C# (CSharp) GlTF_Mesh.GetNameFromObject示例

示例#1

文件： GlTF_ScriptableExporter.cs 项目： mikeage/open-brush-lfs

    // Doesn't do material export; for that see ExportMeshPayload
    private GlTF_Node ExportMeshPayload_NoMaterial(
        BaseMeshPayload mesh,
        [CanBeNull] GlTF_Node parent,
        Matrix4x4?localXf = null)
    {
        ObjectName   meshNameAndId = new ObjectName(mesh.legacyUniqueName);
        GeometryPool pool          = mesh.geometry;
        Matrix4x4    xf            = localXf ?? mesh.xform;
        // Create a Node and (usually) a Mesh, both named after meshNameAndId.
        // This is safe because the namespaces for Node and Mesh are distinct.
        // If we have already seen the GeometryPool, the Mesh will be reused.
        // In this (less common) case, the Node and Mesh will have different names.

        // We don't actually ever use the "VERTEXID" attribute, even in gltf1.
        // It's time to cut it away.
        // Also, in gltf2, it needs to be called _VERTEXID anyway since it's a custom attribute
        GlTF_VertexLayout gltfLayout = new GlTF_VertexLayout(G, pool.Layout);

        int numTris = pool.NumTriIndices / 3;

        if (numTris < 1)
        {
            return(null);
        }

        NumTris += numTris;

        GlTF_Mesh gltfMesh;

        // Share meshes for any repeated geometry pool.
        if (!m_meshCache.TryGetValue(pool, out gltfMesh))
        {
            gltfMesh      = new GlTF_Mesh(G);
            gltfMesh.name = GlTF_Mesh.GetNameFromObject(meshNameAndId);
            gltfMesh.PresentationNameOverride = mesh.geometryName;
            m_meshCache.Add(pool, gltfMesh);

            // Populate mesh data only once.
            AddMeshDependencies(meshNameAndId, mesh.exportableMaterial, gltfMesh, gltfLayout);
            gltfMesh.Populate(pool);
            G.meshes.Add(gltfMesh);
        }

        // The mesh may or may not be shared, but every mesh will have a distinct node to allow them
        // to have unique transforms.
        GlTF_Node node = GlTF_Node.GetOrCreate(G, meshNameAndId, xf, parent, out _);

        node.m_mesh = gltfMesh;
        node.PresentationNameOverride = mesh.nodeName;
        return(node);
    }

示例#2

    public IEnumerator Export(string path, Preset presetAsset, bool buildZip, bool exportPBRMaterials, bool exportAnimation = true, bool doConvertImages = false)
    {
        writer = new GlTF_Writer();
        writer.Init();
        done = false;
        bool debugRightHandedScale = false;

        GlTF_Writer.exportedFiles.Clear();
        if (debugRightHandedScale)
        {
            GlTF_Writer.convertRightHanded = false;
        }

        writer.extraString.Add("exporterVersion", GlTF_Writer.exporterVersion);

        // Create rootNode
        GlTF_Node correctionNode = new GlTF_Node();

        correctionNode.id   = "UnityGlTF_root";
        correctionNode.name = "UnityGlTF_root";
        GlTF_Writer.nodes.Add(correctionNode);
        GlTF_Writer.nodeNames.Add(correctionNode.name);
        GlTF_Writer.rootNodes.Add(correctionNode);

        //path = toGlTFname(path);
        savedPath = Path.GetDirectoryName(path);

        // Temp list to keep track of skeletons
        Dictionary <string, GlTF_Skin> parsedSkins = new Dictionary <string, GlTF_Skin>();

        parsedSkins.Clear();

        // first, collect objects in the scene, add to lists
        Transform[]      transforms = Selection.GetTransforms(SelectionMode.Deep);
        List <Transform> trs        = new List <Transform>(transforms);
        // Prefilter selected nodes and look for skinning in order to list "bones" nodes
        //FIXME: improve this
        List <Transform> bones = new List <Transform>();

        foreach (Transform tr in trs)
        {
            if (!tr.gameObject.activeSelf)
            {
                continue;
            }

            SkinnedMeshRenderer skin = tr.GetComponent <SkinnedMeshRenderer>();
            if (skin)
            {
                foreach (Transform bone in skin.bones)
                {
                    bones.Add(bone);
                }
            }
        }

        nbSelectedObjects = trs.Count;
        int nbDisabledObjects = 0;

        foreach (Transform tr in trs)
        {
            if (tr.gameObject.activeInHierarchy == false)
            {
                nbDisabledObjects++;
                continue;
            }

            // Initialize the node
            GlTF_Node node = new GlTF_Node();
            node.id   = GlTF_Node.GetNameFromObject(tr);
            node.name = GlTF_Writer.cleanNonAlphanumeric(tr.name);

            if (tr.GetComponent <Camera>() != null)
            {
                parseUnityCamera(tr);
            }

            if (tr.GetComponent <Light>() != null)
            {
                parseUnityLight(tr);
            }

            Mesh m = GetMesh(tr);
            if (m != null)
            {
                GlTF_Mesh mesh = new GlTF_Mesh();
                mesh.name = GlTF_Writer.cleanNonAlphanumeric(GlTF_Mesh.GetNameFromObject(m) + tr.name);

                GlTF_Accessor positionAccessor = new GlTF_Accessor(GlTF_Accessor.GetNameFromObject(m, "position"), GlTF_Accessor.Type.VEC3, GlTF_Accessor.ComponentType.FLOAT);
                positionAccessor.bufferView = GlTF_Writer.vec3BufferView;
                GlTF_Writer.accessors.Add(positionAccessor);

                GlTF_Accessor normalAccessor = null;
                if (m.normals.Length > 0)
                {
                    normalAccessor            = new GlTF_Accessor(GlTF_Accessor.GetNameFromObject(m, "normal"), GlTF_Accessor.Type.VEC3, GlTF_Accessor.ComponentType.FLOAT);
                    normalAccessor.bufferView = GlTF_Writer.vec3BufferView;
                    GlTF_Writer.accessors.Add(normalAccessor);
                }

                GlTF_Accessor colorAccessor = null;
                if (m.colors.Length > 0)
                {
                    colorAccessor            = new GlTF_Accessor(GlTF_Accessor.GetNameFromObject(m, "color"), GlTF_Accessor.Type.VEC4, GlTF_Accessor.ComponentType.FLOAT);
                    colorAccessor.bufferView = GlTF_Writer.vec4BufferView;
                    GlTF_Writer.accessors.Add(colorAccessor);
                }

                GlTF_Accessor uv0Accessor = null;
                if (m.uv.Length > 0)
                {
                    uv0Accessor            = new GlTF_Accessor(GlTF_Accessor.GetNameFromObject(m, "uv0"), GlTF_Accessor.Type.VEC2, GlTF_Accessor.ComponentType.FLOAT);
                    uv0Accessor.bufferView = GlTF_Writer.vec2BufferView;
                    GlTF_Writer.accessors.Add(uv0Accessor);
                }

                GlTF_Accessor uv1Accessor = null;
                if (m.uv2.Length > 0)
                {
                    // check if object is affected by a lightmap
                    uv1Accessor            = new GlTF_Accessor(GlTF_Accessor.GetNameFromObject(m, "uv1"), GlTF_Accessor.Type.VEC2, GlTF_Accessor.ComponentType.FLOAT);
                    uv1Accessor.bufferView = GlTF_Writer.vec2BufferView;
                    GlTF_Writer.accessors.Add(uv1Accessor);
                }

                GlTF_Accessor uv2Accessor = null;
                if (m.uv3.Length > 0)
                {
                    uv2Accessor            = new GlTF_Accessor(GlTF_Accessor.GetNameFromObject(m, "uv2"), GlTF_Accessor.Type.VEC2, GlTF_Accessor.ComponentType.FLOAT);
                    uv2Accessor.bufferView = GlTF_Writer.vec2BufferView;
                    GlTF_Writer.accessors.Add(uv2Accessor);
                }

                GlTF_Accessor uv3Accessor = null;
                if (m.uv4.Length > 0)
                {
                    uv3Accessor            = new GlTF_Accessor(GlTF_Accessor.GetNameFromObject(m, "uv3"), GlTF_Accessor.Type.VEC2, GlTF_Accessor.ComponentType.FLOAT);
                    uv3Accessor.bufferView = GlTF_Writer.vec2BufferView;
                    GlTF_Writer.accessors.Add(uv3Accessor);
                }

                GlTF_Accessor jointAccessor = null;
                if (exportAnimation && m.boneWeights.Length > 0)
                {
                    jointAccessor            = new GlTF_Accessor(GlTF_Accessor.GetNameFromObject(m, "joints"), GlTF_Accessor.Type.VEC4, GlTF_Accessor.ComponentType.USHORT);
                    jointAccessor.bufferView = GlTF_Writer.vec4UshortBufferView;
                    GlTF_Writer.accessors.Add(jointAccessor);
                }

                GlTF_Accessor weightAccessor = null;
                if (exportAnimation && m.boneWeights.Length > 0)
                {
                    weightAccessor            = new GlTF_Accessor(GlTF_Accessor.GetNameFromObject(m, "weights"), GlTF_Accessor.Type.VEC4, GlTF_Accessor.ComponentType.FLOAT);
                    weightAccessor.bufferView = GlTF_Writer.vec4BufferView;
                    GlTF_Writer.accessors.Add(weightAccessor);
                }

                GlTF_Accessor tangentAccessor = null;
                if (m.tangents.Length > 0)
                {
                    tangentAccessor            = new GlTF_Accessor(GlTF_Accessor.GetNameFromObject(m, "tangents"), GlTF_Accessor.Type.VEC4, GlTF_Accessor.ComponentType.FLOAT);
                    tangentAccessor.bufferView = GlTF_Writer.vec4BufferView;
                    GlTF_Writer.accessors.Add(tangentAccessor);
                }

                var smCount = m.subMeshCount;
                for (var i = 0; i < smCount; ++i)
                {
                    GlTF_Primitive primitive = new GlTF_Primitive();
                    primitive.name  = GlTF_Primitive.GetNameFromObject(m, i);
                    primitive.index = i;
                    GlTF_Attributes attributes = new GlTF_Attributes();
                    attributes.positionAccessor  = positionAccessor;
                    attributes.normalAccessor    = normalAccessor;
                    attributes.colorAccessor     = colorAccessor;
                    attributes.texCoord0Accessor = uv0Accessor;
                    attributes.texCoord1Accessor = uv1Accessor;
                    attributes.texCoord2Accessor = uv2Accessor;
                    attributes.texCoord3Accessor = uv3Accessor;
                    attributes.jointAccessor     = jointAccessor;
                    attributes.weightAccessor    = weightAccessor;
                    attributes.tangentAccessor   = tangentAccessor;
                    primitive.attributes         = attributes;
                    GlTF_Accessor indexAccessor = new GlTF_Accessor(GlTF_Accessor.GetNameFromObject(m, "indices_" + i), GlTF_Accessor.Type.SCALAR, GlTF_Accessor.ComponentType.USHORT);
                    indexAccessor.bufferView = GlTF_Writer.ushortBufferView;
                    GlTF_Writer.accessors.Add(indexAccessor);
                    primitive.indices = indexAccessor;

                    var mr = GetRenderer(tr);
                    var sm = mr.sharedMaterials;
                    if (i < sm.Length)
                    {
                        var mat     = sm[i];
                        var matName = GlTF_Material.GetNameFromObject(mat);
                        if (GlTF_Writer.materialNames.Contains(matName))
                        {
                            primitive.materialIndex = GlTF_Writer.materialNames.IndexOf(matName);                             // THIS INDIRECTION CAN BE REMOVED!
                        }
                        else
                        {
                            GlTF_Material material = new GlTF_Material();
                            material.name           = GlTF_Writer.cleanNonAlphanumeric(mat.name);
                            primitive.materialIndex = GlTF_Writer.materials.Count;
                            GlTF_Writer.materialNames.Add(matName);
                            GlTF_Writer.materials.Add(material);

                            //technique
                            var s        = mat.shader;
                            var techName = GlTF_Technique.GetNameFromObject(s);
                            if (GlTF_Writer.techniqueNames.Contains(techName))
                            {
                                material.instanceTechniqueIndex = GlTF_Writer.techniqueNames.IndexOf(techName);                                // THIS INDIRECTION CAN BE REMOVED!
                            }
                            else
                            {
                                GlTF_Technique tech = new GlTF_Technique();
                                tech.name = techName;
                                GlTF_Technique.Parameter tParam = new GlTF_Technique.Parameter();
                                tParam.name     = "position";
                                tParam.type     = GlTF_Technique.Type.FLOAT_VEC3;
                                tParam.semantic = GlTF_Technique.Semantic.POSITION;
                                tech.parameters.Add(tParam);
                                GlTF_Technique.Attribute tAttr = new GlTF_Technique.Attribute();
                                tAttr.name  = "a_position";
                                tAttr.param = tParam.name;
                                tech.attributes.Add(tAttr);

                                if (normalAccessor != null)
                                {
                                    tParam          = new GlTF_Technique.Parameter();
                                    tParam.name     = "normal";
                                    tParam.type     = GlTF_Technique.Type.FLOAT_VEC3;
                                    tParam.semantic = GlTF_Technique.Semantic.NORMAL;
                                    tech.parameters.Add(tParam);
                                    tAttr       = new GlTF_Technique.Attribute();
                                    tAttr.name  = "a_normal";
                                    tAttr.param = tParam.name;
                                    tech.attributes.Add(tAttr);
                                }

                                if (uv0Accessor != null)
                                {
                                    tParam          = new GlTF_Technique.Parameter();
                                    tParam.name     = "texcoord0";
                                    tParam.type     = GlTF_Technique.Type.FLOAT_VEC2;
                                    tParam.semantic = GlTF_Technique.Semantic.TEXCOORD_0;
                                    tech.parameters.Add(tParam);
                                    tAttr       = new GlTF_Technique.Attribute();
                                    tAttr.name  = "a_texcoord0";
                                    tAttr.param = tParam.name;
                                    tech.attributes.Add(tAttr);
                                }

                                if (uv1Accessor != null)
                                {
                                    tParam          = new GlTF_Technique.Parameter();
                                    tParam.name     = "texcoord1";
                                    tParam.type     = GlTF_Technique.Type.FLOAT_VEC2;
                                    tParam.semantic = GlTF_Technique.Semantic.TEXCOORD_1;
                                    tech.parameters.Add(tParam);
                                    tAttr       = new GlTF_Technique.Attribute();
                                    tAttr.name  = "a_texcoord1";
                                    tAttr.param = tParam.name;
                                    tech.attributes.Add(tAttr);
                                }

                                if (uv2Accessor != null)
                                {
                                    tParam          = new GlTF_Technique.Parameter();
                                    tParam.name     = "texcoord2";
                                    tParam.type     = GlTF_Technique.Type.FLOAT_VEC2;
                                    tParam.semantic = GlTF_Technique.Semantic.TEXCOORD_2;
                                    tech.parameters.Add(tParam);
                                    tAttr       = new GlTF_Technique.Attribute();
                                    tAttr.name  = "a_texcoord2";
                                    tAttr.param = tParam.name;
                                    tech.attributes.Add(tAttr);
                                }

                                if (uv3Accessor != null)
                                {
                                    tParam          = new GlTF_Technique.Parameter();
                                    tParam.name     = "texcoord3";
                                    tParam.type     = GlTF_Technique.Type.FLOAT_VEC2;
                                    tParam.semantic = GlTF_Technique.Semantic.TEXCOORD_3;
                                    tech.parameters.Add(tParam);
                                    tAttr       = new GlTF_Technique.Attribute();
                                    tAttr.name  = "a_texcoord3";
                                    tAttr.param = tParam.name;
                                    tech.attributes.Add(tAttr);
                                }

                                tech.AddDefaultUniforms();

                                // Populate technique with shader data
                                GlTF_Writer.techniqueNames.Add(techName);
                                GlTF_Writer.techniques.Add(tech);

                                // create program
                                GlTF_Program program = new GlTF_Program();
                                program.name = GlTF_Program.GetNameFromObject(s);
                                tech.program = program.name;
                                foreach (var attr in tech.attributes)
                                {
                                    program.attributes.Add(attr.name);
                                }
                                GlTF_Writer.programs.Add(program);
                            }

                            unityToPBRMaterial(mat, ref material);
                        }
                    }
                    mesh.primitives.Add(primitive);
                }

                // If gameobject having SkinnedMeshRenderer component has been transformed,
                // the mesh would need to be baked here.
                mesh.Populate(m);
                GlTF_Writer.meshes.Add(mesh);
                node.meshIndex = GlTF_Writer.meshes.IndexOf(mesh);
            }

            // Parse animations
            if (exportAnimation)
            {
                Animator a = tr.GetComponent <Animator>();
                if (a != null)
                {
                    AnimationClip[] clips = AnimationUtility.GetAnimationClips(tr.gameObject);
                    for (int i = 0; i < clips.Length; i++)
                    {
                        //FIXME It seems not good to generate one animation per animator.
                        GlTF_Animation anim = new GlTF_Animation(GlTF_Writer.cleanNonAlphanumeric(a.name));
                        anim.Populate(clips[i], tr, GlTF_Writer.bakeAnimation);
                        if (anim.channels.Count > 0)
                        {
                            GlTF_Writer.animations.Add(anim);
                        }
                    }
                }

                Animation animation = tr.GetComponent <Animation>();
                if (animation != null)
                {
                    AnimationClip clip = animation.clip;
                    //FIXME It seems not good to generate one animation per animator.
                    GlTF_Animation anim = new GlTF_Animation(GlTF_Writer.cleanNonAlphanumeric(animation.name));
                    anim.Populate(clip, tr, GlTF_Writer.bakeAnimation);
                    if (anim.channels.Count > 0)
                    {
                        GlTF_Writer.animations.Add(anim);
                    }
                }
            }

            // Parse transform
            if (tr.parent == null)
            {
                Matrix4x4 mat = Matrix4x4.identity;
                if (debugRightHandedScale)
                {
                    mat.m22 = -1;
                }
                mat         = mat * Matrix4x4.TRS(tr.localPosition, tr.localRotation, tr.localScale);
                node.matrix = new GlTF_Matrix(mat);
            }
            // Use good transform if parent object is not in selection
            else if (!trs.Contains(tr.parent))
            {
                node.hasParent = false;
                Matrix4x4 mat = Matrix4x4.identity;
                if (debugRightHandedScale)
                {
                    mat.m22 = -1;
                }
                mat         = mat * tr.localToWorldMatrix;
                node.matrix = new GlTF_Matrix(mat);
            }
            else
            {
                node.hasParent = true;
                if (tr.localPosition != Vector3.zero)
                {
                    node.translation = new GlTF_Translation(tr.localPosition);
                }
                if (tr.localScale != Vector3.one)
                {
                    node.scale = new GlTF_Scale(tr.localScale);
                }
                if (tr.localRotation != Quaternion.identity)
                {
                    node.rotation = new GlTF_Rotation(tr.localRotation);
                }
            }

            if (!node.hasParent)
            {
                correctionNode.childrenNames.Add(node.id);
            }

            if (tr.GetComponent <Camera>() != null)
            {
                node.cameraName = GlTF_Writer.cleanNonAlphanumeric(tr.name);
            }
            else if (tr.GetComponent <Light>() != null)
            {
                node.lightName = GlTF_Writer.cleanNonAlphanumeric(tr.name);
            }

            // Parse node's skin data
            GlTF_Accessor       invBindMatrixAccessor = null;
            SkinnedMeshRenderer skinMesh = tr.GetComponent <SkinnedMeshRenderer>();
            if (exportAnimation && skinMesh != null && skinMesh.enabled && checkSkinValidity(skinMesh, trs) && skinMesh.rootBone != null)
            {
                GlTF_Skin skin = new GlTF_Skin();

                skin.name = GlTF_Writer.cleanNonAlphanumeric(skinMesh.rootBone.name) + "_skeleton_" + GlTF_Writer.cleanNonAlphanumeric(node.name) + tr.GetInstanceID();

                // Create invBindMatrices accessor
                invBindMatrixAccessor            = new GlTF_Accessor(skin.name + "invBindMatrices", GlTF_Accessor.Type.MAT4, GlTF_Accessor.ComponentType.FLOAT);
                invBindMatrixAccessor.bufferView = GlTF_Writer.mat4BufferView;
                GlTF_Writer.accessors.Add(invBindMatrixAccessor);

                // Generate skin data
                skin.Populate(tr, ref invBindMatrixAccessor, GlTF_Writer.accessors.Count - 1);
                GlTF_Writer.skins.Add(skin);
                node.skinIndex = GlTF_Writer.skins.IndexOf(skin);
            }

            foreach (Transform t in tr.transform)
            {
                if (t.gameObject.activeInHierarchy)
                {
                    node.childrenNames.Add(GlTF_Node.GetNameFromObject(t));
                }
            }

            GlTF_Writer.nodeNames.Add(node.id);
            GlTF_Writer.nodes.Add(node);
        }

        if (GlTF_Writer.meshes.Count == 0)
        {
            Debug.Log("No visible objects have been exported. Aboring export");
            yield return(false);
        }

        writer.OpenFiles(path);
        writer.Write();
        writer.CloseFiles();

        if (nbDisabledObjects > 0)
        {
            Debug.Log(nbDisabledObjects + " disabled object ignored during export");
        }

        Debug.Log("Scene has been exported to " + path);
        if (buildZip)
        {
            ZipFile zip = new ZipFile();
            Debug.Log(GlTF_Writer.exportedFiles.Count + " files generated");
            string zipName = Path.GetFileNameWithoutExtension(path) + ".zip";
            foreach (string originFilePath in GlTF_Writer.exportedFiles.Keys)
            {
                zip.AddFile(originFilePath, GlTF_Writer.exportedFiles[originFilePath]);
            }

            zip.Save(savedPath + "/" + zipName);

            // Remove all files
            foreach (string pa in GlTF_Writer.exportedFiles.Keys)
            {
                if (System.IO.File.Exists(pa))
                {
                    System.IO.File.Delete(pa);
                }
            }

            Debug.Log("Files have been cleaned");
        }
        done = true;

        yield return(true);
    }

示例#3

    public static BoundsDouble Export(string path, Transform[] trs, Transform root, out double minHeight, out double maxHeight)
    {
        minHeight = 0;
        maxHeight = 0;

        writer = new GlTF_Writer();
        writer.Init();

        if (presetAsset != null)
        {
            string psPath = AssetDatabase.GetAssetPath(presetAsset);
            if (psPath != null)
            {
                psPath = psPath.Remove(0, "Assets".Length);
                psPath = Application.dataPath + psPath;
                preset.Load(psPath);
            }
        }

        savedPath = Path.GetDirectoryName(path);
        savedFile = Path.GetFileNameWithoutExtension(path);

        EditorPrefs.SetString(KEY_PATH, savedPath);
        EditorPrefs.SetString(KEY_FILE, savedFile);

        Debug.Log("attempting to save to " + path);
        writer.OpenFiles(path);

        if (rtcScript != null && root != null)
        {
            var instance = Activator.CreateInstance(rtcScript.GetClass());
            var rtc      = instance as RTCCallback;
            if (rtc != null)
            {
                writer.RTCCenter = rtc.GetCenter(root);
            }
        }

        RotationCallback rotCallback = null;;

        if (rotScript != null)
        {
            var instance = Activator.CreateInstance(rotScript.GetClass());
            rotCallback = instance as RotationCallback;
        }

        if (unpackTexture)
        {
            // prepass, for texture unpacker
            TextureUnpacker.Reset();
            foreach (Transform tr in trs)
            {
                TextureUnpacker.CheckPackedTexture(tr, preset);
            }
            TextureUnpacker.Build();
        }

        BoundsDouble bb = new BoundsDouble();

        // first, collect objects in the scene, add to lists
        foreach (Transform tr in trs)
        {
            if (tr.GetComponent <Camera>() != null)
            {
                if (tr.GetComponent <Camera>().orthographic)
                {
                    GlTF_Orthographic cam;
                    cam       = new GlTF_Orthographic();
                    cam.type  = "orthographic";
                    cam.zfar  = tr.GetComponent <Camera>().farClipPlane;
                    cam.znear = tr.GetComponent <Camera>().nearClipPlane;
                    cam.name  = tr.name;
                    //cam.orthographic.xmag = tr.camera.
                    GlTF_Writer.cameras.Add(cam);
                }
                else
                {
                    GlTF_Perspective cam;
                    cam              = new GlTF_Perspective();
                    cam.type         = "perspective";
                    cam.zfar         = tr.GetComponent <Camera>().farClipPlane;
                    cam.znear        = tr.GetComponent <Camera>().nearClipPlane;
                    cam.aspect_ratio = tr.GetComponent <Camera>().aspect;
                    cam.yfov         = tr.GetComponent <Camera>().fieldOfView;
                    cam.name         = tr.name;
                    GlTF_Writer.cameras.Add(cam);
                }
            }

            if (tr.GetComponent <Light>() != null)
            {
                switch (tr.GetComponent <Light>().type)
                {
                case LightType.Point:
                    GlTF_PointLight pl = new GlTF_PointLight();
                    pl.color = new GlTF_ColorRGB(tr.GetComponent <Light>().color);
                    pl.name  = tr.name;
                    GlTF_Writer.lights.Add(pl);
                    break;

                case LightType.Spot:
                    GlTF_SpotLight sl = new GlTF_SpotLight();
                    sl.color = new GlTF_ColorRGB(tr.GetComponent <Light>().color);
                    sl.name  = tr.name;
                    GlTF_Writer.lights.Add(sl);
                    break;

                case LightType.Directional:
                    GlTF_DirectionalLight dl = new GlTF_DirectionalLight();
                    dl.color = new GlTF_ColorRGB(tr.GetComponent <Light>().color);
                    dl.name  = tr.name;
                    GlTF_Writer.lights.Add(dl);
                    break;

                case LightType.Area:
                    GlTF_AmbientLight al = new GlTF_AmbientLight();
                    al.color = new GlTF_ColorRGB(tr.GetComponent <Light>().color);
                    al.name  = tr.name;
                    GlTF_Writer.lights.Add(al);
                    break;
                }
            }

            Mesh m = GetMesh(tr);
            if (m != null)
            {
                GlTF_Mesh mesh = new GlTF_Mesh();
                mesh.name = GlTF_Mesh.GetNameFromObject(m);

                GlTF_Accessor positionAccessor = new GlTF_Accessor(GlTF_Accessor.GetNameFromObject(m, "position"), GlTF_Accessor.Type.VEC3, GlTF_Accessor.ComponentType.FLOAT);
                positionAccessor.bufferView = GlTF_Writer.vec3BufferView;
                GlTF_Writer.accessors.Add(positionAccessor);

                GlTF_Accessor normalAccessor = null;
                if (m.normals.Length > 0)
                {
                    normalAccessor            = new GlTF_Accessor(GlTF_Accessor.GetNameFromObject(m, "normal"), GlTF_Accessor.Type.VEC3, GlTF_Accessor.ComponentType.FLOAT);
                    normalAccessor.bufferView = GlTF_Writer.vec3BufferView;
                    GlTF_Writer.accessors.Add(normalAccessor);
                }

                GlTF_Accessor uv0Accessor = null;
                if (m.uv.Length > 0)
                {
                    uv0Accessor            = new GlTF_Accessor(GlTF_Accessor.GetNameFromObject(m, "uv0"), GlTF_Accessor.Type.VEC2, GlTF_Accessor.ComponentType.FLOAT);
                    uv0Accessor.bufferView = GlTF_Writer.vec2BufferView;
                    GlTF_Writer.accessors.Add(uv0Accessor);
                }

                GlTF_Accessor uv1Accessor = null;
                if (m.uv2.Length > 0)
                {
                    uv1Accessor            = new GlTF_Accessor(GlTF_Accessor.GetNameFromObject(m, "uv1"), GlTF_Accessor.Type.VEC2, GlTF_Accessor.ComponentType.FLOAT);
                    uv1Accessor.bufferView = GlTF_Writer.vec2BufferView;
                    GlTF_Writer.accessors.Add(uv1Accessor);
                }

                GlTF_Accessor uv2Accessor = null;
                if (m.uv3.Length > 0)
                {
                    uv2Accessor            = new GlTF_Accessor(GlTF_Accessor.GetNameFromObject(m, "uv2"), GlTF_Accessor.Type.VEC2, GlTF_Accessor.ComponentType.FLOAT);
                    uv2Accessor.bufferView = GlTF_Writer.vec2BufferView;
                    GlTF_Writer.accessors.Add(uv2Accessor);
                }

                GlTF_Accessor uv3Accessor = null;
                if (m.uv4.Length > 0)
                {
                    uv3Accessor            = new GlTF_Accessor(GlTF_Accessor.GetNameFromObject(m, "uv3"), GlTF_Accessor.Type.VEC2, GlTF_Accessor.ComponentType.FLOAT);
                    uv3Accessor.bufferView = GlTF_Writer.vec2BufferView;
                    GlTF_Writer.accessors.Add(uv3Accessor);
                }

                var smCount = m.subMeshCount;
                for (var i = 0; i < smCount; ++i)
                {
                    GlTF_Primitive primitive = new GlTF_Primitive();
                    primitive.name  = GlTF_Primitive.GetNameFromObject(m, i);
                    primitive.index = i;
                    GlTF_Attributes attributes = new GlTF_Attributes();
                    attributes.positionAccessor  = positionAccessor;
                    attributes.normalAccessor    = normalAccessor;
                    attributes.texCoord0Accessor = uv0Accessor;
                    attributes.texCoord1Accessor = uv1Accessor;
                    attributes.texCoord2Accessor = uv2Accessor;
                    attributes.texCoord3Accessor = uv3Accessor;
                    primitive.attributes         = attributes;
                    GlTF_Accessor indexAccessor = new GlTF_Accessor(GlTF_Accessor.GetNameFromObject(m, "indices_" + i), GlTF_Accessor.Type.SCALAR, GlTF_Accessor.ComponentType.USHORT);
                    indexAccessor.bufferView = GlTF_Writer.ushortBufferView;
                    GlTF_Writer.accessors.Add(indexAccessor);
                    primitive.indices = indexAccessor;

                    var mr = GetRenderer(tr);
                    var sm = mr.sharedMaterials;
                    if (i < sm.Length && sm[i] != null)
                    {
                        var mat     = sm[i];
                        var matName = GlTF_Material.GetNameFromObject(mat);
                        primitive.materialName = matName;
                        if (!GlTF_Writer.materials.ContainsKey(matName))
                        {
                            GlTF_Material material = new GlTF_Material();
                            material.name = matName;
                            GlTF_Writer.materials.Add(material.name, material);

                            //technique
                            var s        = mat.shader;
                            var techName = GlTF_Technique.GetNameFromObject(s);
                            material.instanceTechniqueName = techName;
                            if (!GlTF_Writer.techniques.ContainsKey(techName))
                            {
                                GlTF_Technique tech = new GlTF_Technique();
                                tech.name = techName;

                                GlTF_Technique.States ts = null;
                                if (preset.techniqueStates.ContainsKey(s.name))
                                {
                                    ts = preset.techniqueStates[s.name];
                                }
                                else if (preset.techniqueStates.ContainsKey("*"))
                                {
                                    ts = preset.techniqueStates["*"];
                                }

                                if (ts == null)
                                {
                                    // Unless otherwise specified by a preset file, enable z-buffering.
                                    ts = new GlTF_Technique.States();
                                    const int DEPTH_TEST = 2929;
                                    // int CULL_FACE = 2884;
                                    ts.enable = new int[1] {
                                        DEPTH_TEST
                                    };
                                }

                                tech.states = ts;

                                GlTF_Technique.Parameter tParam = new GlTF_Technique.Parameter();
                                tParam.name     = "position";
                                tParam.type     = GlTF_Technique.Type.FLOAT_VEC3;
                                tParam.semantic = GlTF_Technique.Semantic.POSITION;
                                tech.parameters.Add(tParam);
                                GlTF_Technique.Attribute tAttr = new GlTF_Technique.Attribute();
                                tAttr.name  = "a_position";
                                tAttr.param = tParam.name;
                                tech.attributes.Add(tAttr);

                                if (normalAccessor != null)
                                {
                                    tParam          = new GlTF_Technique.Parameter();
                                    tParam.name     = "normal";
                                    tParam.type     = GlTF_Technique.Type.FLOAT_VEC3;
                                    tParam.semantic = GlTF_Technique.Semantic.NORMAL;
                                    tech.parameters.Add(tParam);
                                    tAttr       = new GlTF_Technique.Attribute();
                                    tAttr.name  = "a_normal";
                                    tAttr.param = tParam.name;
                                    tech.attributes.Add(tAttr);
                                }

                                if (uv0Accessor != null)
                                {
                                    tParam          = new GlTF_Technique.Parameter();
                                    tParam.name     = "texcoord0";
                                    tParam.type     = GlTF_Technique.Type.FLOAT_VEC2;
                                    tParam.semantic = GlTF_Technique.Semantic.TEXCOORD_0;
                                    tech.parameters.Add(tParam);
                                    tAttr       = new GlTF_Technique.Attribute();
                                    tAttr.name  = "a_texcoord0";
                                    tAttr.param = tParam.name;
                                    tech.attributes.Add(tAttr);
                                }

                                if (uv1Accessor != null)
                                {
                                    tParam          = new GlTF_Technique.Parameter();
                                    tParam.name     = "texcoord1";
                                    tParam.type     = GlTF_Technique.Type.FLOAT_VEC2;
                                    tParam.semantic = GlTF_Technique.Semantic.TEXCOORD_1;
                                    tech.parameters.Add(tParam);
                                    tAttr       = new GlTF_Technique.Attribute();
                                    tAttr.name  = "a_texcoord1";
                                    tAttr.param = tParam.name;
                                    tech.attributes.Add(tAttr);
                                }

                                if (uv2Accessor != null)
                                {
                                    tParam          = new GlTF_Technique.Parameter();
                                    tParam.name     = "texcoord2";
                                    tParam.type     = GlTF_Technique.Type.FLOAT_VEC2;
                                    tParam.semantic = GlTF_Technique.Semantic.TEXCOORD_2;
                                    tech.parameters.Add(tParam);
                                    tAttr       = new GlTF_Technique.Attribute();
                                    tAttr.name  = "a_texcoord2";
                                    tAttr.param = tParam.name;
                                    tech.attributes.Add(tAttr);
                                }

                                if (uv3Accessor != null)
                                {
                                    tParam          = new GlTF_Technique.Parameter();
                                    tParam.name     = "texcoord3";
                                    tParam.type     = GlTF_Technique.Type.FLOAT_VEC2;
                                    tParam.semantic = GlTF_Technique.Semantic.TEXCOORD_3;
                                    tech.parameters.Add(tParam);
                                    tAttr       = new GlTF_Technique.Attribute();
                                    tAttr.name  = "a_texcoord3";
                                    tAttr.param = tParam.name;
                                    tech.attributes.Add(tAttr);
                                }

                                tech.AddDefaultUniforms(writer.RTCCenter != null);

                                GlTF_Writer.techniques.Add(techName, tech);

                                int spCount = ShaderUtil.GetPropertyCount(s);
                                for (var j = 0; j < spCount; ++j)
                                {
                                    var pName = ShaderUtil.GetPropertyName(s, j);
                                    var pType = ShaderUtil.GetPropertyType(s, j);
                                    // Debug.Log(pName + " " + pType);

                                    GlTF_Technique.Uniform tUni;
                                    if (pType == ShaderUtil.ShaderPropertyType.Color)
                                    {
                                        tParam      = new GlTF_Technique.Parameter();
                                        tParam.name = pName;
                                        tParam.type = GlTF_Technique.Type.FLOAT_VEC4;
                                        tech.parameters.Add(tParam);
                                        tUni       = new GlTF_Technique.Uniform();
                                        tUni.name  = pName;
                                        tUni.param = tParam.name;
                                        tech.uniforms.Add(tUni);
                                    }
                                    else if (pType == ShaderUtil.ShaderPropertyType.Vector)
                                    {
                                        tParam      = new GlTF_Technique.Parameter();
                                        tParam.name = pName;
                                        tParam.type = GlTF_Technique.Type.FLOAT_VEC4;
                                        tech.parameters.Add(tParam);
                                        tUni       = new GlTF_Technique.Uniform();
                                        tUni.name  = pName;
                                        tUni.param = tParam.name;
                                        tech.uniforms.Add(tUni);
                                    }
                                    else if (pType == ShaderUtil.ShaderPropertyType.Float ||
                                             pType == ShaderUtil.ShaderPropertyType.Range)
                                    {
                                        tParam      = new GlTF_Technique.Parameter();
                                        tParam.name = pName;
                                        tParam.type = GlTF_Technique.Type.FLOAT;
                                        tech.parameters.Add(tParam);
                                        tUni       = new GlTF_Technique.Uniform();
                                        tUni.name  = pName;
                                        tUni.param = tParam.name;
                                        tech.uniforms.Add(tUni);
                                    }
                                    else if (pType == ShaderUtil.ShaderPropertyType.TexEnv)
                                    {
                                        var td = ShaderUtil.GetTexDim(s, j);
                                        if (td == UnityEngine.Rendering.TextureDimension.Tex2D)
                                        {
                                            tParam      = new GlTF_Technique.Parameter();
                                            tParam.name = pName;
                                            tParam.type = GlTF_Technique.Type.SAMPLER_2D;
                                            tech.parameters.Add(tParam);
                                            tUni       = new GlTF_Technique.Uniform();
                                            tUni.name  = pName;
                                            tUni.param = tParam.name;
                                            tech.uniforms.Add(tUni);
                                        }
                                    }
                                }

                                // create program
                                GlTF_Program program = new GlTF_Program();
                                program.name = GlTF_Program.GetNameFromObject(s);
                                tech.program = program.name;
                                foreach (var attr in tech.attributes)
                                {
                                    program.attributes.Add(attr.name);
                                }
                                GlTF_Writer.programs.Add(program);

                                // shader
                                GlTF_Shader vs = new GlTF_Shader();
                                vs.name = GlTF_Shader.GetNameFromObject(s, GlTF_Shader.Type.Vertex);
                                program.vertexShader = vs.name;
                                vs.type = GlTF_Shader.Type.Vertex;
                                vs.uri  = preset.GetVertexShader(s.name);
                                GlTF_Writer.shaders.Add(vs);

                                GlTF_Shader fs = new GlTF_Shader();
                                fs.name = GlTF_Shader.GetNameFromObject(s, GlTF_Shader.Type.Fragment);
                                program.fragmentShader = fs.name;
                                fs.type = GlTF_Shader.Type.Fragment;
                                fs.uri  = preset.GetFragmentShader(s.name);
                                GlTF_Writer.shaders.Add(fs);
                            }

                            int spCount2 = ShaderUtil.GetPropertyCount(s);
                            for (var j = 0; j < spCount2; ++j)
                            {
                                var pName = ShaderUtil.GetPropertyName(s, j);
                                var pType = ShaderUtil.GetPropertyType(s, j);

                                if (pType == ShaderUtil.ShaderPropertyType.Color)
                                {
                                    var matCol = new GlTF_Material.ColorValue();
                                    matCol.name  = pName;
                                    matCol.color = mat.GetColor(pName);
                                    material.values.Add(matCol);
                                }
                                else if (pType == ShaderUtil.ShaderPropertyType.Vector)
                                {
                                    var matVec = new GlTF_Material.VectorValue();
                                    matVec.name   = pName;
                                    matVec.vector = mat.GetVector(pName);
                                    material.values.Add(matVec);
                                }
                                else if (pType == ShaderUtil.ShaderPropertyType.Float ||
                                         pType == ShaderUtil.ShaderPropertyType.Range)
                                {
                                    var matFloat = new GlTF_Material.FloatValue();
                                    matFloat.name  = pName;
                                    matFloat.value = mat.GetFloat(pName);
                                    material.values.Add(matFloat);
                                }
                                else if (pType == ShaderUtil.ShaderPropertyType.TexEnv)
                                {
                                    var td = ShaderUtil.GetTexDim(s, j);
                                    if (td == UnityEngine.Rendering.TextureDimension.Tex2D)
                                    {
                                        var t = mat.GetTexture(pName);
                                        if (t == null)
                                        {
                                            continue;
                                        }
                                        var val = new GlTF_Material.StringValue();
                                        val.name = pName;
                                        string texName = null;
                                        texName   = GlTF_Texture.GetNameFromObject(t);
                                        val.value = texName;
                                        material.values.Add(val);
                                        if (!GlTF_Writer.textures.ContainsKey(texName))
                                        {
                                            var        texPath = ExportTexture(t, savedPath);
                                            GlTF_Image img     = new GlTF_Image();
                                            img.name = GlTF_Image.GetNameFromObject(t);
                                            img.uri  = texPath;
                                            GlTF_Writer.images.Add(img);

                                            GlTF_Sampler sampler;
                                            var          samplerName = GlTF_Sampler.GetNameFromObject(t);
                                            if (GlTF_Writer.samplers.ContainsKey(samplerName))
                                            {
                                                sampler = GlTF_Writer.samplers[samplerName];
                                            }
                                            else
                                            {
                                                sampler      = new GlTF_Sampler(t);
                                                sampler.name = samplerName;
                                                GlTF_Writer.samplers[samplerName] = sampler;
                                            }

                                            GlTF_Texture texture = new GlTF_Texture();
                                            texture.name        = texName;
                                            texture.source      = img.name;
                                            texture.samplerName = samplerName;

                                            GlTF_Writer.textures.Add(texName, texture);
                                        }
                                    }
                                }
                            }
                        }
                    }

                    mesh.primitives.Add(primitive);
                }

                mesh.Populate(m);
                GlTF_Writer.meshes.Add(mesh);
                if (unpackTexture)
                {
                    TextureUnpacker.ProcessMesh(mesh);
                }

                // calculate bounding box transform
                if (root != null)
                {
                    Matrix4x4 brot = Matrix4x4.identity;
                    if (rotCallback != null)
                    {
                        brot = rotCallback.GetBoundsRotationMatrix(root);
                    }

                    var pos    = tr.position - root.position; // relative to parent
                    var objMat = Matrix4x4.TRS(pos, tr.rotation, tr.lossyScale);

                    //read vertices
                    var ms     = positionAccessor.bufferView.memoryStream;
                    var offset = (int)positionAccessor.byteOffset;
                    var len    = positionAccessor.count;
                    var buffer = new byte[len * 12];
                    var mspos  = ms.Position;
                    ms.Position = offset;
                    ms.Read(buffer, 0, buffer.Length);

                    minHeight = double.MaxValue;
                    maxHeight = double.MinValue;

                    double[] c = writer.RTCCenter;

                    double[] minPos = new double[3];
                    minPos[0] = double.MaxValue;
                    minPos[1] = double.MaxValue;
                    minPos[2] = double.MaxValue;

                    double[] maxPos = new double[3];
                    maxPos[0] = double.MinValue;
                    maxPos[1] = double.MinValue;
                    maxPos[2] = double.MinValue;

                    for (int j = 0; j < len; ++j)
                    {
                        var x = System.BitConverter.ToSingle(buffer, j * 12);
                        var y = System.BitConverter.ToSingle(buffer, j * 12 + 4);
                        var z = System.BitConverter.ToSingle(buffer, j * 12 + 8);

                        // local rotation
                        var lx = objMat.m00 * x + objMat.m01 * y + objMat.m02 * z;
                        var ly = objMat.m10 * x + objMat.m11 * y + objMat.m12 * z;
                        var lz = objMat.m20 * x + objMat.m21 * y + objMat.m22 * z;

                        minHeight = Math.Min(minHeight, ly);
                        maxHeight = Math.Max(maxHeight, ly);

                        // to world
                        double wx = brot.m00 * lx + brot.m01 * ly + brot.m02 * lz;
                        double wy = brot.m10 * lx + brot.m11 * ly + brot.m12 * lz;
                        double wz = brot.m20 * lx + brot.m21 * ly + brot.m22 * lz;

                        // local translation to world
                        double tx = brot.m00 * pos.x + brot.m01 * pos.y + brot.m02 * pos.z;
                        double ty = brot.m10 * pos.x + brot.m11 * pos.y + brot.m12 * pos.z;
                        double tz = brot.m20 * pos.x + brot.m21 * pos.y + brot.m22 * pos.z;

                        wx += tx;
                        wy += ty;
                        wz += tz;

                        if (c != null)
                        {
                            wx += c[0];
                            wy += c[1];
                            wz += c[2];
                        }

                        minPos[0] = Math.Min(minPos[0], wx);
                        minPos[1] = Math.Min(minPos[1], wy);
                        minPos[2] = Math.Min(minPos[2], wz);

                        maxPos[0] = Math.Max(maxPos[0], wx);
                        maxPos[1] = Math.Max(maxPos[1], wy);
                        maxPos[2] = Math.Max(maxPos[2], wz);
                    }

                    ms.Position = mspos;

                    BoundsDouble tbb = new BoundsDouble();
                    tbb.Encapsulate(new BoundsDouble(minPos, maxPos));
                    bb.Encapsulate(tbb);
                }
            }

            Animation a = tr.GetComponent <Animation>();

            //				Animator a = tr.GetComponent<Animator>();
            if (a != null)
            {
                AnimationClip[] clips  = AnimationUtility.GetAnimationClips(tr.gameObject);
                int             nClips = clips.Length;
                //					int nClips = a.GetClipCount();
                for (int i = 0; i < nClips; i++)
                {
                    GlTF_Animation anim = new GlTF_Animation(a.name);
                    anim.Populate(clips[i]);
                    GlTF_Writer.animations.Add(anim);
                }
            }


            // next, build hierarchy of nodes
            GlTF_Node node = new GlTF_Node();

            Matrix4x4 rotMat = Matrix4x4.identity;
            if (root != null && rotCallback != null)
            {
                rotMat = rotCallback.GetNodeRotationMatrix(root);
            }

            if (tr == root)
            {
                Matrix4x4 mat = Matrix4x4.identity;
                mat.m22 = -1; // flip z axis

                if (rotMat != Matrix4x4.identity)
                {
                    mat = rotMat;
                }

                // do not use global position if rtc is defined
                Vector3 pos = Vector3.zero;
                if (writer.RTCCenter == null)
                {
                    pos = tr.localPosition;
                }

                mat         = mat * Matrix4x4.TRS(pos, tr.localRotation, tr.localScale);
                node.matrix = new GlTF_Matrix(mat);
            }
            else
            {
                node.hasParent = true;
                if (tr.localPosition != Vector3.zero)
                {
                    node.translation = new GlTF_Translation(tr.localPosition);
                }
                if (tr.localScale != Vector3.one)
                {
                    node.scale = new GlTF_Scale(tr.localScale);
                }
                if (tr.localRotation != Quaternion.identity)
                {
                    node.rotation = new GlTF_Rotation(tr.localRotation);
                }
            }

            node.name = GlTF_Node.GetNameFromObject(tr);
            if (tr.GetComponent <Camera>() != null)
            {
                node.cameraName = tr.name;
            }
            else if (tr.GetComponent <Light>() != null)
            {
                node.lightName = tr.name;
            }
            else if (m != null)
            {
                node.meshNames.Add(GlTF_Mesh.GetNameFromObject(m));
            }

            foreach (Transform t in tr.transform)
            {
                var found = false;
                foreach (var check in trs)
                {
                    if (t == check)
                    {
                        found = true;
                        break;
                    }
                }
                if (found)
                {
                    node.childrenNames.Add(GlTF_Node.GetNameFromObject(t));
                }
            }

            GlTF_Writer.nodes.Add(node);
        }

        if (copyShaders && preset.shaderDir != null)
        {
            var sd = Path.Combine(Application.dataPath, preset.shaderDir);
            foreach (var shader in GlTF_Writer.shaders)
            {
                var srcPath = Path.Combine(sd, shader.uri);
                if (File.Exists(srcPath))
                {
                    var dstPath = Path.Combine(savedPath, shader.uri);
                    File.Copy(srcPath, dstPath, true);
                }
            }
        }

        // third, add meshes etc to byte stream, keeping track of buffer offsets
        writer.Write();
        writer.CloseFiles();
        return(bb);
    }

示例#4

文件： TextureUnpacker.cs 项目： mikeage/open-brush-lfs

    public static void CheckPackedTexture(Transform t, Preset preset)
    {
        var m = GetMesh(t);
        var r = GetRenderer(t);

        if (m != null && r != null)
        {
            for (int i = 0; i < m.subMeshCount; ++i)
            {
                if (m.GetTopology(i) != MeshTopology.Triangles ||
                    i >= r.sharedMaterials.Length)
                {
                    continue;
                }
                var mat = r.sharedMaterials[i];
                if (mat == null)
                {
                    Debug.LogWarning("Failed getting shader name from material on mesh " + m.name);
                    continue;
                }
                List <Preset.UnpackUV> unpackUVList = null;
                preset.unpackUV.TryGetValue(mat.shader.name, out unpackUVList);
                if (unpackUVList == null)
                {
                    unpackUVList = preset.GetDefaultUnpackUVList();
                }

                var tris = m.GetTriangles(i);

                var uvsArr = new Vector2[][] { m.uv, m.uv2, m.uv3, m.uv4 };
                var mins   = new Vector2[4];
                var maxs   = new Vector2[4];
                var dxs    = new float[4];
                var dys    = new float[4];
                for (int k = 0; k < 4; ++k)
                {
                    Vector2 min = new Vector2(float.MaxValue, float.MaxValue);
                    Vector2 max = new Vector2(float.MinValue, float.MinValue);

                    var uvs = uvsArr[k];
                    if (uvs != null && uvs.Length > 0)
                    {
                        for (int j = 0; j < tris.Length; ++j)
                        {
                            Vector2 uv = uvs[tris[j]];
                            float   y  = 1.0f - uv.y; // flipped y
                            min.x = Mathf.Min(min.x, uv.x);
                            min.y = Mathf.Min(min.y, y);
                            max.x = Mathf.Max(max.x, uv.x);
                            max.y = Mathf.Max(max.y, y);
                        }

                        var dx = max.x - min.x;
                        var dy = max.y - min.y;
                        dxs[k] = dx;
                        dys[k] = dy;
                    }

                    mins[k] = min;
                    maxs[k] = max;
                }

                var texs = GetTexturesFromMaterial(mat);

                foreach (var unpackUV in unpackUVList)
                {
                    foreach (var texIdx in unpackUV.textureIndex)
                    {
                        if (texIdx < texs.Count)
                        {
                            var tex  = texs[texIdx];
                            var name = GlTF_Texture.GetNameFromObject(tex);
                            // var dx = dxs[unpackUV.index];
                            // var dy = dys[unpackUV.index];
                            var max = maxs[unpackUV.index];
                            var min = mins[unpackUV.index];

                            max.x = Mathf.Clamp01(max.x);
                            max.y = Mathf.Clamp01(max.y);
                            min.x = Mathf.Clamp01(min.x);
                            min.y = Mathf.Clamp01(min.y);

                            var tw = tex.width;
                            var th = tex.height;

                            var sx = Mathf.FloorToInt(min.x * tw);
                            var fx = Mathf.CeilToInt(max.x * tw);
                            var sy = Mathf.FloorToInt(min.y * th);
                            var fy = Mathf.CeilToInt(max.y * th);
                            int wx = fx - sx;
                            int wy = fy - sy;

                            wx = Mathf.NextPowerOfTwo(wx);
                            wy = Mathf.NextPowerOfTwo(wy);

                            var   meshName = GlTF_Mesh.GetNameFromObject(m);
                            Entry e;
                            if (entries.ContainsKey(name))
                            {
                                e = entries[name];

                                //merge
                                var minX = Mathf.Min(e.left, sx);
                                var maxX = Mathf.Max(e.right, fx);
                                var minY = Mathf.Min(e.top, sy);
                                var maxY = Mathf.Max(e.bottom, fy);

                                var mw = maxX - minX;
                                var mh = maxY - minY;

                                mw = Mathf.NextPowerOfTwo(mw);
                                mh = Mathf.NextPowerOfTwo(mh);

                                e.left   = minX;
                                e.right  = maxX;
                                e.top    = minY;
                                e.bottom = maxY;
                            }
                            else
                            {
                                e             = new Entry();
                                e.left        = sx;
                                e.right       = fx;
                                e.top         = sy;
                                e.bottom      = fy;
                                e.texWidth    = tex.width;
                                e.texHeight   = tex.height;
                                entries[name] = e;
                            }

                            List <int> subMeshId = null;
                            if (e.subMeshMap.ContainsKey(meshName))
                            {
                                subMeshId = e.subMeshMap[meshName];
                            }
                            else
                            {
                                subMeshId = new List <int>();
                                e.subMeshMap[meshName] = subMeshId;
                            }

                            if (!subMeshId.Contains(i))
                            {
                                subMeshId.Add(i);
                            }
                        }
                    }
                }
            }
        }
    }