if(_depthCam == null)
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{
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var go =
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new GameObject("depthCamera") {hideFlags = HideFlags.HideAndDontSave}; //create the cameraObject
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_depthCam = go.AddComponent<Camera>();
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}
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var additionalCamData = _depthCam.GetUniversalAdditionalCameraData();
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additionalCamData.renderShadows = false;
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additionalCamData.requiresColorOption = CameraOverrideOption.Off;
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additionalCamData.requiresDepthOption = CameraOverrideOption.Off;
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var t = _depthCam.transform;
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var depthExtra = 4.0f;
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t.position = Vector3.up * (transform.position.y + depthExtra);//center the camera on this water plane height
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t.up = Vector3.forward;//face the camera down
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_depthCam.enabled = true;
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_depthCam.orthographic = true;
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_depthCam.orthographicSize = 250;//hardcoded = 1k area - TODO
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_depthCam.nearClipPlane =0.01f;
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_depthCam.farClipPlane = surfaceData._waterMaxVisibility + depthExtra;
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_depthCam.allowHDR = false;
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_depthCam.allowMSAA = false;
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_depthCam.cullingMask = (1 << 10);
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//Generate RT
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if (!_depthTex)
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_depthTex = new RenderTexture(1024, 1024, 24, RenderTextureFormat.Depth, RenderTextureReadWrite.Linear);
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if (SystemInfo.graphicsDeviceType == GraphicsDeviceType.OpenGLES2 || SystemInfo.graphicsDeviceType == GraphicsDeviceType.OpenGLES3)
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{
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_depthTex.filterMode = FilterMode.Point;
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}
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_depthTex.wrapMode = TextureWrapMode.Clamp;
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_depthTex.name = "WaterDepthMap";
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//do depth capture
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_depthCam.targetTexture = _depthTex;
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_depthCam.Render();
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Shader.SetGlobalTexture(WaterDepthMap, _depthTex);
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// set depth bufferParams for depth cam(since it doesnt exist and only temporary)
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var _params = new Vector4(t.position.y, 250, 0, 0);
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//Vector4 zParams = new Vector4(1-f/n, f/n, (1-f/n)/f, (f/n)/f);//2015
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Shader.SetGlobalVector(DepthCamZParams, _params);
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/* #if UNITY_EDITOR
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Texture2D tex2D = new Texture2D(1024, 1024, TextureFormat.Alpha8, false);
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Graphics.CopyTexture(_depthTex, tex2D);
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byte[] image = tex2D.EncodeToPNG();
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System.IO.File.WriteAllBytes(Application.dataPath + "/WaterDepth.png", image);
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#endif*/
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_depthCam.enabled = false;
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_depthCam.targetTexture = null;
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}
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[Serializable]
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public enum DebugMode { none, stationary, screen };
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}
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}
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