Exemple #1
0
    public static void CreateMesh(
        NPVoxModel model,
        Mesh mesh,
        Vector3 cubeSize,
        Vector3 NormalVariance,
        int NormalVarianceSeed         = 0,
        NPVoxOptimization optimization = NPVoxOptimization.OFF,
        NPVoxNormalMode NormalMode     = NPVoxNormalMode.SMOOTH,
        int BloodColorIndex            = 0,
        NPVoxFaces loop     = null,
        NPVoxFaces cutout   = null,
        NPVoxFaces include  = null,
        int MinVertexGroups = 1,
        NPVoxNormalMode[] NormalModePerVoxelGroup = null,
        NPVoxNormalProcessorList normalProcessors = null
        )
    {
        bool hasVoxelGroups   = model.HasVoxelGroups();
        var  vertices         = new Vector3[model.NumVoxels * 8];
        byte vertexGroupCount = model.NumVoxelGroups;
        var  triangles        = new int[vertexGroupCount, model.NumVoxels * 36];

        var normals  = new Vector3[model.NumVoxels * 8];
        var tangents = new Vector4[model.NumVoxels * 8];
        var colors   = new Color[model.NumVoxels * 8];

        var tmp = new NPVoxMeshTempData[model.NumVoxels];

        int currentVertexIndex   = 0;
        var currentTriangleIndex = new int[vertexGroupCount];

        for (int i = 0; i < vertexGroupCount; i++)
        {
            currentTriangleIndex[i] = 0;
        }

        UnityEngine.Random.InitState(NormalVarianceSeed);

        if (loop == null)
        {
            loop = new NPVoxFaces();
        }

        if (include == null)
        {
            include = new NPVoxFaces(1, 1, 1, 1, 1, 1);
        }

        NPVoxBox voxelsToInclude = model.BoundingBox;
        Vector3  cutoutOffset    = Vector3.zero;

        if (cutout != null)
        {
            Vector3 originalCenter = voxelsToInclude.SaveCenter;
            voxelsToInclude.Left    = (sbyte)Mathf.Abs(cutout.Left);
            voxelsToInclude.Down    = (sbyte)Mathf.Abs(cutout.Down);
            voxelsToInclude.Back    = (sbyte)Mathf.Abs(cutout.Back);
            voxelsToInclude.Right   = (sbyte)(voxelsToInclude.Right - (sbyte)Mathf.Abs(cutout.Right));
            voxelsToInclude.Up      = (sbyte)(voxelsToInclude.Up - (sbyte)Mathf.Abs(cutout.Up));
            voxelsToInclude.Forward = (sbyte)(voxelsToInclude.Forward - (sbyte)Mathf.Abs(cutout.Forward));
            cutoutOffset            = Vector3.Scale(originalCenter - voxelsToInclude.SaveCenter, cubeSize);
        }

        NPVoxToUnity npVoxToUnity = new NPVoxToUnity(model, cubeSize);
        Vector3      size         = new Vector3(
            voxelsToInclude.Size.X * cubeSize.x,
            voxelsToInclude.Size.Y * cubeSize.y,
            voxelsToInclude.Size.Z * cubeSize.z
            );

        NPVoxBox voxelNormalNeighbours = new NPVoxBox(new NPVoxCoord(-1, -1, -1), new NPVoxCoord(1, 1, 1));

        // Collect temporary data to use for model generation
        int voxIndex = 0;

        foreach (NPVoxCoord voxCoord in voxelsToInclude.Enumerate())
        {
            if (model.HasVoxel(voxCoord))
            {
                tmp[voxIndex] = new NPVoxMeshTempData();

                tmp[voxIndex].loop    = loop;
                tmp[voxIndex].cutout  = cutout;
                tmp[voxIndex].include = include;

                // Compute voxel center
                tmp[voxIndex].voxelCenter = npVoxToUnity.ToUnityPosition(voxCoord) + cutoutOffset;
                tmp[voxIndex].voxCoord    = voxCoord;

                tmp[voxIndex].voxToUnity = npVoxToUnity;

                // Determine vertex group index
                tmp[voxIndex].vertexGroupIndex = 0;
                if (hasVoxelGroups)
                {
                    tmp[voxIndex].vertexGroupIndex = model.GetVoxelGroup(voxCoord);
                }

                // Determine normal Mode
                if (NormalModePerVoxelGroup != null && NormalModePerVoxelGroup.Length > tmp[voxIndex].vertexGroupIndex)
                {
                    tmp[voxIndex].normalMode = NormalModePerVoxelGroup[tmp[voxIndex].vertexGroupIndex];
                }
                else
                {
                    tmp[voxIndex].normalMode = NormalMode;
                }

                // do we have this side
                tmp[voxIndex].hasLeft    = !model.HasVoxel(model.LoopCoord(voxCoord + NPVoxCoord.LEFT, loop));
                tmp[voxIndex].hasRight   = !model.HasVoxel(model.LoopCoord(voxCoord + NPVoxCoord.RIGHT, loop));
                tmp[voxIndex].hasDown    = !model.HasVoxel(model.LoopCoord(voxCoord + NPVoxCoord.DOWN, loop));
                tmp[voxIndex].hasUp      = !model.HasVoxel(model.LoopCoord(voxCoord + NPVoxCoord.UP, loop));
                tmp[voxIndex].hasForward = !model.HasVoxel(model.LoopCoord(voxCoord + NPVoxCoord.FORWARD, loop));
                tmp[voxIndex].hasBack    = !model.HasVoxel(model.LoopCoord(voxCoord + NPVoxCoord.BACK, loop));

                // do we actually want to include this side in our mesh
                // NOTE: cutout < 0 means we still render the mesh even though it is cutout
                //       cutout > 0 means we don't render the mesh when cutout
                tmp[voxIndex].includeLeft    = (tmp[voxIndex].hasLeft || (cutout.Left < 0 && voxCoord.X == voxelsToInclude.Left)) && include.Left == 1;
                tmp[voxIndex].includeRight   = (tmp[voxIndex].hasRight || (cutout.Right < 0 && voxCoord.X == voxelsToInclude.Right)) && include.Right == 1;
                tmp[voxIndex].includeUp      = (tmp[voxIndex].hasUp || (cutout.Up < 0 && voxCoord.Y == voxelsToInclude.Up)) && include.Up == 1;
                tmp[voxIndex].includeDown    = (tmp[voxIndex].hasDown || (cutout.Down < 0 && voxCoord.Y == voxelsToInclude.Down)) && include.Down == 1;
                tmp[voxIndex].includeBack    = (tmp[voxIndex].hasBack || (cutout.Back < 0 && voxCoord.Z == voxelsToInclude.Back)) && include.Back == 1;
                tmp[voxIndex].includeForward = (tmp[voxIndex].hasForward || (cutout.Forward < 0 && voxCoord.Z == voxelsToInclude.Forward)) && include.Forward == 1;

                tmp[voxIndex].isHidden = !tmp[voxIndex].hasForward &&
                                         !tmp[voxIndex].hasBack &&
                                         !tmp[voxIndex].hasLeft &&
                                         !tmp[voxIndex].hasRight &&
                                         !tmp[voxIndex].hasUp &&
                                         !tmp[voxIndex].hasDown;


                if (tmp[voxIndex].isHidden && optimization == NPVoxOptimization.PER_VOXEL)
                {
                    continue;
                }

                if (tmp[voxIndex].isHidden && BloodColorIndex > 0)
                {
                    model.SetVoxel(voxCoord, (byte)BloodColorIndex); // WTF WTF WTF?!? we should not modify the MODEL in here !!!!           elfapo: AAAAHHH NOOOO!!!! :O    j.k. ;)
                }

                Color color = model.GetColor(voxCoord);

                // prepare cube vertices
                tmp[voxIndex].numVertices            = 0;
                tmp[voxIndex].vertexIndexOffsetBegin = currentVertexIndex;

                if (optimization != NPVoxOptimization.PER_FACE || tmp[voxIndex].includeBack || tmp[voxIndex].includeLeft || tmp[voxIndex].includeDown)
                {
                    tmp[voxIndex].vertexIndexOffsets[0] = tmp[voxIndex].numVertices++;
                    tmp[voxIndex].vertexPositionOffsets[tmp[voxIndex].vertexIndexOffsets[0]] = new Vector3(-0.5f, -0.5f, -0.5f);
                }
                if (optimization != NPVoxOptimization.PER_FACE || tmp[voxIndex].includeBack || tmp[voxIndex].includeRight || tmp[voxIndex].includeDown)
                {
                    tmp[voxIndex].vertexIndexOffsets[1] = tmp[voxIndex].numVertices++;
                    tmp[voxIndex].vertexPositionOffsets[tmp[voxIndex].vertexIndexOffsets[1]] = new Vector3(0.5f, -0.5f, -0.5f);
                }
                if (optimization != NPVoxOptimization.PER_FACE || tmp[voxIndex].includeBack || tmp[voxIndex].includeLeft || tmp[voxIndex].includeUp)
                {
                    tmp[voxIndex].vertexIndexOffsets[2] = tmp[voxIndex].numVertices++;
                    tmp[voxIndex].vertexPositionOffsets[tmp[voxIndex].vertexIndexOffsets[2]] = new Vector3(-0.5f, 0.5f, -0.5f);
                }
                if (optimization != NPVoxOptimization.PER_FACE || tmp[voxIndex].includeBack || tmp[voxIndex].includeRight || tmp[voxIndex].includeUp)
                {
                    tmp[voxIndex].vertexIndexOffsets[3] = tmp[voxIndex].numVertices++;
                    tmp[voxIndex].vertexPositionOffsets[tmp[voxIndex].vertexIndexOffsets[3]] = new Vector3(0.5f, 0.5f, -0.5f);
                }
                if (optimization != NPVoxOptimization.PER_FACE || tmp[voxIndex].includeForward || tmp[voxIndex].includeLeft || tmp[voxIndex].includeDown)
                {
                    tmp[voxIndex].vertexIndexOffsets[4] = tmp[voxIndex].numVertices++;
                    tmp[voxIndex].vertexPositionOffsets[tmp[voxIndex].vertexIndexOffsets[4]] = new Vector3(-0.5f, -0.5f, 0.5f);
                }
                if (optimization != NPVoxOptimization.PER_FACE || tmp[voxIndex].includeForward || tmp[voxIndex].includeRight || tmp[voxIndex].includeDown)
                {
                    tmp[voxIndex].vertexIndexOffsets[5] = tmp[voxIndex].numVertices++;
                    tmp[voxIndex].vertexPositionOffsets[tmp[voxIndex].vertexIndexOffsets[5]] = new Vector3(0.5f, -0.5f, 0.5f);
                }
                if (optimization != NPVoxOptimization.PER_FACE || tmp[voxIndex].includeForward || tmp[voxIndex].includeLeft || tmp[voxIndex].includeUp)
                {
                    tmp[voxIndex].vertexIndexOffsets[6] = tmp[voxIndex].numVertices++;
                    tmp[voxIndex].vertexPositionOffsets[tmp[voxIndex].vertexIndexOffsets[6]] = new Vector3(-0.5f, 0.5f, 0.5f);
                }
                if (optimization != NPVoxOptimization.PER_FACE || tmp[voxIndex].includeForward || tmp[voxIndex].includeRight || tmp[voxIndex].includeUp)
                {
                    tmp[voxIndex].vertexIndexOffsets[7] = tmp[voxIndex].numVertices++;
                    tmp[voxIndex].vertexPositionOffsets[tmp[voxIndex].vertexIndexOffsets[7]] = new Vector3(0.5f, 0.5f, 0.5f);
                }


                // add cube faces
                int i = currentTriangleIndex[tmp[voxIndex].vertexGroupIndex];

                // back
                if (optimization != NPVoxOptimization.PER_FACE || tmp[voxIndex].includeBack)
                {
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[0];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[2];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[1];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[2];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[3];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[1];
                }

                // Forward
                if (optimization != NPVoxOptimization.PER_FACE || tmp[voxIndex].includeForward)
                {
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[6];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[4];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[5];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[7];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[6];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[5];
                }

                // right
                if (optimization != NPVoxOptimization.PER_FACE || tmp[voxIndex].includeRight)
                {
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[1];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[3];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[5];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[3];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[7];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[5];
                }

                // left
                if (optimization != NPVoxOptimization.PER_FACE || tmp[voxIndex].includeLeft)
                {
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[0];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[4];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[2];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[2];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[4];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[6];
                }

                // up
                if (optimization != NPVoxOptimization.PER_FACE || tmp[voxIndex].includeUp)
                {
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[2];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[6];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[3];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[3];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[6];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[7];
                }

                // down
                if (optimization != NPVoxOptimization.PER_FACE || tmp[voxIndex].includeDown)
                {
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[0];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[1];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[4];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[1];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[5];
                    triangles[tmp[voxIndex].vertexGroupIndex, i++] = tmp[voxIndex].vertexIndexOffsetBegin + tmp[voxIndex].vertexIndexOffsets[4];
                }


                // Tangents
                for (int t = 0; t < tmp[voxIndex].numVertices; t++)
                {
                    // store voxel center for shader usage
                    Vector4 tangent = new Vector4();
                    tangent.x = tmp[voxIndex].voxelCenter.x;
                    tangent.y = tmp[voxIndex].voxelCenter.y;
                    tangent.z = tmp[voxIndex].voxelCenter.z;
                    // encode model size
                    tangent.w = ((voxelsToInclude.Size.X & 0x7F) << 14) | ((voxelsToInclude.Size.Y & 0x7F) << 7) | (voxelsToInclude.Size.Z & 0x7F);

                    tangents[tmp[voxIndex].vertexIndexOffsetBegin + t] = tangent;
                }

                // UVs
                for (int t = 0; t < tmp[voxIndex].numVertices; t++)
                {
                    colors[tmp[voxIndex].vertexIndexOffsetBegin + t] = color;
                }

                // translate & scale vertices to voxel position
                for (int t = 0; t < tmp[voxIndex].numVertices; t++)
                {
                    vertices[tmp[voxIndex].vertexIndexOffsetBegin + t] = tmp[voxIndex].voxelCenter + Vector3.Scale(tmp[voxIndex].vertexPositionOffsets[t], cubeSize);
                }

                currentTriangleIndex[tmp[voxIndex].vertexGroupIndex] = i;
                currentVertexIndex += tmp[voxIndex].numVertices;
                voxIndex++;
            }
        }

        // elfapo: Remove invalid voxel information
        Array.Resize(ref tmp, voxIndex);


        ////////////////////////////////////// NORMAL STAGES ////////////////////////////////////////
        // elfapo TODO: Test area 'Normal Processor' Move Normal Processor stages to Normal Processor Pipeline:

        //NPVoxNormalProcessor_Voxel generator = ScriptableObject.CreateInstance<NPVoxNormalProcessor_Voxel>();
        //NPVoxNormalProcessor_Variance processor = ScriptableObject.CreateInstance<NPVoxNormalProcessor_Variance>();

        //generator.InitOutputBuffer(normals);
        //processor.InitOutputBuffer(normals);

        //processor.NormalVariance = NormalVariance;
        //processor.NormalVarianceSeed = NormalVarianceSeed;

        //if (NormalModePerVoxelGroup != null && NormalModePerVoxelGroup.Length > 0)
        //{
        //    for (int i = 0; i < NormalModePerVoxelGroup.Length; i++)
        //    {
        //        generator.ClearVoxelGroupFilters();
        //        generator.AddVoxelGroupFilter(i);
        //        generator.NormalMode = NormalModePerVoxelGroup[i];
        //        generator.Process(model, tmp, normals, normals);
        //    }

        //    processor.Process(model, tmp, normals, normals);
        //}
        //else
        //{
        //    generator.NormalMode = NormalMode;
        //    generator.Process(model, tmp, normals, normals);
        //    processor.Process(model, tmp, normals, normals);
        //}


        //ScriptableObject.DestroyImmediate(generator);
        //ScriptableObject.DestroyImmediate(processor);

        if (normalProcessors != null)
        {
            normalProcessors.Run(model, tmp, normals, normals);
        }

        //////////////////////////////////////////////////////////////////////////////////////////////


        // shrink arrays as needed
        if (optimization != NPVoxOptimization.OFF)
        {
            Array.Resize(ref vertices, currentVertexIndex);
            Array.Resize(ref normals, currentVertexIndex);
            Array.Resize(ref tangents, currentVertexIndex);
            Array.Resize(ref colors, currentVertexIndex);
        }

        mesh.vertices = vertices;
        if (hasVoxelGroups)
        {
            mesh.subMeshCount = Math.Max(vertexGroupCount, MinVertexGroups);
            for (int i = 0; i < vertexGroupCount; i++)
            {
                int   numberOfTrianglesForVertexGroup = currentTriangleIndex[i];
                int[] trianglesForVertexGroup         = new int[numberOfTrianglesForVertexGroup];
                for (int j = 0; j < numberOfTrianglesForVertexGroup; j++)
                {
                    trianglesForVertexGroup[j] = triangles[i, j];
                }
                mesh.SetTriangles(trianglesForVertexGroup, i);
            }
        }
        else
        {
            int   numberOfTrianglesForVertexGroup = currentTriangleIndex[0];
            int[] trianglesForVertexGroup         = new int[numberOfTrianglesForVertexGroup];
            Buffer.BlockCopy(triangles, 0,
                             trianglesForVertexGroup, 0,
                             numberOfTrianglesForVertexGroup * sizeof(int));

            if (MinVertexGroups < 2)
            {
                mesh.triangles = trianglesForVertexGroup;
            }
            else
            {
                mesh.subMeshCount = MinVertexGroups;
                mesh.SetTriangles(trianglesForVertexGroup, 0);
            }
        }

        mesh.normals  = normals;
        mesh.tangents = tangents;
        mesh.colors   = colors;
        mesh.bounds   = new Bounds(Vector3.zero, size);

        if (NormalMode == NPVoxNormalMode.AUTO)
        {
            mesh.RecalculateNormals();
        }
    }
Exemple #2
0
    public static void CreateMesh(
        NPVoxModel model,
        Mesh mesh,
        Vector3 cubeSize,
        Vector3 NormalVariance,
        int NormalVarianceSeed         = 0,
        NPVoxOptimization optimization = NPVoxOptimization.OFF,
        NPVoxNormalMode NormalMode     = NPVoxNormalMode.SMOOTH,
        int BloodColorIndex            = 0,
        NPVoxFaces loop     = null,
        NPVoxFaces cutout   = null,
        NPVoxFaces include  = null,
        int MinVertexGroups = 1,
        NPVoxNormalMode[] NormalModePerVoxelGroup = null
        )
    {
        bool hasVoxelGroups   = model.HasVoxelGroups();
        var  vertices         = new Vector3[model.NumVoxels * 8];
        byte vertexGroupCount = model.NumVoxelGroups;
        var  triangles        = new int[vertexGroupCount, model.NumVoxels * 36];

        var normals  = new Vector3[model.NumVoxels * 8];
        var tangents = new Vector4[model.NumVoxels * 8];
        var colors   = new Color[model.NumVoxels * 8];

        int currentVertexIndex   = 0;
        var currentTriangleIndex = new int[vertexGroupCount];

        for (int i = 0; i < vertexGroupCount; i++)
        {
            currentTriangleIndex[i] = 0;
        }

        UnityEngine.Random.InitState(NormalVarianceSeed);

        if (loop == null)
        {
            loop = new NPVoxFaces();
        }

        if (include == null)
        {
            include = new NPVoxFaces(1, 1, 1, 1, 1, 1);
        }

        NPVoxBox voxelsToInclude = model.BoundingBox;
        Vector3  cutoutOffset    = Vector3.zero;

        if (cutout != null)
        {
            Vector3 originalCenter = voxelsToInclude.SaveCenter;
            voxelsToInclude.Left    = (sbyte)Mathf.Abs(cutout.Left);
            voxelsToInclude.Down    = (sbyte)Mathf.Abs(cutout.Down);
            voxelsToInclude.Back    = (sbyte)Mathf.Abs(cutout.Back);
            voxelsToInclude.Right   = (sbyte)(voxelsToInclude.Right - (sbyte)Mathf.Abs(cutout.Right));
            voxelsToInclude.Up      = (sbyte)(voxelsToInclude.Up - (sbyte)Mathf.Abs(cutout.Up));
            voxelsToInclude.Forward = (sbyte)(voxelsToInclude.Forward - (sbyte)Mathf.Abs(cutout.Forward));
            cutoutOffset            = Vector3.Scale(originalCenter - voxelsToInclude.SaveCenter, cubeSize);
        }

        NPVoxToUnity npVoxToUnity = new NPVoxToUnity(model, cubeSize);
        Vector3      size         = new Vector3(
            voxelsToInclude.Size.X * cubeSize.x,
            voxelsToInclude.Size.Y * cubeSize.y,
            voxelsToInclude.Size.Z * cubeSize.z
            );

        NPVoxBox voxelNormalNeighbours = new NPVoxBox(new NPVoxCoord(-1, -1, -1), new NPVoxCoord(1, 1, 1));

        NPVoxNormalMode normalMode = NormalMode;

        foreach (NPVoxCoord voxCoord in voxelsToInclude.Enumerate())
        {
            if (model.HasVoxel(voxCoord))
            {
                Vector3 voxelCenter = npVoxToUnity.ToUnityPosition(voxCoord) + cutoutOffset;

                int vertexGroupIndex = 0;
                if (hasVoxelGroups)
                {
                    vertexGroupIndex = model.GetVoxelGroup(voxCoord);
                }

                if (NormalModePerVoxelGroup != null && NormalModePerVoxelGroup.Length > vertexGroupIndex)
                {
                    normalMode = NormalModePerVoxelGroup[vertexGroupIndex];
                }
                else
                {
                    normalMode = NormalMode;
                }

                // do we have this side
                bool hasLeft    = !model.HasVoxel(model.LoopCoord(voxCoord + NPVoxCoord.LEFT, loop));
                bool hasRight   = !model.HasVoxel(model.LoopCoord(voxCoord + NPVoxCoord.RIGHT, loop));
                bool hasDown    = !model.HasVoxel(model.LoopCoord(voxCoord + NPVoxCoord.DOWN, loop));
                bool hasUp      = !model.HasVoxel(model.LoopCoord(voxCoord + NPVoxCoord.UP, loop));
                bool hasForward = !model.HasVoxel(model.LoopCoord(voxCoord + NPVoxCoord.FORWARD, loop));
                bool hasBack    = !model.HasVoxel(model.LoopCoord(voxCoord + NPVoxCoord.BACK, loop));

                // do we actually want to include this side in our mesh
                // NOTE: cutout < 0 means we still render the mesh even though it is cutout
                //       cutout > 0 means we don't render the mesh when cutout
                bool includeLeft    = (hasLeft || (cutout.Left < 0 && voxCoord.X == voxelsToInclude.Left)) && include.Left == 1;
                bool includeRight   = (hasRight || (cutout.Right < 0 && voxCoord.X == voxelsToInclude.Right)) && include.Right == 1;
                bool includeUp      = (hasUp || (cutout.Up < 0 && voxCoord.Y == voxelsToInclude.Up)) && include.Up == 1;
                bool includeDown    = (hasDown || (cutout.Down < 0 && voxCoord.Y == voxelsToInclude.Down)) && include.Down == 1;
                bool includeBack    = (hasBack || (cutout.Back < 0 && voxCoord.Z == voxelsToInclude.Back)) && include.Back == 1;
                bool includeForward = (hasForward || (cutout.Forward < 0 && voxCoord.Z == voxelsToInclude.Forward)) && include.Forward == 1;

                bool isHidden = !hasForward && !hasBack && !hasLeft && !hasRight && !hasUp && !hasDown;

                if (isHidden && optimization == NPVoxOptimization.PER_VOXEL)
                {
                    continue;
                }

                if (isHidden && BloodColorIndex > 0)
                {
                    model.SetVoxel(voxCoord, (byte)BloodColorIndex); // WTF WTF WTF?!? we should not modify the MODEL in here !!!!
                }

                Color color = model.GetColor(voxCoord);

                // prepare cube vertices
                int numVertices = 0;

                int[]     vertexIndexOffsets    = new int[8];
                Vector3[] vertexPositionOffsets = new Vector3[8];

                if (optimization != NPVoxOptimization.PER_FACE || includeBack || includeLeft || includeDown)
                {
                    vertexIndexOffsets[0] = numVertices++;
                    vertexPositionOffsets[vertexIndexOffsets[0]] = new Vector3(-0.5f, -0.5f, -0.5f);
                }
                if (optimization != NPVoxOptimization.PER_FACE || includeBack || includeRight || includeDown)
                {
                    vertexIndexOffsets[1] = numVertices++;
                    vertexPositionOffsets[vertexIndexOffsets[1]] = new Vector3(0.5f, -0.5f, -0.5f);
                }
                if (optimization != NPVoxOptimization.PER_FACE || includeBack || includeLeft || includeUp)
                {
                    vertexIndexOffsets[2] = numVertices++;
                    vertexPositionOffsets[vertexIndexOffsets[2]] = new Vector3(-0.5f, 0.5f, -0.5f);
                }
                if (optimization != NPVoxOptimization.PER_FACE || includeBack || includeRight || includeUp)
                {
                    vertexIndexOffsets[3] = numVertices++;
                    vertexPositionOffsets[vertexIndexOffsets[3]] = new Vector3(0.5f, 0.5f, -0.5f);
                }
                if (optimization != NPVoxOptimization.PER_FACE || includeForward || includeLeft || includeDown)
                {
                    vertexIndexOffsets[4] = numVertices++;
                    vertexPositionOffsets[vertexIndexOffsets[4]] = new Vector3(-0.5f, -0.5f, 0.5f);
                }
                if (optimization != NPVoxOptimization.PER_FACE || includeForward || includeRight || includeDown)
                {
                    vertexIndexOffsets[5] = numVertices++;
                    vertexPositionOffsets[vertexIndexOffsets[5]] = new Vector3(0.5f, -0.5f, 0.5f);
                }
                if (optimization != NPVoxOptimization.PER_FACE || includeForward || includeLeft || includeUp)
                {
                    vertexIndexOffsets[6] = numVertices++;
                    vertexPositionOffsets[vertexIndexOffsets[6]] = new Vector3(-0.5f, 0.5f, 0.5f);
                }
                if (optimization != NPVoxOptimization.PER_FACE || includeForward || includeRight || includeUp)
                {
                    vertexIndexOffsets[7] = numVertices++;
                    vertexPositionOffsets[vertexIndexOffsets[7]] = new Vector3(0.5f, 0.5f, 0.5f);
                }

                // add cube faces
                int i = currentTriangleIndex[vertexGroupIndex];

                // back
                if (optimization != NPVoxOptimization.PER_FACE || includeBack)
                {
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[0];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[2];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[1];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[2];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[3];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[1];
                }

                // Forward
                if (optimization != NPVoxOptimization.PER_FACE || includeForward)
                {
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[6];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[4];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[5];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[7];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[6];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[5];
                }

                // right
                if (optimization != NPVoxOptimization.PER_FACE || includeRight)
                {
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[1];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[3];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[5];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[3];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[7];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[5];
                }

                // left
                if (optimization != NPVoxOptimization.PER_FACE || includeLeft)
                {
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[0];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[4];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[2];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[2];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[4];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[6];
                }

                // up
                if (optimization != NPVoxOptimization.PER_FACE || includeUp)
                {
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[2];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[6];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[3];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[3];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[6];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[7];
                }

                // down
                if (optimization != NPVoxOptimization.PER_FACE || includeDown)
                {
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[0];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[1];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[4];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[1];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[5];
                    triangles[vertexGroupIndex, i++] = currentVertexIndex + vertexIndexOffsets[4];
                }

                // TODO create some kind of strategy pattern for the normal calculation, else this here is becomming a mess ...
                Vector3 variance = Vector3.zero;
                if (NormalVariance.x != 0 || NormalVariance.y != 0 || NormalVariance.z != 0)
                {
                    variance.x = -NormalVariance.x * 0.5f + 2 * UnityEngine.Random.value * NormalVariance.x;
                    variance.y = -NormalVariance.y * 0.5f + 2 * UnityEngine.Random.value * NormalVariance.y;
                    variance.z = -NormalVariance.z * 0.5f + 2 * UnityEngine.Random.value * NormalVariance.z;
                }

                // calculate normals based on present neighbour voxels
                Vector3 voxelNormal = Vector3.zero;
                if (!isHidden)
                {
                    foreach (NPVoxCoord offset in voxelNormalNeighbours.Enumerate())
                    {
                        NPVoxCoord checkCoord = voxCoord + offset;
                        checkCoord = model.LoopCoord(checkCoord, loop);
                        if (!model.HasVoxel(checkCoord))
                        {
                            voxelNormal += NPVoxCoordUtil.ToVector(offset);
                        }
                    }
                    voxelNormal.Normalize();
                }
                else
                {
                    voxelNormal = voxelCenter.normalized;
                }

                // Normals
                for (int t = 0; t < numVertices; t++)
                {
                    Vector3 normal = Vector3.zero;

                    switch (normalMode)
                    {
                    case NPVoxNormalMode.VOXEL:
                        normal = voxelNormal;

                        normal = Vector3.zero;

                        if (vertexPositionOffsets[t].x < 0.0f)
                        {
                            if (hasLeft && !hasForward && !hasBack && !hasUp && !hasDown)
                            {
                                normal.x = -1;
                            }
                            else
                            {
                                normal.x = voxelNormal.x;
                            }
                        }
                        else if (vertexPositionOffsets[t].x > 0.0f)
                        {
                            if (hasRight && !hasForward && !hasBack && !hasUp && !hasDown)
                            {
                                normal.x = 1;
                            }
                            else
                            {
                                normal.x = voxelNormal.x;
                            }
                        }

                        if (vertexPositionOffsets[t].y < 0.0f)
                        {
                            if (hasUp && !hasForward && !hasBack && !hasLeft && !hasRight)
                            {
                                normal.y = -1;
                            }
                            else
                            {
                                normal.y = voxelNormal.y;
                            }
                        }
                        else if (vertexPositionOffsets[t].y > 0.0f)
                        {
                            if (hasDown && !hasForward && !hasBack && !hasLeft && !hasRight)
                            {
                                normal.y = +1;
                            }
                            else
                            {
                                normal.y = voxelNormal.y;
                            }
                        }

                        if (vertexPositionOffsets[t].z < 0.0f)
                        {
                            if (hasBack && !hasLeft && !hasRight && !hasUp && !hasDown)
                            {
                                normal.z = -1;
                            }
                            else
                            {
                                normal.z = voxelNormal.z;
                            }
                        }
                        else if (vertexPositionOffsets[t].z > 0.0f)
                        {
                            if (hasForward && !hasLeft && !hasRight && !hasUp && !hasDown)
                            {
                                normal.z = +1;
                            }
                            else
                            {
                                normal.z = voxelNormal.z;
                            }
                        }

                        if (Mathf.Abs(normal.x) < 0.1f && Mathf.Abs(normal.y) < 0.1f && Mathf.Abs(normal.z) < 0.1f)
                        {
                            // we would like to have full color when we are a stand-alone voxel, however there is no way to do so right now, so we just
                            // fallback to the centoid normal
                            normal = voxelCenter;
                        }

                        normal.Normalize();
                        break;

                    case NPVoxNormalMode.SMOOTH:
                        normal = Vector3.zero;

                        for (float xx = -0.5f; xx < 1.0f; xx += 1f)
                        {
                            for (float yy = -.5f; yy < 1; yy += 1)
                            {
                                for (float zz = -.5f; zz < 1; zz += 1)
                                {
                                    sbyte xCoord = (sbyte)Mathf.Round(vertexPositionOffsets[t].x + xx);
                                    sbyte yCoord = (sbyte)Mathf.Round(vertexPositionOffsets[t].y + yy);
                                    sbyte zCoord = (sbyte)Mathf.Round(vertexPositionOffsets[t].z + zz);

                                    if (!model.HasVoxel(voxCoord + new NPVoxCoord((sbyte)xCoord, (sbyte)yCoord, (sbyte)zCoord)))
                                    {
                                        normal += new Vector3(
                                            xx,
                                            yy,
                                            zz
                                            );
                                    }
                                }
                            }
                        }

                        normal.Normalize();
                        break;

                    case NPVoxNormalMode.FORWARD: normal = Vector3.forward; break;

                    case NPVoxNormalMode.BACK: normal = Vector3.back; break;

                    case NPVoxNormalMode.UP: normal = Vector3.up; break;

                    case NPVoxNormalMode.DOWN: normal = Vector3.down; break;

                    case NPVoxNormalMode.LEFT: normal = Vector3.left; break;

                    case NPVoxNormalMode.RIGHT: normal = Vector3.right; break;
                    }

                    normals[currentVertexIndex + t] = (normal + variance).normalized;

                    // store voxel center for shader usage
                    Vector4 tangent = new Vector4();
                    tangent.x = voxelCenter.x;
                    tangent.y = voxelCenter.y;
                    tangent.z = voxelCenter.z;
                    // encode model size
                    tangent.w = ((voxelsToInclude.Size.X & 0x7F) << 14) | ((voxelsToInclude.Size.Y & 0x7F) << 7) | (voxelsToInclude.Size.Z & 0x7F);


                    tangents[currentVertexIndex + t] = tangent;
                }

                // UVs
                for (int t = 0; t < numVertices; t++)
                {
                    colors[currentVertexIndex + t] = color;
                }

                // translate & scale vertices to voxel position
                for (int t = 0; t < numVertices; t++)
                {
                    vertices[currentVertexIndex + t] = voxelCenter + Vector3.Scale(vertexPositionOffsets[t], cubeSize);
                }

                currentTriangleIndex[vertexGroupIndex] = i;
                currentVertexIndex += numVertices;
            }
        }

        // shrink arrays as needed
        if (optimization != NPVoxOptimization.OFF)
        {
            Array.Resize(ref vertices, currentVertexIndex);
            Array.Resize(ref normals, currentVertexIndex);
            Array.Resize(ref tangents, currentVertexIndex);
            Array.Resize(ref colors, currentVertexIndex);
        }

        mesh.vertices = vertices;
        if (hasVoxelGroups)
        {
            mesh.subMeshCount = Math.Max(vertexGroupCount, MinVertexGroups);
            for (int i = 0; i < vertexGroupCount; i++)
            {
                int   numberOfTrianglesForVertexGroup = currentTriangleIndex[i];
                int[] trianglesForVertexGroup         = new int[numberOfTrianglesForVertexGroup];
                for (int j = 0; j < numberOfTrianglesForVertexGroup; j++)
                {
                    trianglesForVertexGroup[j] = triangles[i, j];
                }
                mesh.SetTriangles(trianglesForVertexGroup, i);
            }
        }
        else
        {
            int   numberOfTrianglesForVertexGroup = currentTriangleIndex[0];
            int[] trianglesForVertexGroup         = new int[numberOfTrianglesForVertexGroup];
            Buffer.BlockCopy(triangles, 0,
                             trianglesForVertexGroup, 0,
                             numberOfTrianglesForVertexGroup * sizeof(int));

            if (MinVertexGroups < 2)
            {
                mesh.triangles = trianglesForVertexGroup;
            }
            else
            {
                mesh.subMeshCount = MinVertexGroups;
                mesh.SetTriangles(trianglesForVertexGroup, 0);
            }
        }



        mesh.normals  = normals;
        mesh.tangents = tangents;
        mesh.colors   = colors;
        mesh.bounds   = new Bounds(Vector3.zero, size);

        if (NormalMode == NPVoxNormalMode.AUTO)
        {
            mesh.RecalculateNormals();
        }
    }