IEnumerator GenerateSolidTexture()
{
int i = 0;
foreach (var tex in _generator.Generate(SideSize, SlicesPerDispatch, TextureInside))
{
Debug.Log("Loop " + i);
i++;
if (!tex.Done)
{
yield return(new WaitForSeconds(CooldownTime));
GetComponent <MeshRenderer>().material.SetTexture("_SolidTex", tex.SolidTexture);
}
else
{
if (CreateAsset)
{
var transformer = new RenderCubeToTexture3DTransformer(_unityThreadComputeShaderExecutorObject);
var tex3D = transformer.Transform(tex.SolidTexture, SideSize, SideSize);
GetComponent <MeshRenderer>().material.SetTexture("_SolidTex", tex3D);
MyAssetDatabase.CreateAndSaveAsset(tex3D, Path);
}
}
}
}
public static void CreateAndSave(UnaliasedMesh mesh, string path, int radius = 5, bool useKring = true)
{
MeshCurvatureDetailGenerator detailGenerator = new MeshCurvatureDetailGenerator();
var detail = detailGenerator.Generate(mesh, radius, useKring);
MyAssetDatabase.CreateAndSaveAsset(detail, path);
}
public void Start0()
{
var tonesCount = 5;
var levelsCount = 5;
TaskUtils.SetGlobalMultithreading(false);
var tones = TAMTone.CreateList(tonesCount, new Dictionary <int, TAMStrokeOrientation>()
{
{ 0, TAMStrokeOrientation.Horizontal },
{ 3, TAMStrokeOrientation.Vertical },
{ 5, TAMStrokeOrientation.Both }
});
var levels = TAMMipmapLevel.CreateList(levelsCount);
var fileManager = new TAMPackFileManager();
var soleImagesPack = fileManager.Load(@"C:\mgr\tmp\tam1\", tones, levels);
var generator = new TAMArrayGenerator();
var tex2DArray = generator.Generate(soleImagesPack, tones, levels);
var go = GameObject.CreatePrimitive(PrimitiveType.Plane);
var material = new Material(Shader.Find("Custom/Debug/TextureArrayLod"));
material.SetTexture("_MainTex", tex2DArray);
go.GetComponent <MeshRenderer>().material = material;
MyAssetDatabase.CreateAndSaveAsset(tex2DArray, "Assets/Generated/TAM1.asset");
}
public void Start()
{
var mesh = TorusGenerator.GenerateTorus(Radius1, Radius2, RadSeg, Sides);
var go = GameObject.CreatePrimitive(PrimitiveType.Cube);
go.GetComponent <MeshFilter>().mesh = mesh;
if (WriteToFile)
{
MyAssetDatabase.CreateAndSaveAsset(mesh, Path);
}
}
public ComputeBuffer CreateAndSave(string path, Mesh mesh, Dictionary <MyShaderBufferType, ComputeBuffer> createdBuffers)
{
var generator = new NPRAdjacencyBufferGenerator();
var detail = generator.GenerateTriangleAdjacencyBuffer(mesh);
var buffer = ScriptableObject.CreateInstance <ShaderBufferSE>();
buffer.Data = detail.SelectMany(c => c.ToArray()).ToArray();
MyAssetDatabase.CreateAndSaveAsset(buffer, path);
var computeBuffer = new ComputeBuffer(detail.Length, sizeof(float) * 3);
computeBuffer.SetData(buffer.Data);
return(computeBuffer);
}
public void Start()
{
Debug.Log(OriginalMesh.normals.Select(c => c.ToString()).Aggregate((a, b) => a + " " + b));
Debug.Log(OriginalMesh.vertices.Select(c => c.ToString()).Aggregate((a, b) => a + " " + b));
var newUvArray = new Vector2[OriginalMesh.uv.Length];
for (var i = 0; i < OriginalMesh.vertexCount; i++)
{
var vertexPosition = OriginalMesh.vertices[i];
var normal = OriginalMesh.normals[i];
var EPSILON = 0.0001f;
if ((normal - Vector3.up).magnitude < EPSILON)
{
newUvArray[i] = PlaceOnGrid(0, 3, GenerateUvOn2DSpace(new Vector2(vertexPosition.x, vertexPosition.z)));
}
else if ((normal - Vector3.down).magnitude < EPSILON)
{
newUvArray[i] = PlaceOnGrid(1, 3, GenerateUvOn2DSpace(new Vector2(vertexPosition.x, vertexPosition.z)));
}
else if ((normal - Vector3.left).magnitude < EPSILON)
{
newUvArray[i] = PlaceOnGrid(2, 3, GenerateUvOn2DSpace(new Vector2(vertexPosition.y, vertexPosition.z)));
}
else if ((normal - Vector3.right).magnitude < EPSILON)
{
newUvArray[i] = PlaceOnGrid(3, 3, GenerateUvOn2DSpace(new Vector2(vertexPosition.y, vertexPosition.z)));
}
else if ((normal - Vector3.back).magnitude < EPSILON)
{
newUvArray[i] = PlaceOnGrid(4, 3, GenerateUvOn2DSpace(new Vector2(vertexPosition.x, vertexPosition.y)));
}
if ((normal - Vector3.forward).magnitude < EPSILON)
{
newUvArray[i] = PlaceOnGrid(5, 3, GenerateUvOn2DSpace(new Vector2(vertexPosition.x, vertexPosition.y)));
}
}
var newMesh = new Mesh {
vertices = OriginalMesh.vertices, triangles = OriginalMesh.triangles, tangents = OriginalMesh.tangents, uv = newUvArray, normals = OriginalMesh.normals
};
newMesh.RecalculateBounds();
MyAssetDatabase.CreateAndSaveAsset(newMesh, $"Assets/NPRResources/{NewMeshName}.asset");
}
public ComputeBuffer CreateAndSave(string path, Mesh mesh, Dictionary <MyShaderBufferType, ComputeBuffer> createdBuffers)
{
var generator = new NPRPrincipalCurvatureBufferGenerator();
var array = generator.Generate(mesh);
var buffer = ScriptableObject.CreateInstance <ShaderBufferSE>();
buffer.Data = array;
MyAssetDatabase.CreateAndSaveAsset(buffer, path);
var computeBuffer = new ComputeBuffer(array.Length / 8, sizeof(float) * 8);
computeBuffer.SetData(buffer.Data);
return(computeBuffer);
}
public ComputeBuffer CreateAndSave(string path, Mesh mesh, Dictionary <MyShaderBufferType, ComputeBuffer> createdBuffers)
{
var bufferGenerator = new EdgeAngleBufferGenerator(_shaderExecutorObject);
var dataArray = bufferGenerator.Generate(mesh, createdBuffers[MyShaderBufferType.Adjacency]).Result;
var buffer = ScriptableObject.CreateInstance <ShaderBufferSE>();
buffer.Data = dataArray;
MyAssetDatabase.CreateAndSaveAsset(buffer, path);
var computeBuffer = new ComputeBuffer(dataArray.Length / 1, sizeof(float) * 1);
computeBuffer.SetData(buffer.Data);
return(computeBuffer);
}
public ComputeBuffer CreateAndSave(string path, Mesh mesh, Dictionary <MyShaderBufferType, ComputeBuffer> createdBuffers)
{
var generator = new NPRInterpolatedNormalsBufferGenerator();
var array = generator.Generate(mesh);
var buffer = ScriptableObject.CreateInstance <ShaderBufferSE>();
buffer.Data = array.SelectMany(c => c.ToArray()).ToArray();
MyAssetDatabase.CreateAndSaveAsset(buffer, path);
var floatsPerVertex = (3);
var computeBuffer = new ComputeBuffer(array.Length, sizeof(float) * floatsPerVertex);
computeBuffer.SetData(buffer.Data);
return(computeBuffer);
}
public void Start()
{
var sw = new MyStopWatch();
sw.StartSegment("TamIdGeneration");
TaskUtils.SetGlobalMultithreading(false);
var tonesCount = 5;
var levelsCount = 5;
var layersCount = 1;
var tamTones = TAMTone.CreateList(tonesCount, new Dictionary <int, TAMStrokeOrientation>()
{
{ 0, TAMStrokeOrientation.Horizontal },
{ 3, TAMStrokeOrientation.Vertical },
{ 5, TAMStrokeOrientation.Both }
});
var tamMipmapLevels = TAMMipmapLevel.CreateList(levelsCount);
var configuration = TamIdPackGenerationConfiguration
.GetDefaultTamIdConfiguration(tamTones, tamMipmapLevels, ExclusionZoneMultiplier, layersCount, StrokeImagePath, BlankImagePath);
ScaleStrokesGenerationConfiguration(configuration);
configuration.UseSmoothAlpha = SmoothAlpha;
var packGenerator = new TamIdPackGenerator();
var pack = packGenerator.GenerateTamPack(configuration, false, FindObjectOfType <ComputeShaderContainerGameObject>());
DrawDebugPlates(pack);
var fileManager = new TamIdPackFileManager();
Debug.Log("Sw: " + sw.CollectResults());
if (SaveToFile)
{
fileManager.Save(TemporaryImagesPath, tamTones, tamMipmapLevels, layersCount, pack);
var generator = new TamIdArrayGenerator();
var tex2DArray = generator.Generate(pack, tamTones, tamMipmapLevels, layersCount);
tex2DArray.wrapMode = TextureWrapMode.Repeat;
if (SmoothAlpha)
{
tex2DArray.filterMode = FilterMode.Trilinear;
}
MyAssetDatabase.CreateAndSaveAsset(tex2DArray, $"Assets/Generated/{AssetName}.asset");
}
}
public ComputeBuffer CreateAndSave(string path, Mesh mesh, Dictionary <MyShaderBufferType, ComputeBuffer> createdBuffers)
{
var bufferGenerator = new BarycentricCoordinatesBufferGenerator(
"npr_barycentricBufferGenerator_comp",
new UnityThreadComputeShaderExecutorObject());
var barycentricDataArray = bufferGenerator.Generate(mesh).Result;
var buffer = ScriptableObject.CreateInstance <ShaderBufferSE>();
buffer.Data = barycentricDataArray;
MyAssetDatabase.CreateAndSaveAsset(buffer, path);
var computeBuffer = new ComputeBuffer(barycentricDataArray.Length / 2, sizeof(float) * 2);
computeBuffer.SetData(buffer.Data);
return(computeBuffer);
}
public void Start3()
{
var length = 50;
float[,] heightArray = new float[length, length];
for (int x = 0; x < length; x++)
{
for (int y = 0; y < length; y++)
{
var ax = x / (float)length * 2 * Mathf.PI;
var ay = y / (float)length * 2 * Mathf.PI;
heightArray[x, y] = Mathf.Sin(ax) / 10;
}
}
var mesh = PlaneGenerator.CreatePlaneMesh(1, 1, heightArray);
MyAssetDatabase.CreateAndSaveAsset(mesh, "Assets/NPRResources/SimpleMesh1.asset");
}
public void Start()
{
TaskUtils.SetGlobalMultithreading(false);
var generator = new UniqueVertexArrayBufferGenerator("npr_uniqueVertexGenerator_comp", new UnityThreadComputeShaderExecutorObject());
var mesh = GetComponent <MeshFilter>().mesh;
var verticesArray = generator.Generate(mesh).Result;
var newMesh = new Mesh();
newMesh.indexFormat = UnityEngine.Rendering.IndexFormat.UInt32;
newMesh.vertices = Enumerable.Range(0, mesh.triangles.Length)
.Select(c => new Vector3(verticesArray[c * 3 + 0], verticesArray[c * 3 + 1], verticesArray[c * 3 + 2])).ToArray();
newMesh.triangles = Enumerable.Range(0, mesh.triangles.Length).ToArray();
newMesh.RecalculateNormals();
newMesh.RecalculateTangents();
newMesh.RecalculateBounds();
MyAssetDatabase.CreateAndSaveAsset(newMesh, TargetPath);
//GetComponent<MeshFilter>().mesh = newMesh;
//Debug.Log("Created asset at "+TargetPath);
}
private ShaderBufferSE RetriveShaderBuffer(MyShaderBufferType type)
{
ShaderBufferSE shaderBuffer = null;
var bufferAssetName = $"{BaseName}.{type.Details().BufferFileSuffix}";
if (Application.isEditor)
{
var path = $"Assets/NPRResources/BuffersCache/{bufferAssetName}.asset";
shaderBuffer = MyAssetDatabase.LoadAssetAtPath <ShaderBufferSE>(path);
Preconditions.Assert(shaderBuffer != null, $"Cannot find buffer of path " + path);
}
else
{
var listing = FindObjectOfType <MyBufferCacheAssetListingGO>();
Preconditions.Assert(listing != null, "Cannot find object of type MyBufferCacheAssetListingGO");
shaderBuffer = listing.RetriveAssetOfName(bufferAssetName) as ShaderBufferSE;
Preconditions.Assert(shaderBuffer != null, $"Cannot find buffer of name " + bufferAssetName);
}
return(shaderBuffer);
}
void Start()
{
instance = this;
}
public void Start()
{
var newMesh = CombineMeshes(Mesh1, Mesh2);
MyAssetDatabase.CreateAndSaveAsset(newMesh, OutPath);
}
