Exemplo n.º 1
0
 private BabylonMatrix _getNodeLocalMatrix(GLTFNode gltfNode)
 {
     return(BabylonMatrix.Compose(
                BabylonVector3.FromArray(gltfNode.scale),
                BabylonQuaternion.FromArray(gltfNode.rotation),
                BabylonVector3.FromArray(gltfNode.translation)
                ));
 }
        private GLTFMesh ExportMesh(BabylonMesh babylonMesh, GLTF gltf, BabylonScene babylonScene)
        {
            RaiseMessage("GLTFExporter.Mesh | Export mesh named: " + babylonMesh.name, 1);

            // --------------------------
            // --- Mesh from babylon ----
            // --------------------------

            if (babylonMesh.positions == null || babylonMesh.positions.Length == 0)
            {
                RaiseMessage("GLTFExporter.Mesh | Mesh is a dummy", 2);
                return(null);
            }

            RaiseMessage("GLTFExporter.Mesh | Mesh from babylon", 2);
            // Retreive general data from babylon mesh
            int  nbVertices    = babylonMesh.positions.Length / 3;
            bool hasTangents   = babylonMesh.tangents != null && babylonMesh.tangents.Length > 0;
            bool hasUV         = babylonMesh.uvs != null && babylonMesh.uvs.Length > 0;
            bool hasUV2        = babylonMesh.uvs2 != null && babylonMesh.uvs2.Length > 0;
            bool hasColor      = babylonMesh.colors != null && babylonMesh.colors.Length > 0;
            bool hasBones      = babylonMesh.matricesIndices != null && babylonMesh.matricesIndices.Length > 0;
            bool hasBonesExtra = babylonMesh.matricesIndicesExtra != null && babylonMesh.matricesIndicesExtra.Length > 0;

            RaiseMessage("GLTFExporter.Mesh | nbVertices=" + nbVertices, 3);
            RaiseMessage("GLTFExporter.Mesh | hasUV=" + hasUV, 3);
            RaiseMessage("GLTFExporter.Mesh | hasUV2=" + hasUV2, 3);
            RaiseMessage("GLTFExporter.Mesh | hasColor=" + hasColor, 3);
            RaiseMessage("GLTFExporter.Mesh | hasBones=" + hasBones, 3);
            RaiseMessage("GLTFExporter.Mesh | hasBonesExtra=" + hasBonesExtra, 3);

            // Retreive vertices data from babylon mesh
            List <GLTFGlobalVertex> globalVertices = new List <GLTFGlobalVertex>();

            for (int indexVertex = 0; indexVertex < nbVertices; indexVertex++)
            {
                GLTFGlobalVertex globalVertex = new GLTFGlobalVertex();
                globalVertex.Position = BabylonVector3.FromArray(babylonMesh.positions, indexVertex);
                globalVertex.Normal   = BabylonVector3.FromArray(babylonMesh.normals, indexVertex);
                if (hasTangents)
                {
                    globalVertex.Tangent = BabylonQuaternion.FromArray(babylonMesh.tangents, indexVertex);

                    // Switch coordinate system at object level
                    globalVertex.Tangent.Z *= -1;

                    // Invert W to switch to right handed system
                    globalVertex.Tangent.W *= -1;
                }

                // Switch coordinate system at object level
                globalVertex.Position.Z *= -1;
                globalVertex.Normal.Z   *= -1;

                if (hasUV)
                {
                    globalVertex.UV = BabylonVector2.FromArray(babylonMesh.uvs, indexVertex);
                    // For glTF, the origin of the UV coordinates (0, 0) corresponds to the upper left corner of a texture image
                    // While for Babylon, it corresponds to the lower left corner of a texture image
                    globalVertex.UV.Y = 1 - globalVertex.UV.Y;
                }
                if (hasUV2)
                {
                    globalVertex.UV2 = BabylonVector2.FromArray(babylonMesh.uvs2, indexVertex);
                    // For glTF, the origin of the UV coordinates (0, 0) corresponds to the upper left corner of a texture image
                    // While for Babylon, it corresponds to the lower left corner of a texture image
                    globalVertex.UV2.Y = 1 - globalVertex.UV2.Y;
                }
                if (hasColor)
                {
                    globalVertex.Color = Tools.SubArrayFromEntity(babylonMesh.colors, indexVertex, 4);
                }
                if (hasBones)
                {
                    // In babylon, the 4 bones indices are stored in a single int
                    // Each bone index is 8-bit offset from the next
                    int bonesIndicesMerged = babylonMesh.matricesIndices[indexVertex];
                    int bone3 = bonesIndicesMerged >> 24;
                    bonesIndicesMerged -= bone3 << 24;
                    int bone2 = bonesIndicesMerged >> 16;
                    bonesIndicesMerged -= bone2 << 16;
                    int bone1 = bonesIndicesMerged >> 8;
                    bonesIndicesMerged -= bone1 << 8;
                    int bone0 = bonesIndicesMerged >> 0;
                    bonesIndicesMerged -= bone0 << 0;
                    var bonesIndicesArray = new ushort[] { (ushort)bone0, (ushort)bone1, (ushort)bone2, (ushort)bone3 };
                    globalVertex.BonesIndices = bonesIndicesArray;
                    globalVertex.BonesWeights = Tools.SubArrayFromEntity(babylonMesh.matricesWeights, indexVertex, 4);
                }

                globalVertices.Add(globalVertex);
            }

            var babylonMorphTargetManager = GetBabylonMorphTargetManager(babylonScene, babylonMesh);

            // Retrieve indices from babylon mesh
            List <int> babylonIndices = babylonMesh.indices.ToList();

            // --------------------------
            // ------- Init glTF --------
            // --------------------------

            RaiseMessage("GLTFExporter.Mesh | Init glTF", 2);
            // Mesh
            var gltfMesh = new GLTFMesh {
                name = babylonMesh.name
            };

            gltfMesh.index = gltf.MeshesList.Count;
            gltf.MeshesList.Add(gltfMesh);
            gltfMesh.idGroupInstance = babylonMesh.idGroupInstance;
            if (hasBones)
            {
                gltfMesh.idBabylonSkeleton = babylonMesh.skeletonId;
            }

            // --------------------------
            // ---- glTF primitives -----
            // --------------------------

            RaiseMessage("GLTFExporter.Mesh | glTF primitives", 2);
            var meshPrimitives = new List <GLTFMeshPrimitive>();

            foreach (BabylonSubMesh babylonSubMesh in babylonMesh.subMeshes)
            {
                // --------------------------
                // ------ SubMesh data ------
                // --------------------------

                List <GLTFGlobalVertex> globalVerticesSubMesh = globalVertices.GetRange(babylonSubMesh.verticesStart, babylonSubMesh.verticesCount);

                var gltfIndices = babylonIndices.GetRange(babylonSubMesh.indexStart, babylonSubMesh.indexCount);
                // In gltf, indices of each mesh primitive are 0-based (ie: min value is 0)
                // Thus, the gltf indices list is a concatenation of sub lists all 0-based
                // Example for 2 triangles, each being a submesh:
                //      babylonIndices = {0,1,2, 3,4,5} gives as result gltfIndicies = {0,1,2, 0,1,2}
                var minIndiceValue = gltfIndices.Min(); // Should be equal to babylonSubMesh.indexStart
                for (int indexIndice = 0; indexIndice < gltfIndices.Count; indexIndice++)
                {
                    gltfIndices[indexIndice] -= minIndiceValue;
                }

                // --------------------------
                // ----- Mesh primitive -----
                // --------------------------

                // MeshPrimitive
                var meshPrimitive = new GLTFMeshPrimitive
                {
                    attributes = new Dictionary <string, int>()
                };
                meshPrimitives.Add(meshPrimitive);

                // Material
                if (babylonMesh.materialId != null)
                {
                    RaiseMessage("GLTFExporter.Mesh | Material", 3);
                    // Retreive the babylon material
                    BabylonMaterial babylonMaterial;
                    var             babylonMaterialId = babylonMesh.materialId;
                    // From multi materials first, if any
                    // Loop recursively even though it shouldn't be a real use case
                    var babylonMultiMaterials = new List <BabylonMultiMaterial>(babylonScene.multiMaterials);
                    BabylonMultiMaterial babylonMultiMaterial;
                    do
                    {
                        babylonMultiMaterial = babylonMultiMaterials.Find(_babylonMultiMaterial => _babylonMultiMaterial.id == babylonMaterialId);
                        if (babylonMultiMaterial != null)
                        {
                            babylonMaterialId = babylonMultiMaterial.materials[babylonSubMesh.materialIndex];
                        }
                    }while (babylonMultiMaterial != null);
                    // Then from materials
                    var babylonMaterials = new List <BabylonMaterial>(babylonScene.materials);
                    babylonMaterial = babylonMaterials.Find(_babylonMaterial => _babylonMaterial.id == babylonMaterialId);

                    // If babylon material was exported successfully
                    if (babylonMaterial != null)
                    {
                        // Update primitive material index
                        var indexMaterial = babylonMaterialsToExport.FindIndex(_babylonMaterial => _babylonMaterial == babylonMaterial);
                        if (indexMaterial == -1)
                        {
                            // Store material for export
                            indexMaterial = babylonMaterialsToExport.Count;
                            babylonMaterialsToExport.Add(babylonMaterial);
                        }
                        meshPrimitive.material = indexMaterial;
                    }

                    // TODO - Add and retreive info from babylon material
                    meshPrimitive.mode = GLTFMeshPrimitive.FillMode.TRIANGLES;
                }

                // --------------------------
                // ------- Accessors --------
                // --------------------------

                RaiseMessage("GLTFExporter.Mesh | Geometry", 3);

                // Buffer
                var buffer = GLTFBufferService.Instance.GetBuffer(gltf);

                // --- Indices ---
                var componentType = GLTFAccessor.ComponentType.UNSIGNED_SHORT;
                if (nbVertices >= 65536)
                {
                    componentType = GLTFAccessor.ComponentType.UNSIGNED_INT;
                }
                var accessorIndices = GLTFBufferService.Instance.CreateAccessor(
                    gltf,
                    GLTFBufferService.Instance.GetBufferViewScalar(gltf, buffer),
                    "accessorIndices",
                    componentType,
                    GLTFAccessor.TypeEnum.SCALAR
                    );
                meshPrimitive.indices = accessorIndices.index;
                // Populate accessor
                if (componentType == GLTFAccessor.ComponentType.UNSIGNED_INT)
                {
                    gltfIndices.ForEach(n => accessorIndices.bytesList.AddRange(BitConverter.GetBytes(n)));
                }
                else
                {
                    var gltfIndicesShort = gltfIndices.ConvertAll(new Converter <int, ushort>(n => (ushort)n));
                    gltfIndicesShort.ForEach(n => accessorIndices.bytesList.AddRange(BitConverter.GetBytes(n)));
                }
                accessorIndices.count = gltfIndices.Count;

                // --- Positions ---
                var accessorPositions = GLTFBufferService.Instance.CreateAccessor(
                    gltf,
                    GLTFBufferService.Instance.GetBufferViewFloatVec3(gltf, buffer),
                    "accessorPositions",
                    GLTFAccessor.ComponentType.FLOAT,
                    GLTFAccessor.TypeEnum.VEC3
                    );
                meshPrimitive.attributes.Add(GLTFMeshPrimitive.Attribute.POSITION.ToString(), accessorPositions.index);
                // Populate accessor
                accessorPositions.min = new float[] { float.MaxValue, float.MaxValue, float.MaxValue };
                accessorPositions.max = new float[] { float.MinValue, float.MinValue, float.MinValue };
                globalVerticesSubMesh.ForEach((globalVertex) =>
                {
                    var positions = globalVertex.Position.ToArray();
                    // Store values as bytes
                    foreach (var position in positions)
                    {
                        accessorPositions.bytesList.AddRange(BitConverter.GetBytes(position));
                    }
                    // Update min and max values
                    GLTFBufferService.UpdateMinMaxAccessor(accessorPositions, positions);
                });
                accessorPositions.count = globalVerticesSubMesh.Count;

                // --- Normals ---
                var accessorNormals = GLTFBufferService.Instance.CreateAccessor(
                    gltf,
                    GLTFBufferService.Instance.GetBufferViewFloatVec3(gltf, buffer),
                    "accessorNormals",
                    GLTFAccessor.ComponentType.FLOAT,
                    GLTFAccessor.TypeEnum.VEC3
                    );
                meshPrimitive.attributes.Add(GLTFMeshPrimitive.Attribute.NORMAL.ToString(), accessorNormals.index);
                // Populate accessor
                List <float> normals = globalVerticesSubMesh.SelectMany(v => v.Normal.ToArray()).ToList();
                normals.ForEach(n => accessorNormals.bytesList.AddRange(BitConverter.GetBytes(n)));
                accessorNormals.count = globalVerticesSubMesh.Count;

                // --- Tangents ---
                if (hasTangents)
                {
                    var accessorTangents = GLTFBufferService.Instance.CreateAccessor(
                        gltf,
                        GLTFBufferService.Instance.GetBufferViewFloatVec4(gltf, buffer),
                        "accessorTangents",
                        GLTFAccessor.ComponentType.FLOAT,
                        GLTFAccessor.TypeEnum.VEC4
                        );
                    meshPrimitive.attributes.Add(GLTFMeshPrimitive.Attribute.TANGENT.ToString(), accessorTangents.index);
                    // Populate accessor
                    List <float> tangents = globalVerticesSubMesh.SelectMany(v => v.Tangent.ToArray()).ToList();
                    tangents.ForEach(n => accessorTangents.bytesList.AddRange(BitConverter.GetBytes(n)));
                    accessorTangents.count = globalVerticesSubMesh.Count;
                }

                // --- Colors ---
                if (hasColor)
                {
                    var accessorColors = GLTFBufferService.Instance.CreateAccessor(
                        gltf,
                        GLTFBufferService.Instance.GetBufferViewFloatVec4(gltf, buffer),
                        "accessorColors",
                        GLTFAccessor.ComponentType.FLOAT,
                        GLTFAccessor.TypeEnum.VEC4
                        );
                    meshPrimitive.attributes.Add(GLTFMeshPrimitive.Attribute.COLOR_0.ToString(), accessorColors.index);
                    // Populate accessor
                    List <float> colors = globalVerticesSubMesh.SelectMany(v => new[] { v.Color[0], v.Color[1], v.Color[2], v.Color[3] }).ToList();
                    colors.ForEach(n => accessorColors.bytesList.AddRange(BitConverter.GetBytes(n)));
                    accessorColors.count = globalVerticesSubMesh.Count;
                }

                // --- UV ---
                if (hasUV)
                {
                    var accessorUVs = GLTFBufferService.Instance.CreateAccessor(
                        gltf,
                        GLTFBufferService.Instance.GetBufferViewFloatVec2(gltf, buffer),
                        "accessorUVs",
                        GLTFAccessor.ComponentType.FLOAT,
                        GLTFAccessor.TypeEnum.VEC2
                        );
                    meshPrimitive.attributes.Add(GLTFMeshPrimitive.Attribute.TEXCOORD_0.ToString(), accessorUVs.index);
                    // Populate accessor
                    List <float> uvs = globalVerticesSubMesh.SelectMany(v => v.UV.ToArray()).ToList();
                    uvs.ForEach(n => accessorUVs.bytesList.AddRange(BitConverter.GetBytes(n)));
                    accessorUVs.count = globalVerticesSubMesh.Count;
                }

                // --- UV2 ---
                if (hasUV2)
                {
                    var accessorUV2s = GLTFBufferService.Instance.CreateAccessor(
                        gltf,
                        GLTFBufferService.Instance.GetBufferViewFloatVec2(gltf, buffer),
                        "accessorUV2s",
                        GLTFAccessor.ComponentType.FLOAT,
                        GLTFAccessor.TypeEnum.VEC2
                        );
                    meshPrimitive.attributes.Add(GLTFMeshPrimitive.Attribute.TEXCOORD_1.ToString(), accessorUV2s.index);
                    // Populate accessor
                    List <float> uvs2 = globalVerticesSubMesh.SelectMany(v => v.UV2.ToArray()).ToList();
                    uvs2.ForEach(n => accessorUV2s.bytesList.AddRange(BitConverter.GetBytes(n)));
                    accessorUV2s.count = globalVerticesSubMesh.Count;
                }

                // --- Bones ---
                if (hasBones)
                {
                    RaiseMessage("GLTFExporter.Mesh | Bones", 3);
                    // --- Joints ---
                    var accessorJoints = GLTFBufferService.Instance.CreateAccessor(
                        gltf,
                        GLTFBufferService.Instance.GetBufferViewUnsignedShortVec4(gltf, buffer),
                        "accessorJoints",
                        GLTFAccessor.ComponentType.UNSIGNED_SHORT,
                        GLTFAccessor.TypeEnum.VEC4
                        );
                    meshPrimitive.attributes.Add(GLTFMeshPrimitive.Attribute.JOINTS_0.ToString(), accessorJoints.index);
                    // Populate accessor
                    List <ushort> joints = globalVerticesSubMesh.SelectMany(v => new[] { v.BonesIndices[0], v.BonesIndices[1], v.BonesIndices[2], v.BonesIndices[3] }).ToList();
                    joints.ForEach(n => accessorJoints.bytesList.AddRange(BitConverter.GetBytes(n)));
                    accessorJoints.count = globalVerticesSubMesh.Count;

                    // --- Weights ---
                    var accessorWeights = GLTFBufferService.Instance.CreateAccessor(
                        gltf,
                        GLTFBufferService.Instance.GetBufferViewFloatVec4(gltf, buffer),
                        "accessorWeights",
                        GLTFAccessor.ComponentType.FLOAT,
                        GLTFAccessor.TypeEnum.VEC4
                        );
                    meshPrimitive.attributes.Add(GLTFMeshPrimitive.Attribute.WEIGHTS_0.ToString(), accessorWeights.index);
                    // Populate accessor
                    List <float> weightBones = globalVerticesSubMesh.SelectMany(v => new[] { v.BonesWeights[0], v.BonesWeights[1], v.BonesWeights[2], v.BonesWeights[3] }).ToList();
                    weightBones.ForEach(n => accessorWeights.bytesList.AddRange(BitConverter.GetBytes(n)));
                    accessorWeights.count = globalVerticesSubMesh.Count;
                }

                if (hasBonesExtra)
                {
                    RaiseWarning("Too many bones influences per vertex. glTF only support up to 4 bones influences per vertex. The result may not be as expected.", 3);
                }

                // Morph targets positions and normals
                if (babylonMorphTargetManager != null)
                {
                    RaiseMessage("GLTFExporter.Mesh | Morph targets", 3);
                    _exportMorphTargets(babylonMesh, babylonSubMesh, babylonMorphTargetManager, gltf, buffer, meshPrimitive);
                }
            }
            gltfMesh.primitives = meshPrimitives.ToArray();

            // Morph targets weights
            if (babylonMorphTargetManager != null)
            {
                var weights = new List <float>();
                foreach (BabylonMorphTarget babylonMorphTarget in babylonMorphTargetManager.targets)
                {
                    weights.Add(babylonMorphTarget.influence);
                }
                gltfMesh.weights = weights.ToArray();
            }

            return(gltfMesh);
        }
Exemplo n.º 3
0
        int CreateGlobalVertex(IIGameNode meshNode, IIGameMesh mesh, BabylonAbstractMesh babylonAbstractMesh, IMatrix3 invertedWorldMatrix, IFaceEx face, int facePart, List <GlobalVertex> vertices, bool hasUV, bool hasUV2, bool hasColor, bool hasAlpha, List <GlobalVertex>[] verticesAlreadyExported, IIGameSkin skin, List <int> boneIds)
        {
            var vertexIndex = (int)face.Vert[facePart];

            // Position can by retreived in world space or object space
            // Unfortunately, this value can't be retreived in local space
            var vertex = new GlobalVertex
            {
                BaseIndex = vertexIndex,
                Position  = mesh.GetVertex(vertexIndex, false),             // world space
                Normal    = mesh.GetNormal((int)face.Norm[facePart], false) // world space
            };

            if (exportParameters.exportTangents)
            {
                int     indexTangentBinormal = mesh.GetFaceVertexTangentBinormal(face.MeshFaceIndex, facePart, 1);
                IPoint3 normal    = vertex.Normal.Normalize;
                IPoint3 tangent   = mesh.GetTangent(indexTangentBinormal, 1).Normalize;
                IPoint3 bitangent = mesh.GetBinormal(indexTangentBinormal, 1).Normalize;
                int     w         = GetW(normal, tangent, bitangent);
                vertex.Tangent = new float[] { tangent.X, tangent.Y, tangent.Z, w };
            }

            // Convert position and normal to local space
            vertex.Position = invertedWorldMatrix.PointTransform(vertex.Position);

            vertex.Normal = invertedWorldMatrix.VectorTransform(vertex.Normal);
            // 1. scale normals with node scales
            var nodeScaling = BabylonVector3.FromArray(babylonAbstractMesh.scaling);

            vertex.Normal = vertex.Normal.Multiply(Loader.Global.Point3.Create(Math.Abs(nodeScaling.X), Math.Abs(nodeScaling.Y), Math.Abs(nodeScaling.Z)));

            // 2. scale normals with objectOffsetScales (unrotate by objectOffsetRot, then scale, then rotate again)
            // note: LH coordinate system => flip y and z
            var objOffsetScale          = Loader.Global.Point3.Create(meshNode.MaxNode.ObjOffsetScale.S);
            var scaleX                  = Math.Abs(objOffsetScale.X);
            var scaleY                  = Math.Abs(objOffsetScale.Y);
            var scaleZ                  = Math.Abs(objOffsetScale.Z);
            var objOffsetScaleFlipYZInv = Loader.Global.Point3.Create(1 / scaleX, 1 / scaleZ, 1 / scaleY);

            var objOffsetQuat = meshNode.MaxNode.ObjOffsetRot;
            var qFlippedYZ    = objOffsetQuat;
            var tmpSwap       = objOffsetQuat.Y;

            qFlippedYZ.Y = objOffsetQuat.Z;
            qFlippedYZ.Z = tmpSwap;

            var nUnrotated       = RotateVectorByQuaternion(vertex.Normal, qFlippedYZ);
            var nUnrotatedScaled = nUnrotated.Multiply(objOffsetScaleFlipYZInv);

            nUnrotatedScaled = nUnrotatedScaled.Normalize;
            var nRerotatedScaled = RotateVectorByQuaternion(nUnrotatedScaled, qFlippedYZ.Conjugate);

            vertex.Normal = nRerotatedScaled;

            if (hasUV)
            {
                var indices = new int[3];
                unsafe
                {
                    fixed(int *indicesPtr = indices)
                    {
                        mesh.GetMapFaceIndex(1, face.MeshFaceIndex, new IntPtr(indicesPtr));
                    }
                }
                var texCoord = mesh.GetMapVertex(1, indices[facePart]);
                vertex.UV = Loader.Global.Point2.Create(texCoord.X, -texCoord.Y);
            }

            if (hasUV2)
            {
                var indices = new int[3];
                unsafe
                {
                    fixed(int *indicesPtr = indices)
                    {
                        mesh.GetMapFaceIndex(2, face.MeshFaceIndex, new IntPtr(indicesPtr));
                    }
                }
                var texCoord = mesh.GetMapVertex(2, indices[facePart]);
                vertex.UV2 = Loader.Global.Point2.Create(texCoord.X, -texCoord.Y);
            }

            if (hasColor)
            {
                var   vertexColorIndex = (int)face.Color[facePart];
                var   vertexColor      = mesh.GetColorVertex(vertexColorIndex);
                float alpha            = 1;
                if (hasAlpha)
                {
                    var indices = new int[3];
                    unsafe
                    {
                        fixed(int *indicesPtr = indices)
                        {
                            mesh.GetMapFaceIndex(-2, face.MeshFaceIndex, new IntPtr(indicesPtr));
                        }
                    }
                    var color = mesh.GetMapVertex(-2, indices[facePart]);

                    alpha = color.X;
                }

                vertex.Color = new[] { vertexColor.X, vertexColor.Y, vertexColor.Z, alpha };
            }

            if (skin != null)
            {
                float weight0 = 0;
                float weight1 = 0;
                float weight2 = 0;
                float weight3 = 0;
                int   bone0   = bonesCount;
                int   bone1   = bonesCount;
                int   bone2   = bonesCount;
                int   bone3   = bonesCount;
                var   nbBones = skin.GetNumberOfBones(vertexIndex);

                if (nbBones > 0)
                {
                    bone0   = boneIds.IndexOf(skin.GetIGameBone(vertexIndex, 0).NodeID);
                    weight0 = skin.GetWeight(vertexIndex, 0);
                }

                if (nbBones > 1)
                {
                    bone1   = boneIds.IndexOf(skin.GetIGameBone(vertexIndex, 1).NodeID);
                    weight1 = skin.GetWeight(vertexIndex, 1);
                }

                if (nbBones > 2)
                {
                    bone2   = boneIds.IndexOf(skin.GetIGameBone(vertexIndex, 2).NodeID);
                    weight2 = skin.GetWeight(vertexIndex, 2);
                }

                if (nbBones > 3)
                {
                    bone3   = boneIds.IndexOf(skin.GetIGameBone(vertexIndex, 3).NodeID);
                    weight3 = skin.GetWeight(vertexIndex, 3);
                }

                if (nbBones == 0)
                {
                    weight0 = 1.0f;
                    bone0   = bonesCount;
                }

                vertex.Weights      = Loader.Global.Point4.Create(weight0, weight1, weight2, weight3);
                vertex.BonesIndices = (bone3 << 24) | (bone2 << 16) | (bone1 << 8) | bone0;

                if (nbBones > 4)
                {
                    bone0   = boneIds.IndexOf(skin.GetIGameBone(vertexIndex, 4).NodeID);
                    weight0 = skin.GetWeight(vertexIndex, 4);

                    weight1 = 0;
                    weight2 = 0;
                    weight3 = 0;

                    if (nbBones > 5)
                    {
                        bone1   = boneIds.IndexOf(skin.GetIGameBone(vertexIndex, 5).NodeID);
                        weight1 = skin.GetWeight(vertexIndex, 5);
                    }

                    if (nbBones > 6)
                    {
                        bone2   = boneIds.IndexOf(skin.GetIGameBone(vertexIndex, 6).NodeID);
                        weight2 = skin.GetWeight(vertexIndex, 6);
                    }

                    if (nbBones > 7)
                    {
                        bone3   = boneIds.IndexOf(skin.GetIGameBone(vertexIndex, 7).NodeID);
                        weight3 = skin.GetWeight(vertexIndex, 7);
                    }

                    vertex.WeightsExtra      = Loader.Global.Point4.Create(weight0, weight1, weight2, weight3);
                    vertex.BonesIndicesExtra = (bone3 << 24) | (bone2 << 16) | (bone1 << 8) | bone0;

                    if (nbBones > 8)
                    {
                        RaiseError("Too many bones influences per vertex: " + nbBones + ". Babylon.js only support 8 bones influences per vertex.", 2);
                    }
                }
            }

            if (verticesAlreadyExported != null)
            {
                if (verticesAlreadyExported[vertexIndex] != null)
                {
                    var index = verticesAlreadyExported[vertexIndex].IndexOf(vertex);

                    if (index > -1)
                    {
                        return(verticesAlreadyExported[vertexIndex][index].CurrentIndex);
                    }
                }
                else
                {
                    verticesAlreadyExported[vertexIndex] = new List <GlobalVertex>();
                }

                vertex.CurrentIndex = vertices.Count;
                verticesAlreadyExported[vertexIndex].Add(vertex);
            }

            vertices.Add(vertex);

            return(vertices.Count - 1);
        }
Exemplo n.º 4
0
        int CreateGlobalVertex(IIGameNode meshNode, IIGameMesh mesh, BabylonAbstractMesh babylonAbstractMesh, IMatrix3 invertedWorldMatrix, IFaceEx face, int facePart, List <GlobalVertex> vertices, bool hasUV, bool hasUV2, bool hasColor, bool hasAlpha, List <GlobalVertex>[] verticesAlreadyExported, IIGameSkin skin, List <int> boneIds)
        {
            var vertexIndex = (int)face.Vert[facePart];

            // Position can by retreived in world space or object space
            // Unfortunately, this value can't be retreived in local space
            var vertex = new GlobalVertex
            {
                BaseIndex = vertexIndex,
                Position  = mesh.GetVertex(vertexIndex, false),             // world space
                Normal    = mesh.GetNormal((int)face.Norm[facePart], false) // world space
            };

            if (exportParameters.exportTangents)
            {
                int     indexTangentBinormal = mesh.GetFaceVertexTangentBinormal(face.MeshFaceIndex, facePart, 1);
                IPoint3 normal    = vertex.Normal.Normalize;
                IPoint3 tangent   = mesh.GetTangent(indexTangentBinormal, 1).Normalize;
                IPoint3 bitangent = mesh.GetBinormal(indexTangentBinormal, 1).Normalize;
                int     w         = GetW(normal, tangent, bitangent);
                vertex.Tangent = new float[] { tangent.X, tangent.Y, tangent.Z, w };
            }

            // Convert position and normal to local space
            vertex.Position = invertedWorldMatrix.PointTransform(vertex.Position);

            vertex.Normal = invertedWorldMatrix.VectorTransform(vertex.Normal);
            // 1. scale normals with node scales
            var nodeScaling = BabylonVector3.FromArray(babylonAbstractMesh.scaling);

            vertex.Normal = vertex.Normal.Multiply(Loader.Global.Point3.Create(Math.Abs(nodeScaling.X), Math.Abs(nodeScaling.Y), Math.Abs(nodeScaling.Z)));

            // 2. scale normals with objectOffsetScales (unrotate by objectOffsetRot, then scale, then rotate again)
            // note: LH coordinate system => flip y and z
            var objOffsetScale          = Loader.Global.Point3.Create(meshNode.MaxNode.ObjOffsetScale.S);
            var scaleX                  = Math.Abs(objOffsetScale.X);
            var scaleY                  = Math.Abs(objOffsetScale.Y);
            var scaleZ                  = Math.Abs(objOffsetScale.Z);
            var objOffsetScaleFlipYZInv = Loader.Global.Point3.Create(1 / scaleX, 1 / scaleZ, 1 / scaleY);

            var objOffsetQuat = meshNode.MaxNode.ObjOffsetRot;
            var qFlippedYZ    = objOffsetQuat;
            var tmpSwap       = objOffsetQuat.Y;

            qFlippedYZ.Y = objOffsetQuat.Z;
            qFlippedYZ.Z = tmpSwap;

            var nUnrotated       = RotateVectorByQuaternion(vertex.Normal, qFlippedYZ);
            var nUnrotatedScaled = nUnrotated.Multiply(objOffsetScaleFlipYZInv);

            nUnrotatedScaled = nUnrotatedScaled.Normalize;
            var nRerotatedScaled = RotateVectorByQuaternion(nUnrotatedScaled, qFlippedYZ.Conjugate);

            vertex.Normal = nRerotatedScaled;

            if (hasUV)
            {
                var indices = new int[3];
                unsafe
                {
                    fixed(int *indicesPtr = indices)
                    {
                        mesh.GetMapFaceIndex(1, face.MeshFaceIndex, new IntPtr(indicesPtr));
                    }
                }
                var texCoord = mesh.GetMapVertex(1, indices[facePart]);
                vertex.UV = Loader.Global.Point2.Create(texCoord.X, -texCoord.Y);
            }

            if (hasUV2)
            {
                var indices = new int[3];
                unsafe
                {
                    fixed(int *indicesPtr = indices)
                    {
                        mesh.GetMapFaceIndex(2, face.MeshFaceIndex, new IntPtr(indicesPtr));
                    }
                }
                var texCoord = mesh.GetMapVertex(2, indices[facePart]);
                vertex.UV2 = Loader.Global.Point2.Create(texCoord.X, -texCoord.Y);
            }

            if (hasColor)
            {
                var   vertexColorIndex = (int)face.Color[facePart];
                var   vertexColor      = mesh.GetColorVertex(vertexColorIndex);
                float alpha            = 1;
                if (hasAlpha)
                {
                    var indices = new int[3];
                    unsafe
                    {
                        fixed(int *indicesPtr = indices)
                        {
                            mesh.GetMapFaceIndex(-2, face.MeshFaceIndex, new IntPtr(indicesPtr));
                        }
                    }
                    var color = mesh.GetMapVertex(-2, indices[facePart]);

                    alpha = color.X;
                }

                vertex.Color = new[] { vertexColor.X, vertexColor.Y, vertexColor.Z, alpha };
            }

            if (skin != null)
            {
                float[] weight = new float[4] {
                    0, 0, 0, 0
                };
                int[] bone = new int[4] {
                    bonesCount, bonesCount, bonesCount, bonesCount
                };
                var nbBones = skin.GetNumberOfBones(vertexIndex);

                int currentVtxBone  = 0;
                int currentSkinBone = 0;

                // process skin bones until we have 4 bones for this vertex or we run out of skin bones
                for (currentSkinBone = 0; currentSkinBone < nbBones && currentVtxBone < 4; ++currentSkinBone)
                {
                    float boneWeight = skin.GetWeight(vertexIndex, currentSkinBone);
                    if (boneWeight <= 0)
                    {
                        continue;
                    }

                    bone[currentVtxBone]   = boneIds.IndexOf(skin.GetIGameBone(vertexIndex, currentSkinBone).NodeID);
                    weight[currentVtxBone] = skin.GetWeight(vertexIndex, currentSkinBone);
                    ++currentVtxBone;
                }

                // if we didnt have any bones with a weight > 0
                if (currentVtxBone == 0)
                {
                    weight[0] = 1.0f;
                    bone[0]   = bonesCount;
                }

                vertex.Weights      = Loader.Global.Point4.Create(weight);
                vertex.BonesIndices = (bone[3] << 24) | (bone[2] << 16) | (bone[1] << 8) | bone[0];

                if (currentVtxBone >= 4 && currentSkinBone < nbBones)
                {
                    weight = new float[4] {
                        0, 0, 0, 0
                    };
                    bone = new int[4] {
                        bonesCount, bonesCount, bonesCount, bonesCount
                    };

                    // process remaining skin bones until we have a total of 8 bones for this vertex or we run out of skin bones
                    for (; currentSkinBone < nbBones && currentVtxBone < 8; ++currentSkinBone)
                    {
                        float boneWeight = skin.GetWeight(vertexIndex, currentSkinBone);
                        if (boneWeight <= 0)
                        {
                            continue;
                        }

                        if (isGltfExported)
                        {
                            RaiseError("Too many bone influences per vertex for vertexIndex: " + vertexIndex + ". glTF only supports up to 4 bone influences per vertex.", 2);
                            break;
                        }

                        bone[currentVtxBone - 4]   = boneIds.IndexOf(skin.GetIGameBone(vertexIndex, currentSkinBone).NodeID);
                        weight[currentVtxBone - 4] = skin.GetWeight(vertexIndex, currentSkinBone);
                        ++currentVtxBone;
                    }

                    // if we have any extra bone weights
                    if (currentVtxBone > 4)
                    {
                        vertex.WeightsExtra      = Loader.Global.Point4.Create(weight);
                        vertex.BonesIndicesExtra = (bone[3] << 24) | (bone[2] << 16) | (bone[1] << 8) | bone[0];

                        if (currentSkinBone < nbBones)
                        {
                            // if we have more skin bones left, this means we have used up all our bones for this vertex
                            // check if any of the remaining bones has a weight > 0
                            for (; currentSkinBone < nbBones; ++currentSkinBone)
                            {
                                float boneWeight = skin.GetWeight(vertexIndex, currentSkinBone);
                                if (boneWeight <= 0)
                                {
                                    continue;
                                }
                                RaiseError("Too many bone influences per vertex for vertexIndex: " + vertexIndex + ". Babylon.js only supports up to 8 bone influences per vertex.", 2);
                                break;
                            }
                        }
                    }
                }
            }

            if (verticesAlreadyExported != null)
            {
                if (verticesAlreadyExported[vertexIndex] != null)
                {
                    var index = verticesAlreadyExported[vertexIndex].IndexOf(vertex);

                    if (index > -1)
                    {
                        return(verticesAlreadyExported[vertexIndex][index].CurrentIndex);
                    }
                }
                else
                {
                    verticesAlreadyExported[vertexIndex] = new List <GlobalVertex>();
                }

                vertex.CurrentIndex = vertices.Count;
                verticesAlreadyExported[vertexIndex].Add(vertex);
            }

            vertices.Add(vertex);

            return(vertices.Count - 1);
        }
Exemplo n.º 5
0
        /// <summary>
        /// Get TRS and visiblity animations of the transform
        /// </summary>
        /// <param name="transform">Transform above mesh/camera/light</param>
        /// <returns></returns>
        private List <BabylonAnimation> GetAnimation(MFnTransform transform)
        {
            // Animations
            MPlugArray   connections  = new MPlugArray();
            MStringArray animCurvList = new MStringArray();
            MIntArray    keysTime     = new MIntArray();
            MDoubleArray keysValue    = new MDoubleArray();

            MFloatArray translateValues  = new MFloatArray();
            MFloatArray rotateValues     = new MFloatArray();
            MFloatArray scaleValues      = new MFloatArray();
            MFloatArray visibilityValues = new MFloatArray();
            MFloatArray keyTimes         = new MFloatArray();

            List <BabylonAnimationKey> keys             = new List <BabylonAnimationKey>();
            List <BabylonAnimation>    animationsObject = new List <BabylonAnimation>();

            //Get the animCurve
            MGlobal.executeCommand("listConnections -type \"animCurve\" " + transform.fullPathName + ";", animCurvList);

            List <AnimCurvData> animCurvesData = new List <AnimCurvData>();

            foreach (String animCurv in animCurvList)
            {
                AnimCurvData animCurvData = new AnimCurvData();
                animCurvesData.Add(animCurvData);

                animCurvData.animCurv = animCurv;

                //Get the key time for each curves
                MGlobal.executeCommand("keyframe -q " + animCurv + ";", keysTime);

                //Get the value for each curves
                MGlobal.executeCommand("keyframe - q -vc -absolute " + animCurv + ";", keysValue);

                if (animCurv.EndsWith("translateZ") || animCurv.EndsWith("rotateX") || animCurv.EndsWith("rotateY"))
                {
                    for (int index = 0; index < keysTime.Count; index++)
                    {
                        // Switch coordinate system at object level
                        animCurvData.valuePerFrame.Add(keysTime[index], (float)keysValue[index] * -1.0f);
                    }
                }
                else
                {
                    for (int index = 0; index < keysTime.Count; index++)
                    {
                        animCurvData.valuePerFrame.Add(keysTime[index], (float)keysValue[index]);
                    }
                }
            }

            string[] mayaAnimationProperties    = new string[] { "translate", "rotate", "scale" };
            string[] babylonAnimationProperties = new string[] { "position", "rotationQuaternion", "scaling" };
            string[] axis = new string[] { "X", "Y", "Z" };

            // Init TRS default values
            Dictionary <string, float> defaultValues = new Dictionary <string, float>();

            float[] position           = null;
            float[] rotationQuaternion = null;
            float[] rotation           = null;
            float[] scaling            = null;
            GetTransform(transform, ref position, ref rotationQuaternion, ref rotation, ref scaling); // coordinate system already switched
            defaultValues.Add("translateX", position[0]);
            defaultValues.Add("translateY", position[1]);
            defaultValues.Add("translateZ", position[2]);
            defaultValues.Add("rotateX", rotation[0]);
            defaultValues.Add("rotateY", rotation[1]);
            defaultValues.Add("rotateZ", rotation[2]);
            defaultValues.Add("scaleX", scaling[0]);
            defaultValues.Add("scaleY", scaling[1]);
            defaultValues.Add("scaleZ", scaling[2]);

            for (int indexAnimationProperty = 0; indexAnimationProperty < mayaAnimationProperties.Length; indexAnimationProperty++)
            {
                string mayaAnimationProperty = mayaAnimationProperties[indexAnimationProperty];

                // Retreive animation curves data for current animation property
                // Ex: all "translate" data are "translateX", "translateY", "translateZ"
                List <AnimCurvData> animDataProperty = animCurvesData.Where(data => data.animCurv.Contains(mayaAnimationProperty)).ToList();

                if (animDataProperty.Count == 0)
                {
                    // Property is not animated
                    continue;
                }

                // Get all frames for this property
                List <int> framesProperty = new List <int>();
                foreach (var animData in animDataProperty)
                {
                    framesProperty.AddRange(animData.valuePerFrame.Keys);
                }
                framesProperty = framesProperty.Distinct().ToList();
                framesProperty.Sort();

                // Get default values for this property
                BabylonAnimationKey lastBabylonAnimationKey = new BabylonAnimationKey();
                lastBabylonAnimationKey.frame  = 0;
                lastBabylonAnimationKey.values = new float[] { defaultValues[mayaAnimationProperty + "X"], defaultValues[mayaAnimationProperty + "Y"], defaultValues[mayaAnimationProperty + "Z"] };

                // Compute all values for this property
                List <BabylonAnimationKey> babylonAnimationKeys = new List <BabylonAnimationKey>();
                foreach (var frameProperty in framesProperty)
                {
                    BabylonAnimationKey babylonAnimationKey = new BabylonAnimationKey();
                    babylonAnimationKeys.Add(babylonAnimationKey);

                    // Frame
                    babylonAnimationKey.frame = frameProperty;

                    // Values
                    float[] valuesProperty = new float[3];
                    for (int indexAxis = 0; indexAxis < axis.Length; indexAxis++)
                    {
                        AnimCurvData animCurvDataAxis = animDataProperty.Find(data => data.animCurv.EndsWith(axis[indexAxis]));

                        float value;
                        if (animCurvDataAxis != null && animCurvDataAxis.valuePerFrame.ContainsKey(frameProperty))
                        {
                            value = animCurvDataAxis.valuePerFrame[frameProperty];
                        }
                        else
                        {
                            value = lastBabylonAnimationKey.values[indexAxis];
                        }
                        valuesProperty[indexAxis] = value;
                    }
                    babylonAnimationKey.values = valuesProperty.ToArray();

                    // Update last known values
                    lastBabylonAnimationKey = babylonAnimationKey;
                }

                // Convert euler to quaternion angles
                if (indexAnimationProperty == 1) // Rotation
                {
                    foreach (var babylonAnimationKey in babylonAnimationKeys)
                    {
                        BabylonVector3    eulerAngles      = BabylonVector3.FromArray(babylonAnimationKey.values);
                        BabylonQuaternion quaternionAngles = eulerAngles.toQuaternion();
                        babylonAnimationKey.values = quaternionAngles.ToArray();
                    }
                }

                var keysFull = new List <BabylonAnimationKey>(babylonAnimationKeys);

                // Optimization
                OptimizeAnimations(babylonAnimationKeys, true);

                // Ensure animation has at least 2 frames
                if (IsAnimationKeysRelevant(keys))
                {
                    // Create BabylonAnimation
                    string babylonAnimationProperty = babylonAnimationProperties[indexAnimationProperty];
                    animationsObject.Add(new BabylonAnimation()
                    {
                        dataType       = indexAnimationProperty == 1 ? (int)BabylonAnimation.DataType.Quaternion : (int)BabylonAnimation.DataType.Vector3,
                        name           = babylonAnimationProperty + " animation",
                        framePerSecond = 30,
                        loopBehavior   = (int)BabylonAnimation.LoopBehavior.Cycle,
                        property       = babylonAnimationProperty,
                        keys           = babylonAnimationKeys.ToArray(),
                        keysFull       = keysFull
                    });
                }
            }

            return(animationsObject);
        }
Exemplo n.º 6
0
        private GLTFMesh ExportMesh(BabylonMesh babylonMesh, GLTF gltf, BabylonScene babylonScene)
        {
            logger.RaiseMessage("GLTFExporter.Mesh | Export mesh named: " + babylonMesh.name, 1);

            // --------------------------
            // --- Mesh from babylon ----
            // --------------------------
            // get direct access to mesh data or use geometryId to do so
            IBabylonMeshData meshData = babylonMesh.geometryId == null ? babylonMesh : (IBabylonMeshData)babylonScene.geometries.Get(babylonMesh.geometryId) ?? babylonMesh;

            if (meshData.positions == null || meshData.positions.Length == 0)
            {
                logger.RaiseMessage("GLTFExporter.Mesh | Mesh is a dummy", 2);
                return(null);
            }

            logger.RaiseMessage("GLTFExporter.Mesh | Mesh from babylon", 2);
            // Retreive general data from babylon mesh
            int  nbVertices  = meshData.positions.Length / 3;
            bool hasUV       = meshData.uvs != null && meshData.uvs.Length > 0;
            bool hasUV2      = meshData.uvs2 != null && meshData.uvs2.Length > 0;
            bool hasColor    = meshData.colors != null && meshData.colors.Length > 0;
            bool hasBones    = meshData.matricesIndices != null && meshData.matricesIndices.Length > 0;
            bool hasTangents = meshData.tangents != null && meshData.tangents.Length > 0;
            bool hasNormals  = meshData.normals != null && meshData.normals.Length > 0;

            bool hasBonesExtra = babylonMesh.matricesIndicesExtra != null && babylonMesh.matricesIndicesExtra.Length > 0;
            bool hasMetadata   = babylonMesh.metadata != null && babylonMesh.metadata.Count > 0;

            logger.RaiseMessage("GLTFExporter.Mesh | nbVertices=" + nbVertices, 3);
            logger.RaiseMessage("GLTFExporter.Mesh | hasUV=" + hasUV, 3);
            logger.RaiseMessage("GLTFExporter.Mesh | hasUV2=" + hasUV2, 3);
            logger.RaiseMessage("GLTFExporter.Mesh | hasColor=" + hasColor, 3);
            logger.RaiseMessage("GLTFExporter.Mesh | hasBones=" + hasBones, 3);
            logger.RaiseMessage("GLTFExporter.Mesh | hasBonesExtra=" + hasBonesExtra, 3);
            logger.RaiseMessage("GLTFExporter.Mesh | hasMetadata=" + hasMetadata, 3);
            logger.RaiseMessage("GLTFExporter.Mesh | hasNormals=" + hasNormals, 3);

            // Retreive vertices data from babylon mesh
            List <GLTFGlobalVertex> globalVertices = new List <GLTFGlobalVertex>();

            for (int indexVertex = 0; indexVertex < nbVertices; indexVertex++)
            {
                GLTFGlobalVertex globalVertex = new GLTFGlobalVertex();
                globalVertex.Position = BabylonVector3.FromArray(meshData.positions, indexVertex);

                // Switch coordinate system at object level
                globalVertex.Position.Z *= -1;
                globalVertex.Position   *= exportParameters.scaleFactor;

                if (hasNormals)
                {
                    globalVertex.Normal    = BabylonVector3.FromArray(meshData.normals, indexVertex);
                    globalVertex.Normal.Z *= -1;
                }

                if (hasTangents)
                {
                    globalVertex.Tangent = BabylonQuaternion.FromArray(meshData.tangents, indexVertex);

                    // Switch coordinate system at object level
                    globalVertex.Tangent.Z *= -1;

                    // Invert W to switch to right handed system
                    globalVertex.Tangent.W *= -1;
                }

                if (hasUV)
                {
                    globalVertex.UV = BabylonVector2.FromArray(meshData.uvs, indexVertex);
                    // For glTF, the origin of the UV coordinates (0, 0) corresponds to the upper left corner of a texture image
                    // While for Babylon, it corresponds to the lower left corner of a texture image
                    globalVertex.UV.Y = 1 - globalVertex.UV.Y;
                }
                if (hasUV2)
                {
                    globalVertex.UV2 = BabylonVector2.FromArray(meshData.uvs2, indexVertex);
                    // For glTF, the origin of the UV coordinates (0, 0) corresponds to the upper left corner of a texture image
                    // While for Babylon, it corresponds to the lower left corner of a texture image
                    globalVertex.UV2.Y = 1 - globalVertex.UV2.Y;
                }
                if (hasColor)
                {
                    globalVertex.Color = ArrayExtension.SubArrayFromEntity(meshData.colors, indexVertex, 4);
                }
                if (hasBones)
                {
                    // In babylon, the 4 bones indices are stored in a single int
                    // Each bone index is 8-bit offset from the next
                    ushort[] unpackBabylonBonesToArray(uint babylonBoneIndices)
                    {
                        uint bone3 = babylonBoneIndices >> 24;
                        uint bone2 = (babylonBoneIndices << 8) >> 24;
                        uint bone1 = (babylonBoneIndices << 16) >> 24;
                        uint bone0 = (babylonBoneIndices << 24) >> 24;

                        babylonBoneIndices -= bone0 << 0;
                        return(new ushort[] { (ushort)bone0, (ushort)bone1, (ushort)bone2, (ushort)bone3 });
                    }

                    uint bonesIndicesMerged = (uint)meshData.matricesIndices[indexVertex];
                    globalVertex.BonesIndices = unpackBabylonBonesToArray(bonesIndicesMerged);
                    globalVertex.BonesWeights = ArrayExtension.SubArrayFromEntity(meshData.matricesWeights, indexVertex, 4);
                    void clearBoneUnusedIndices(ushort[] indices, float[] weights)
                    {
                        for (int i = 0; i < indices.Length; ++i)
                        {
                            // Zero out indices of unused joint weights to avoid ACCESSOR_JOINTS_USED_ZERO_WEIGHT.
                            if (MathUtilities.IsAlmostEqualTo(weights[i], 0, float.Epsilon))
                            {
                                indices[i] = 0;
                            }
                        }
                    }

                    clearBoneUnusedIndices(globalVertex.BonesIndices, globalVertex.BonesWeights);

                    if (hasBonesExtra)
                    {
                        uint bonesIndicesExtraMerged = (uint)meshData.matricesIndicesExtra[indexVertex];
                        globalVertex.BonesIndicesExtra = unpackBabylonBonesToArray(bonesIndicesExtraMerged);
                        globalVertex.BonesWeightsExtra = ArrayExtension.SubArrayFromEntity(meshData.matricesWeightsExtra, indexVertex, 4);

                        clearBoneUnusedIndices(globalVertex.BonesIndicesExtra, globalVertex.BonesWeightsExtra);
                    }
                }

                globalVertices.Add(globalVertex);
            }

            var babylonMorphTargetManager = GetBabylonMorphTargetManager(babylonScene, babylonMesh);

            // Retreive indices from babylon mesh
            List <int> babylonIndices = meshData.indices.ToList();

            // --------------------------
            // ------- Init glTF --------
            // --------------------------

            logger.RaiseMessage("GLTFExporter.Mesh | Init glTF", 2);
            // Mesh
            var gltfMesh = new GLTFMesh {
                name = babylonMesh.name
            };

            gltfMesh.index = gltf.MeshesList.Count;
            gltf.MeshesList.Add(gltfMesh);
            gltfMesh.idGroupInstance = babylonMesh.idGroupInstance;
            if (hasBones)
            {
                gltfMesh.idBabylonSkeleton = babylonMesh.skeletonId;
            }

            // --------------------------
            // ---- glTF primitives -----
            // --------------------------
            logger.RaiseMessage("GLTFExporter.Mesh | glTF primitives", 2);
            List <GLTFMeshPrimitive> meshPrimitives = new List <GLTFMeshPrimitive>();

            if (meshData != babylonMesh && primitivesCache.TryGetValue(babylonMesh.geometryId, out List <GLTFMeshPrimitive> result))
            {
                // this is a clone, indexing the same geometry
                // so we just need to retreive the primitive object and copy attributes and indices
                meshPrimitives.AddRange(result.Select((p, i) =>
                {
                    var meshPrimitive = new GLTFMeshPrimitive()
                    {
                        indices    = p.indices,
                        attributes = p.attributes
                    };

                    // Material
                    if (babylonMesh.materialId != null)
                    {
                        logger.RaiseMessage("GLTFExporter.Mesh | Material", 3);
                        // according we have a clone, then submeshes are of the same count and order.
                        SetBabylonMaterial(babylonMesh, babylonMesh.subMeshes[i], meshPrimitive);
                    }
                    return(meshPrimitive);
                }));
            }
            else
            {
                foreach (BabylonSubMesh babylonSubMesh in babylonMesh.subMeshes)
                {
                    // --------------------------
                    // ------ SubMesh data ------
                    // --------------------------

                    List <GLTFGlobalVertex> globalVerticesSubMesh = globalVertices.GetRange(babylonSubMesh.verticesStart, babylonSubMesh.verticesCount);

                    var gltfIndices = babylonIndices.GetRange(babylonSubMesh.indexStart, babylonSubMesh.indexCount);
                    // In gltf, indices of each mesh primitive are 0-based (ie: min value is 0)
                    // Thus, the gltf indices list is a concatenation of sub lists all 0-based
                    // Example for 2 triangles, each being a submesh:
                    // babylonIndices = {0,1,2, 3,4,5} gives as result gltfIndicies = {0,1,2, 0,1,2}
                    var minIndiceValue = gltfIndices.Min(); // Should be equal to babylonSubMesh.indexStart
                    if (minIndiceValue != 0)
                    {
                        for (int indexIndice = 0; indexIndice < gltfIndices.Count; indexIndice++)
                        {
                            gltfIndices[indexIndice] -= minIndiceValue;
                        }
                    }

                    // --------------------------
                    // ----- Mesh primitive -----
                    // --------------------------
                    // MeshPrimitive
                    var meshPrimitive = new GLTFMeshPrimitive
                    {
                        attributes = new Dictionary <string, int>()
                    };
                    meshPrimitives.Add(meshPrimitive);

                    // Material
                    if (babylonMesh.materialId != null)
                    {
                        logger.RaiseMessage("GLTFExporter.Mesh | Material", 3);
                        SetBabylonMaterial(babylonMesh, babylonSubMesh, meshPrimitive);
                    }

                    // --------------------------
                    // ------- Accessors --------
                    // --------------------------

                    logger.RaiseMessage("GLTFExporter.Mesh | Geometry", 3);

                    // Buffer
                    var buffer = GLTFBufferService.Instance.GetBuffer(gltf);

                    // --- Indices ---
                    var componentType = GLTFAccessor.ComponentType.UNSIGNED_SHORT;
                    if (nbVertices >= 65536)
                    {
                        componentType = GLTFAccessor.ComponentType.UNSIGNED_INT;
                    }
                    var accessorIndices = GLTFBufferService.Instance.CreateAccessor(
                        gltf,
                        GLTFBufferService.Instance.GetBufferViewScalar(gltf, buffer),
                        "accessorIndices",
                        componentType,
                        GLTFAccessor.TypeEnum.SCALAR
                        );
                    meshPrimitive.indices = accessorIndices.index;
                    // Populate accessor
                    if (componentType == GLTFAccessor.ComponentType.UNSIGNED_INT)
                    {
                        gltfIndices.ForEach(n => accessorIndices.bytesList.AddRange(BitConverter.GetBytes(n)));
                    }
                    else
                    {
                        var gltfIndicesShort = gltfIndices.ConvertAll(new Converter <int, ushort>(n => (ushort)n));
                        gltfIndicesShort.ForEach(n => accessorIndices.bytesList.AddRange(BitConverter.GetBytes(n)));
                    }
                    accessorIndices.count = gltfIndices.Count;

                    // --- Positions ---
                    var accessorPositions = GLTFBufferService.Instance.CreateAccessor(
                        gltf,
                        GLTFBufferService.Instance.GetBufferViewFloatVec3(gltf, buffer),
                        "accessorPositions",
                        GLTFAccessor.ComponentType.FLOAT,
                        GLTFAccessor.TypeEnum.VEC3
                        );
                    meshPrimitive.attributes.Add(GLTFMeshPrimitive.Attribute.POSITION.ToString(), accessorPositions.index);
                    // Populate accessor
                    accessorPositions.min = new float[] { float.MaxValue, float.MaxValue, float.MaxValue };
                    accessorPositions.max = new float[] { float.MinValue, float.MinValue, float.MinValue };
                    globalVerticesSubMesh.ForEach((globalVertex) =>
                    {
                        var positions = globalVertex.Position.ToArray();
                        // Store values as bytes
                        foreach (var position in positions)
                        {
                            accessorPositions.bytesList.AddRange(BitConverter.GetBytes(position));
                        }
                        // Update min and max values
                        GLTFBufferService.UpdateMinMaxAccessor(accessorPositions, positions);
                    });
                    accessorPositions.count = globalVerticesSubMesh.Count;

                    // --- Tangents ---
                    if (hasTangents)
                    {
                        var accessorTangents = GLTFBufferService.Instance.CreateAccessor(
                            gltf,
                            GLTFBufferService.Instance.GetBufferViewFloatVec4(gltf, buffer),
                            "accessorTangents",
                            GLTFAccessor.ComponentType.FLOAT,
                            GLTFAccessor.TypeEnum.VEC4
                            );
                        meshPrimitive.attributes.Add(GLTFMeshPrimitive.Attribute.TANGENT.ToString(), accessorTangents.index);
                        // Populate accessor
                        List <float> tangents = globalVerticesSubMesh.SelectMany(v => v.Tangent.ToArray()).ToList();
                        tangents.ForEach(n => accessorTangents.bytesList.AddRange(BitConverter.GetBytes(n)));
                        accessorTangents.count = globalVerticesSubMesh.Count;
                    }

                    // --- Normals ---
                    if (hasNormals)
                    {
                        var accessorNormals = GLTFBufferService.Instance.CreateAccessor(
                            gltf,
                            GLTFBufferService.Instance.GetBufferViewFloatVec3(gltf, buffer),
                            "accessorNormals",
                            GLTFAccessor.ComponentType.FLOAT,
                            GLTFAccessor.TypeEnum.VEC3
                            );
                        meshPrimitive.attributes.Add(GLTFMeshPrimitive.Attribute.NORMAL.ToString(), accessorNormals.index);

                        // Populate accessor
                        List <float> normals = globalVerticesSubMesh.SelectMany(v => v.Normal.ToArray()).ToList();
                        normals.ForEach(n => accessorNormals.bytesList.AddRange(BitConverter.GetBytes(n)));
                        accessorNormals.count = globalVerticesSubMesh.Count;
                    }

                    // --- Colors ---
                    if (hasColor)
                    {
                        var accessorColors = GLTFBufferService.Instance.CreateAccessor(
                            gltf,
                            GLTFBufferService.Instance.GetBufferViewFloatVec4(gltf, buffer),
                            "accessorColors",
                            GLTFAccessor.ComponentType.FLOAT,
                            GLTFAccessor.TypeEnum.VEC4
                            );
                        meshPrimitive.attributes.Add(GLTFMeshPrimitive.Attribute.COLOR_0.ToString(), accessorColors.index);
                        // Populate accessor
                        List <float> colors = globalVerticesSubMesh.SelectMany(v => new[] { v.Color[0], v.Color[1], v.Color[2], v.Color[3] }).ToList();
                        colors.ForEach(n => accessorColors.bytesList.AddRange(BitConverter.GetBytes(n)));
                        accessorColors.count = globalVerticesSubMesh.Count;
                    }

                    // --- UV ---
                    if (hasUV)
                    {
                        var accessorUVs = GLTFBufferService.Instance.CreateAccessor(
                            gltf,
                            GLTFBufferService.Instance.GetBufferViewFloatVec2(gltf, buffer),
                            "accessorUVs",
                            GLTFAccessor.ComponentType.FLOAT,
                            GLTFAccessor.TypeEnum.VEC2
                            );
                        meshPrimitive.attributes.Add(GLTFMeshPrimitive.Attribute.TEXCOORD_0.ToString(), accessorUVs.index);
                        // Populate accessor
                        List <float> uvs = globalVerticesSubMesh.SelectMany(v => v.UV.ToArray()).ToList();
                        uvs.ForEach(n => accessorUVs.bytesList.AddRange(BitConverter.GetBytes(n)));
                        accessorUVs.count = globalVerticesSubMesh.Count;
                    }

                    // --- UV2 ---
                    if (hasUV2)
                    {
                        var accessorUV2s = GLTFBufferService.Instance.CreateAccessor(
                            gltf,
                            GLTFBufferService.Instance.GetBufferViewFloatVec2(gltf, buffer),
                            "accessorUV2s",
                            GLTFAccessor.ComponentType.FLOAT,
                            GLTFAccessor.TypeEnum.VEC2
                            );
                        meshPrimitive.attributes.Add(GLTFMeshPrimitive.Attribute.TEXCOORD_1.ToString(), accessorUV2s.index);
                        // Populate accessor
                        List <float> uvs2 = globalVerticesSubMesh.SelectMany(v => v.UV2.ToArray()).ToList();
                        uvs2.ForEach(n => accessorUV2s.bytesList.AddRange(BitConverter.GetBytes(n)));
                        accessorUV2s.count = globalVerticesSubMesh.Count;
                    }

                    // --- Bones ---
                    if (hasBones)
                    {
                        logger.RaiseMessage("GLTFExporter.Mesh | Bones", 3);

                        // if we've already exported this mesh's skeleton, check if the skins match,
                        // if so then export this mesh primitive to share joint and weight accessors.
                        var matchingSkinnedMesh = alreadyExportedSkinnedMeshes.FirstOrDefault(skinnedMesh => skinnedMesh.skeletonId == babylonMesh.skeletonId);
                        if (matchingSkinnedMesh != null && BabylonMesh.MeshesShareSkin(matchingSkinnedMesh, babylonMesh))
                        {
                            var tmpGltfMesh          = gltf.MeshesList.FirstOrDefault(mesh => matchingSkinnedMesh.name == mesh.name);
                            var tmpGltfMeshPrimitive = tmpGltfMesh.primitives.First();

                            meshPrimitive.attributes.Add(GLTFMeshPrimitive.Attribute.JOINTS_0.ToString(), tmpGltfMeshPrimitive.attributes[GLTFMeshPrimitive.Attribute.JOINTS_0.ToString()]);
                            meshPrimitive.attributes.Add(GLTFMeshPrimitive.Attribute.WEIGHTS_0.ToString(), tmpGltfMeshPrimitive.attributes[GLTFMeshPrimitive.Attribute.WEIGHTS_0.ToString()]);
                            if (hasBonesExtra)
                            {
                                meshPrimitive.attributes.Add(GLTFMeshPrimitive.Attribute.JOINTS_1.ToString(), tmpGltfMeshPrimitive.attributes[GLTFMeshPrimitive.Attribute.JOINTS_1.ToString()]);
                                meshPrimitive.attributes.Add(GLTFMeshPrimitive.Attribute.WEIGHTS_1.ToString(), tmpGltfMeshPrimitive.attributes[GLTFMeshPrimitive.Attribute.WEIGHTS_1.ToString()]);
                            }
                            sharedSkinnedMeshesByOriginal[tmpGltfMesh].Add(gltfMesh);
                        }
                        else
                        {
                            // Create new joint and weight accessors for this mesh's skinning.
                            // --- Joints ---
                            sharedSkinnedMeshesByOriginal[gltfMesh] = new List <GLTFMesh>();
                            var accessorJoints = GLTFBufferService.Instance.CreateAccessor(
                                gltf,
                                GLTFBufferService.Instance.GetBufferViewUnsignedShortVec4(gltf, buffer),
                                "accessorJoints",
                                GLTFAccessor.ComponentType.UNSIGNED_SHORT,
                                GLTFAccessor.TypeEnum.VEC4
                                );
                            meshPrimitive.attributes.Add(GLTFMeshPrimitive.Attribute.JOINTS_0.ToString(), accessorJoints.index);
                            // Populate accessor
                            List <ushort> joints = globalVerticesSubMesh.SelectMany(v => new[] { v.BonesIndices[0], v.BonesIndices[1], v.BonesIndices[2], v.BonesIndices[3] }).ToList();
                            joints.ForEach(n => accessorJoints.bytesList.AddRange(BitConverter.GetBytes(n)));
                            accessorJoints.count = globalVerticesSubMesh.Count;

                            if (hasBonesExtra)
                            {
                                // --- Joints Extra ---
                                var accessorJointsExtra = GLTFBufferService.Instance.CreateAccessor(
                                    gltf,
                                    GLTFBufferService.Instance.GetBufferViewUnsignedShortVec4(gltf, buffer),
                                    "accessorJointsExtra",
                                    GLTFAccessor.ComponentType.UNSIGNED_SHORT,
                                    GLTFAccessor.TypeEnum.VEC4
                                    );
                                meshPrimitive.attributes.Add(GLTFMeshPrimitive.Attribute.JOINTS_1.ToString(), accessorJointsExtra.index);
                                // Populate accessor
                                List <ushort> jointsExtra = globalVerticesSubMesh.SelectMany(v => new[] { v.BonesIndicesExtra[0], v.BonesIndicesExtra[1], v.BonesIndicesExtra[2], v.BonesIndicesExtra[3] }).ToList();
                                jointsExtra.ForEach(n => accessorJointsExtra.bytesList.AddRange(BitConverter.GetBytes(n)));
                                accessorJointsExtra.count = globalVerticesSubMesh.Count;
                            }

                            // --- Weights ---
                            var accessorWeights = GLTFBufferService.Instance.CreateAccessor(
                                gltf,
                                GLTFBufferService.Instance.GetBufferViewFloatVec4(gltf, buffer),
                                "accessorWeights",
                                GLTFAccessor.ComponentType.FLOAT,
                                GLTFAccessor.TypeEnum.VEC4
                                );
                            meshPrimitive.attributes.Add(GLTFMeshPrimitive.Attribute.WEIGHTS_0.ToString(), accessorWeights.index);
                            // Populate accessor
                            List <float> weightBones = globalVerticesSubMesh.SelectMany(v => new[] { v.BonesWeights[0], v.BonesWeights[1], v.BonesWeights[2], v.BonesWeights[3] }).ToList();
                            weightBones.ForEach(n => accessorWeights.bytesList.AddRange(BitConverter.GetBytes(n)));
                            accessorWeights.count = globalVerticesSubMesh.Count;

                            if (hasBonesExtra)
                            {
                                // --- Weights Extra ---
                                var accessorWeightsExtra = GLTFBufferService.Instance.CreateAccessor(
                                    gltf,
                                    GLTFBufferService.Instance.GetBufferViewFloatVec4(gltf, buffer),
                                    "accessorWeightsExtra",
                                    GLTFAccessor.ComponentType.FLOAT,
                                    GLTFAccessor.TypeEnum.VEC4
                                    );
                                meshPrimitive.attributes.Add(GLTFMeshPrimitive.Attribute.WEIGHTS_1.ToString(), accessorWeightsExtra.index);
                                // Populate accessor
                                List <float> weightBonesExtra = globalVerticesSubMesh.SelectMany(v => new[] { v.BonesWeightsExtra[0], v.BonesWeightsExtra[1], v.BonesWeightsExtra[2], v.BonesWeightsExtra[3] }).ToList();
                                weightBonesExtra.ForEach(n => accessorWeightsExtra.bytesList.AddRange(BitConverter.GetBytes(n)));
                                accessorWeightsExtra.count = globalVerticesSubMesh.Count;
                            }
                        }
                    }

                    // Morph targets positions and normals
                    if (babylonMorphTargetManager != null)
                    {
                        logger.RaiseMessage("GLTFExporter.Mesh | Morph targets", 3);
                        _exportMorphTargets(babylonMesh, babylonSubMesh, babylonMorphTargetManager, gltf, buffer, meshPrimitive);
                    }
                }

                // this is a "master" mesh so save the primitives into dictionary
                if (babylonMesh.geometryId != null && meshPrimitives != null)
                {
                    primitivesCache.Add(babylonMesh.geometryId, meshPrimitives);
                }
            }
            gltfMesh.primitives = meshPrimitives.ToArray();

            // Morph targets weights and names
            if (babylonMorphTargetManager != null && babylonMorphTargetManager.targets != null)
            {
                var weights     = new List <float>();
                var targetNames = new List <String>();
                foreach (BabylonMorphTarget babylonMorphTarget in babylonMorphTargetManager.targets)
                {
                    weights.Add(babylonMorphTarget.influence);
                    targetNames.Add(babylonMorphTarget.name);
                }
                gltfMesh.weights = weights.ToArray();

                if (gltfMesh.extras == null)
                {
                    gltfMesh.extras = new Dictionary <string, object>();
                }
                gltfMesh.extras["targetNames"] = targetNames.ToArray();
            }

            if (hasBones)
            {
                alreadyExportedSkinnedMeshes.Add(babylonMesh);
            }

            ExportGLTFExtension(babylonMesh, ref gltfMesh, gltf);

            return(gltfMesh);
        }