public void GenerateAsync(bool listCommand = true) { clusterBuffer = new NativeArray <CullBox>(property.clusterCount, Allocator.Persistent, NativeArrayOptions.UninitializedMemory); pointsBuffer = new NativeArray <Point>(property.clusterCount * PipelineBaseBuffer.CLUSTERCLIPCOUNT, Allocator.Persistent, NativeArrayOptions.UninitializedMemory); indicesBuffer = new NativeArray <int>(property.clusterCount, Allocator.Persistent, NativeArrayOptions.UninitializedMemory); NativeList <ulong> pointerContainer = SceneController.pointerContainer; pointerContainer.AddCapacityTo(pointerContainer.Length + indicesBuffer.Length); CullBox * clusterData = clusterBuffer.Ptr(); Point * verticesData = pointsBuffer.Ptr(); const string infosPath = "Assets/BinaryData/MapInfos/"; const string pointsPath = "Assets/BinaryData/MapPoints/"; MStringBuilder sb = new MStringBuilder(pointsPath.Length + property.name.Length + ".txt".Length); allStrings[0] = infosPath; allStrings[1] = property.name; allStrings[2] = ".txt"; sb.Combine(allStrings); using (BinaryReader reader = new BinaryReader(File.Open(sb.str, FileMode.Open))) { byte[] bytes = reader.ReadBytes((int)reader.BaseStream.Length); fixed(byte *b = bytes) { UnsafeUtility.MemCpy(clusterData, b, bytes.Length); } } allStrings[0] = pointsPath; sb.Combine(allStrings); using (BinaryReader reader = new BinaryReader(File.Open(sb.str, FileMode.Open))) { byte[] bytes = reader.ReadBytes((int)reader.BaseStream.Length); fixed(byte *b = bytes) { UnsafeUtility.MemCpy(verticesData, b, bytes.Length); } } int *indicesPtr = indicesBuffer.Ptr(); LoadingCommandQueue commandQueue = SceneController.commandQueue; for (int i = 0; i < indicesBuffer.Length; ++i) { indicesPtr[i] = pointerContainer.Length; pointerContainer.Add((ulong)(indicesPtr + i)); } LoadTextures(); propertiesPool = SceneController.commonData.GetPropertyIndex(property.properties.Length); uint *poolPtr = propertiesPool.Ptr(); for (int i = 0; i < pointsBuffer.Length; ++i) { verticesData[i].objIndex = poolPtr[verticesData[i].objIndex]; } if (listCommand) { lock (commandQueue) { commandQueue.Queue(GenerateRun()); } } }
public static void Dispose() { singletonReady = false; PipelineFunctions.Dispose(baseBuffer); pointerContainer.Dispose(); commandQueue = null; commonData.avaiableProperties.Dispose(); commonData.avaiableTexs.Dispose(); commonData.avaiableLightmap.Dispose(); commonData.texCopyBuffer.Dispose(); commonData.lightmapCopyBuffer.Dispose(); commonData.propertyBuffer.Dispose(); commonData.texDict.Clear(); commonData.lightmapDict.Clear(); commonData.terrainDrawStreaming.Dispose(); UnityEngine.Object.DestroyImmediate(commonData.terrainMaterial); UnityEngine.Object.DestroyImmediate(commonData.terrainMaterial); UnityEngine.Object.DestroyImmediate(commonData.lightmapArray); UnityEngine.Object.DestroyImmediate(commonData.texArray); addList.Dispose(); foreach (var i in commonData.allTempBuffers.Values) { i.Dispose(); } }
public void Update(LoadingCommandQueue commandQueue) { lock (commandQueue) { commandQueue.Run(); } }
public static void Awake(PipelineResources resources, int resolution, int texArrayCapacity, int propertyCapacity, string mapResources) { SceneController.resolution = resolution; singletonReady = true; SceneController.resources = resources; addList = new NativeList<ulong>(10, Allocator.Persistent); baseBuffer = new PipelineBaseBuffer(); clusterResources = Resources.Load<ClusterMatResources>("MapMat/" + mapResources); int clusterCount = 0; allScenes = new List<SceneStreaming>(clusterResources.clusterProperties.Count); foreach (var i in clusterResources.clusterProperties) { clusterCount += i.clusterCount; allScenes.Add(new SceneStreaming(i)); } PipelineFunctions.InitBaseBuffer(baseBuffer, clusterResources, mapResources, clusterCount); pointerContainer = new NativeList<ulong>(clusterCount, Allocator.Persistent); commandQueue = new LoadingCommandQueue(); RenderTextureDescriptor desc = new RenderTextureDescriptor { autoGenerateMips = false, bindMS = false, colorFormat = RenderTextureFormat.ARGB32, depthBufferBits = 0, dimension = TextureDimension.Tex2DArray, enableRandomWrite = false, height = resolution, width = resolution, memoryless = RenderTextureMemoryless.None, msaaSamples = 1, vrUsage = VRTextureUsage.None, volumeDepth = texArrayCapacity, shadowSamplingMode = ShadowSamplingMode.None, sRGB = false, useMipMap = false }; commonData = new SceneCommonData { texDict = new Dictionary<string, SceneCommonData.TextureIdentifier>(), avaiableProperties = new NativeList<int>(propertyCapacity, Allocator.Persistent), avaiableTexs = new NativeList<int>(texArrayCapacity, Allocator.Persistent), texCopyBuffer = new ComputeBuffer(resolution * resolution, sizeof(int)), propertyBuffer = new ComputeBuffer(propertyCapacity, sizeof(PropertyValue)), copyTextureMat = new Material(resources.shaders.copyShader), texArray = new RenderTexture(desc), clusterMaterial = new Material(resources.shaders.clusterRenderShader), terrainMaterial = new Material(resources.shaders.terrainShader), terrainDrawStreaming = new TerrainDrawStreaming(100, 16, resources.shaders.terrainCompute) }; for (int i = 0; i < propertyCapacity; ++i) { commonData.avaiableProperties.Add(i); } for (int i = 0; i < texArrayCapacity; ++i) { commonData.avaiableTexs.Add(i); } }
public void GenerateAsync(bool listCommand = true) { clusterBuffer = new NativeArray <CullBox>(property.clusterCount, Allocator.Persistent, NativeArrayOptions.UninitializedMemory); pointsBuffer = new NativeArray <float3>(property.clusterCount * PipelineBaseBuffer.CLUSTERCLIPCOUNT, Allocator.Persistent, NativeArrayOptions.UninitializedMemory); indicesBuffer = new NativeArray <int>(property.clusterCount, Allocator.Persistent, NativeArrayOptions.UninitializedMemory); NativeList <ulong> pointerContainer = SceneController.pointerContainer; pointerContainer.AddCapacityTo(pointerContainer.Length + indicesBuffer.Length); CullBox * clusterData = clusterBuffer.Ptr(); float3 * verticesData = pointsBuffer.Ptr(); const string infosPath = "Assets/BinaryData/MapInfos/"; const string pointsPath = "Assets/BinaryData/MapPoints/"; MStringBuilder sb = new MStringBuilder(pointsPath.Length + property.name.Length + ".mpipe".Length); allStrings[0] = infosPath; allStrings[1] = property.name; allStrings[2] = ".mpipe"; sb.Combine(allStrings); // FileStream fileStream = new FileStream(sb.str, FileMode.Open, FileAccess.Read); using (FileStream reader = new FileStream(sb.str, FileMode.Open, FileAccess.Read)) { int length = (int)reader.Length; byte[] bytes = GetByteArray(length); reader.Read(bytes, 0, length); fixed(byte *b = bytes) { UnsafeUtility.MemCpy(clusterData, b, length); } } allStrings[0] = pointsPath; sb.Combine(allStrings); using (FileStream reader = new FileStream(sb.str, FileMode.Open, FileAccess.Read)) { int length = (int)reader.Length; byte[] bytes = GetByteArray(length); reader.Read(bytes, 0, length); fixed(byte *b = bytes) { UnsafeUtility.MemCpy(verticesData, b, length); } } int *indicesPtr = indicesBuffer.Ptr(); LoadingCommandQueue commandQueue = LoadingThread.commandQueue; for (int i = 0; i < indicesBuffer.Length; ++i) { indicesPtr[i] = pointerContainer.Length; pointerContainer.Add((ulong)(indicesPtr + i)); } if (listCommand) { lock (commandQueue) { commandQueue.Queue(GenerateRun()); } } }
public void Init() { if (current != null) { Debug.LogError("Loading Thread should be singleton!"); return; } current = this; isRunning = true; resetEvent = new AutoResetEvent(false); thread = new Thread(Run); thread.Start(); commandQueue = new LoadingCommandQueue(); }
public void GenerateAsync(bool listCommand = true) { clusterBuffer = new NativeArray <Cluster>(property.clusterCount, Allocator.Persistent, NativeArrayOptions.UninitializedMemory); pointsBuffer = new NativeArray <Point>(property.clusterCount * PipelineBaseBuffer.CLUSTERCLIPCOUNT, Allocator.Persistent, NativeArrayOptions.UninitializedMemory); Cluster * clusterData = clusterBuffer.Ptr(); Point * verticesData = pointsBuffer.Ptr(); const string infosPath = "Assets/BinaryData/MapInfos/"; const string pointsPath = "Assets/BinaryData/MapPoints/"; MStringBuilder sb = new MStringBuilder(pointsPath.Length + property.name.Length + ".mpipe".Length); allStrings[0] = infosPath; allStrings[1] = property.name; allStrings[2] = ".mpipe"; sb.Combine(allStrings); // FileStream fileStream = new FileStream(sb.str, FileMode.Open, FileAccess.Read); using (FileStream reader = new FileStream(sb.str, FileMode.Open, FileAccess.Read)) { int length = (int)reader.Length; byte[] bytes = GetByteArray(length); reader.Read(bytes, 0, length); fixed(byte *b = bytes) { UnsafeUtility.MemCpy(clusterData, b, length); } } allStrings[0] = pointsPath; sb.Combine(allStrings); using (FileStream reader = new FileStream(sb.str, FileMode.Open, FileAccess.Read)) { int length = (int)reader.Length; byte[] bytes = GetByteArray(length); reader.Read(bytes, 0, length); fixed(byte *b = bytes) { UnsafeUtility.MemCpy(verticesData, b, length); } } LoadingCommandQueue commandQueue = LoadingThread.commandQueue; if (listCommand) { lock (commandQueue) { commandQueue.Queue(GenerateRun()); } } }
public static void Dispose() { singletonReady = false; PipelineFunctions.Dispose(baseBuffer); pointerContainer.Dispose(); commandQueue = null; commonData.avaiableProperties.Dispose(); commonData.avaiableTexs.Dispose(); commonData.texCopyBuffer.Dispose(); commonData.propertyBuffer.Dispose(); commonData.texDict.Clear(); commonData.texArray.Release(); commonData.terrainDrawStreaming.Dispose(); UnityEngine.Object.DestroyImmediate(commonData.terrainMaterial); UnityEngine.Object.DestroyImmediate(commonData.copyTextureMat); addList.Dispose(); }
public void Awake(MonoBehaviour behavior) { current = this; addList = new NativeList <ulong>(10, Allocator.Persistent); this.behavior = behavior; baseBuffer = new PipelineBaseBuffer(); clusterResources = Resources.Load <ClusterMatResources>("MapMat/" + mapResources); int clusterCount = 0; allScenes = new List <SceneStreaming>(clusterResources.clusterProperties.Count); foreach (var i in clusterResources.clusterProperties) { clusterCount += i.clusterCount; allScenes.Add(new SceneStreaming(i)); } PipelineFunctions.InitBaseBuffer(baseBuffer, clusterResources, mapResources, clusterCount); pointerContainer = new NativeList <ulong>(clusterCount, Allocator.Persistent); commandQueue = new LoadingCommandQueue(); RenderTextureDescriptor desc = new RenderTextureDescriptor { autoGenerateMips = false, bindMS = false, colorFormat = RenderTextureFormat.ARGB32, depthBufferBits = 0, dimension = TextureDimension.Tex2DArray, enableRandomWrite = false, height = resolution, width = resolution, memoryless = RenderTextureMemoryless.None, msaaSamples = 1, vrUsage = VRTextureUsage.None, volumeDepth = texArrayCapacity, shadowSamplingMode = ShadowSamplingMode.None, sRGB = false, useMipMap = false }; commonData = new SceneCommonData { texDict = new Dictionary <string, SceneCommonData.TextureIdentifier>(), avaiableProperties = new NativeList <int>(propertyCapacity, Allocator.Persistent), avaiableTexs = new NativeList <int>(texArrayCapacity, Allocator.Persistent), texCopyBuffer = new ComputeBuffer(resolution * resolution, sizeof(int)), propertyBuffer = new ComputeBuffer(propertyCapacity, sizeof(PropertyValue)), copyTextureMat = new Material(RenderPipeline.current.resources.copyShader), texArray = new RenderTexture(desc), clusterMaterial = new Material(RenderPipeline.current.resources.clusterRenderShader), terrainMaterial = new Material(RenderPipeline.current.resources.terrainShader), terrainDrawStreaming = new TerrainDrawStreaming(100, 16, RenderPipeline.current.resources.terrainCompute) }; commonData.clusterMaterial.SetBuffer(ShaderIDs._PropertiesBuffer, commonData.propertyBuffer); commonData.clusterMaterial.SetTexture(ShaderIDs._MainTex, commonData.texArray); commonData.copyTextureMat.SetVector("_TextureSize", new Vector4(resolution, resolution)); commonData.copyTextureMat.SetBuffer("_TextureBuffer", commonData.texCopyBuffer); for (int i = 0; i < propertyCapacity; ++i) { commonData.avaiableProperties.Add(i); } for (int i = 0; i < texArrayCapacity; ++i) { commonData.avaiableTexs.Add(i); } testNodeArray = new NativeList <ulong>(terrainTransforms.Length, Allocator.Persistent); foreach (var i in terrainTransforms) { TerrainQuadTree.QuadTreeNode *testNode = (TerrainQuadTree.QuadTreeNode *)UnsafeUtility.Malloc(sizeof(TerrainQuadTree.QuadTreeNode), 16, Allocator.Persistent); testNode->listPosition = -1; ref TerrainPanel panel = ref testNode->panel; if (i.localScale.x > 1.1f) { panel.edgeFlag = 0; } else { panel.edgeFlag = 15; } panel.extent = i.localScale * 0.5f; panel.position = i.position; panel.textureIndex = 0; panel.heightMapIndex = 0; testNodeArray.Add((ulong)testNode); }