//posibilities
        //  using fixOutOfBoundsUVs or not
        //
        public static void ConfigureMutiMaterialsFromObjsToCombine(MB3_TextureBaker mom, SerializedProperty resultMaterials, SerializedObject textureBaker)
        {
            if (mom.GetObjectsToCombine().Count == 0)
            {
                Debug.LogError("You need to add some objects to combine before building the multi material list.");
                return;
            }
            if (resultMaterials.arraySize > 0)
            {
                Debug.LogError("You already have some source to combined material mappings configured. You must remove these before doing this operation.");
                return;
            }
            if (mom.textureBakeResults == null)
            {
                Debug.LogError("Texture Bake Result asset must be set before using this operation.");
                return;
            }

            Dictionary <MB3_TextureBakerEditorInternal.MultiMatSubmeshInfo, List <List <Material> > > shader2Material_map = new Dictionary <MB3_TextureBakerEditorInternal.MultiMatSubmeshInfo, List <List <Material> > >();
            Dictionary <Material, Mesh> obUVobject2mesh_map = new Dictionary <Material, Mesh>();

            //validate that the objects to be combined are valid
            for (int i = 0; i < mom.GetObjectsToCombine().Count; i++)
            {
                GameObject go = mom.GetObjectsToCombine()[i];
                if (go == null)
                {
                    Debug.LogError("Null object in list of objects to combine at position " + i);
                    return;
                }
                Renderer r = go.GetComponent <Renderer>();
                if (r == null || (!(r is MeshRenderer) && !(r is SkinnedMeshRenderer)))
                {
                    Debug.LogError("GameObject at position " + i + " in list of objects to combine did not have a renderer");
                    return;
                }
                if (r.sharedMaterial == null)
                {
                    Debug.LogError("GameObject at position " + i + " in list of objects to combine has a null material");
                    return;
                }
            }

            //first pass put any meshes with obUVs on their own submesh if not fixing OB uvs
            if (mom.doMultiMaterialSplitAtlasesIfOBUVs)
            {
                for (int i = 0; i < mom.GetObjectsToCombine().Count; i++)
                {
                    GameObject go = mom.GetObjectsToCombine()[i];
                    Mesh       m  = MB_Utility.GetMesh(go);
                    MB_Utility.MeshAnalysisResult dummyMar = new MB_Utility.MeshAnalysisResult();
                    Renderer r = go.GetComponent <Renderer>();
                    for (int j = 0; j < r.sharedMaterials.Length; j++)
                    {
                        if (MB_Utility.hasOutOfBoundsUVs(m, ref dummyMar, j))
                        {
                            if (!obUVobject2mesh_map.ContainsKey(r.sharedMaterials[j]))
                            {
                                Debug.LogWarning("Object " + go + " submesh " + j + " uses UVs outside the range 0,0..1,1 to generate tiling. This object has been mapped to its own submesh in the combined mesh. It can share a submesh with other objects that use different materials if you use the fix out of bounds UVs feature which will bake the tiling");
                                obUVobject2mesh_map.Add(r.sharedMaterials[j], m);
                            }
                        }
                    }
                }
            }

            //second pass  put other materials without OB uvs in a shader to material map
            for (int i = 0; i < mom.GetObjectsToCombine().Count; i++)
            {
                Renderer r = mom.GetObjectsToCombine()[i].GetComponent <Renderer>();
                for (int j = 0; j < r.sharedMaterials.Length; j++)
                {
                    if (!obUVobject2mesh_map.ContainsKey(r.sharedMaterials[j]))
                    { //if not already added
                        if (r.sharedMaterials[j] == null)
                        {
                            continue;
                        }
                        List <List <Material> > binsOfMatsThatUseShader           = null;
                        MB3_TextureBakerEditorInternal.MultiMatSubmeshInfo newKey = new MB3_TextureBakerEditorInternal.MultiMatSubmeshInfo(r.sharedMaterials[j].shader, r.sharedMaterials[j]);
                        if (!shader2Material_map.TryGetValue(newKey, out binsOfMatsThatUseShader))
                        {
                            binsOfMatsThatUseShader = new List <List <Material> >();
                            binsOfMatsThatUseShader.Add(new List <Material>());
                            shader2Material_map.Add(newKey, binsOfMatsThatUseShader);
                        }
                        if (!binsOfMatsThatUseShader[0].Contains(r.sharedMaterials[j]))
                        {
                            binsOfMatsThatUseShader[0].Add(r.sharedMaterials[j]);
                        }
                    }
                }
            }

            int numResMats = shader2Material_map.Count;

            //third pass for each shader grouping check how big the atlas would be and group into bins that would fit in an atlas
            if (mom.doMultiMaterialSplitAtlasesIfTooBig)
            {
                if (mom.packingAlgorithm == MB2_PackingAlgorithmEnum.UnitysPackTextures)
                {
                    Debug.LogWarning("Unity texture packer does not support splitting atlases if too big. Atlases will not be split.");
                }
                else
                {
                    numResMats = 0;
                    foreach (MB3_TextureBakerEditorInternal.MultiMatSubmeshInfo sh in shader2Material_map.Keys)
                    {
                        List <List <Material> > binsOfMatsThatUseShader = shader2Material_map[sh];
                        List <Material>         allMatsThatUserShader   = binsOfMatsThatUseShader[0];//at this point everything is in the same list
                        binsOfMatsThatUseShader.RemoveAt(0);
                        MB3_TextureCombiner combiner = mom.CreateAndConfigureTextureCombiner();
                        combiner.saveAtlasesAsAssets = false;
                        if (allMatsThatUserShader.Count > 1)
                        {
                            combiner.fixOutOfBoundsUVs = mom.fixOutOfBoundsUVs;
                        }
                        else
                        {
                            combiner.fixOutOfBoundsUVs = false;
                        }

                        // Do the texture pack
                        List <AtlasPackingResult> packingResults = new List <AtlasPackingResult>();
                        Material           tempMat         = new Material(sh.shader);
                        MB_AtlasesAndRects atlasesAndRects = new MB_AtlasesAndRects();
                        combiner.CombineTexturesIntoAtlases(null, atlasesAndRects, tempMat, mom.GetObjectsToCombine(), allMatsThatUserShader, null, packingResults,
                                                            onlyPackRects: true, splitAtlasWhenPackingIfTooBig: true);
                        for (int i = 0; i < packingResults.Count; i++)
                        {
                            List <MB_MaterialAndUVRect> matsData = (List <MB_MaterialAndUVRect>)packingResults[i].data;
                            List <Material>             mats     = new List <Material>();
                            for (int j = 0; j < matsData.Count; j++)
                            {
                                Material mat = matsData[j].material;
                                if (!mats.Contains(mat))
                                {
                                    mats.Add(mat);
                                }
                            }
                            binsOfMatsThatUseShader.Add(mats);
                        }
                        numResMats += binsOfMatsThatUseShader.Count;
                    }
                }
            }

            //build the result materials
            if (shader2Material_map.Count == 0 && obUVobject2mesh_map.Count == 0)
            {
                Debug.LogError("Found no materials in list of objects to combine");
            }
            mom.resultMaterials = new MB_MultiMaterial[numResMats + obUVobject2mesh_map.Count];
            string pth        = AssetDatabase.GetAssetPath(mom.textureBakeResults);
            string baseName   = Path.GetFileNameWithoutExtension(pth);
            string folderPath = pth.Substring(0, pth.Length - baseName.Length - 6);
            int    k          = 0;

            foreach (MB3_TextureBakerEditorInternal.MultiMatSubmeshInfo sh in shader2Material_map.Keys)
            {
                foreach (List <Material> matsThatUse in shader2Material_map[sh])
                {
                    MB_MultiMaterial mm = mom.resultMaterials[k] = new MB_MultiMaterial();
                    mm.sourceMaterials = matsThatUse;
                    if (mm.sourceMaterials.Count == 1)
                    {
                        mm.considerMeshUVs = false;
                    }
                    else
                    {
                        mm.considerMeshUVs = mom.fixOutOfBoundsUVs;
                    }
                    string   matName = folderPath + baseName + "-mat" + k + ".mat";
                    Material newMat  = new Material(Shader.Find("Diffuse"));
                    if (matsThatUse.Count > 0 && matsThatUse[0] != null)
                    {
                        MB3_TextureBaker.ConfigureNewMaterialToMatchOld(newMat, matsThatUse[0]);
                    }
                    AssetDatabase.CreateAsset(newMat, matName);
                    mm.combinedMaterial = (Material)AssetDatabase.LoadAssetAtPath(matName, typeof(Material));
                    k++;
                }
            }
            foreach (Material m in obUVobject2mesh_map.Keys)
            {
                MB_MultiMaterial mm = mom.resultMaterials[k] = new MB_MultiMaterial();
                mm.sourceMaterials = new List <Material>();
                mm.sourceMaterials.Add(m);
                mm.considerMeshUVs = false;
                string   matName = folderPath + baseName + "-mat" + k + ".mat";
                Material newMat  = new Material(Shader.Find("Diffuse"));
                MB3_TextureBaker.ConfigureNewMaterialToMatchOld(newMat, m);
                AssetDatabase.CreateAsset(newMat, matName);
                mm.combinedMaterial = (Material)AssetDatabase.LoadAssetAtPath(matName, typeof(Material));
                k++;
            }
            MBVersionEditor.UpdateIfDirtyOrScript(textureBaker);
        }
Example #2
0
        public static void ConfigureTextureArraysFromObjsToCombine(MB3_TextureBaker mom, SerializedProperty resultMaterialsTexArrays, SerializedObject textureBaker)
        {
            if (mom.GetObjectsToCombine().Count == 0)
            {
                Debug.LogError("You need to add some objects to combine before building the texture array result materials.");
                return;
            }
            if (resultMaterialsTexArrays.arraySize > 0)
            {
                Debug.LogError("You already have some texture array result materials configured. You must remove these before doing this operation.");
                return;
            }
            if (mom.textureBakeResults == null)
            {
                Debug.LogError("Texture Bake Result asset must be set before using this operation.");
                return;
            }

            //validate that the objects to be combined are valid
            for (int i = 0; i < mom.GetObjectsToCombine().Count; i++)
            {
                GameObject go = mom.GetObjectsToCombine()[i];
                if (go == null)
                {
                    Debug.LogError("Null object in list of objects to combine at position " + i);
                    return;
                }

                if (MB_Utility.GetMesh(go) == null)
                {
                    Debug.LogError("Could not get mesh for object in list of objects to combine at position " + i);
                    return;
                }

                Renderer r = go.GetComponent <Renderer>();
                if (r == null || (!(r is MeshRenderer) && !(r is SkinnedMeshRenderer)))
                {
                    Debug.LogError("GameObject at position " + i + " in list of objects to combine did not have a renderer");
                    return;
                }
                if (r.sharedMaterial == null)
                {
                    Debug.LogError("GameObject at position " + i + " in list of objects to combine has a null material");
                    return;
                }
            }

            //Will sort into "result material"
            //  slices
            Dictionary <MB3_TextureBakerEditorInternal.MultiMatSubmeshInfo, List <Slice> > shader2ResultMat_map = new Dictionary <MB3_TextureBakerEditorInternal.MultiMatSubmeshInfo, List <Slice> >();

            // first pass split by shader and analyse meshes.
            List <GameObject> objsToCombine = mom.GetObjectsToCombine();

            for (int meshIdx = 0; meshIdx < objsToCombine.Count; meshIdx++)
            {
                GameObject srcGo = objsToCombine[meshIdx];
                Mesh       mesh  = MB_Utility.GetMesh(srcGo);
                Renderer   r     = MB_Utility.GetRenderer(srcGo);

                if (mom.LOG_LEVEL >= MB2_LogLevel.trace)
                {
                    Debug.Log("1st Pass 'Split By Shader' Processing Mesh: " + mesh + " Num submeshes: " + r.sharedMaterials.Length);
                }
                for (int submeshIdx = 0; submeshIdx < r.sharedMaterials.Length; submeshIdx++)
                {
                    if (r.sharedMaterials[submeshIdx] == null)
                    {
                        continue;
                    }

                    MB3_TextureBakerEditorInternal.MultiMatSubmeshInfo newKey = new MB3_TextureBakerEditorInternal.MultiMatSubmeshInfo(r.sharedMaterials[submeshIdx].shader, r.sharedMaterials[submeshIdx]);
                    // Initially we fill the list of srcMaterials with garbage MB_MaterialAndUVRects. Will get proper ones when we atlas pack.
                    MB_MaterialAndUVRect submeshMaterial = new MB_MaterialAndUVRect(
                        r.sharedMaterials[submeshIdx],
                        new Rect(0, 0, 0, 0),              // garbage value
                        false,                             //garbage value
                        new Rect(0, 0, 0, 0),              // garbage value
                        new Rect(0, 0, 0, 0),              // garbage value
                        new Rect(0, 0, 1, 1),              // garbage value
                        MB_TextureTilingTreatment.unknown, // garbage value
                        r.name);
                    submeshMaterial.objectsThatUse = new List <GameObject>();
                    submeshMaterial.objectsThatUse.Add(r.gameObject);
                    if (!shader2ResultMat_map.ContainsKey(newKey))
                    {
                        // this is a new shader create a new result material
                        Slice srcMaterials = new Slice
                        {
                            atlasRects    = new List <MB_MaterialAndUVRect>(),
                            numAtlasRects = 1,
                        };
                        srcMaterials.atlasRects.Add(submeshMaterial);
                        List <Slice> binsOfMatsThatUseShader = new List <Slice>();
                        binsOfMatsThatUseShader.Add(srcMaterials);
                        if (mom.LOG_LEVEL >= MB2_LogLevel.trace)
                        {
                            Debug.Log("  Adding Source Material: " + submeshMaterial.material);
                        }
                        shader2ResultMat_map.Add(newKey, binsOfMatsThatUseShader);
                    }
                    else
                    {
                        // there is a result material that uses this shader. Add this source material
                        Slice srcMaterials = shader2ResultMat_map[newKey][0]; // There should only be one list of source materials
                        if (srcMaterials.atlasRects.Find(x => x.material == submeshMaterial.material) == null)
                        {
                            if (mom.LOG_LEVEL >= MB2_LogLevel.trace)
                            {
                                Debug.Log("  Adding Source Material: " + submeshMaterial.material);
                            }
                            srcMaterials.atlasRects.Add(submeshMaterial);
                        }
                    }
                }
            }

            int resMatCount = 0;

            foreach (MB3_TextureBakerEditorInternal.MultiMatSubmeshInfo resultMat in shader2ResultMat_map.Keys)
            {
                // at this point there there should be only one slice with all the source materials
                resMatCount++;

                // For each result material, all source materials are in the first slice.
                // We will now split these using a texture packer. Each "atlas" generated by the packer will be a slice.
                {
                    // All source materials should be in the first slice at this point.
                    List <Slice>      slices                = shader2ResultMat_map[resultMat];
                    List <Slice>      newSlices             = new List <Slice>();
                    Slice             firstSlice            = slices[0];
                    List <Material>   allMatsThatUserShader = new List <Material>();
                    List <GameObject> objsThatUseFirstSlice = new List <GameObject>();
                    for (int i = 0; i < firstSlice.atlasRects.Count; i++)
                    {
                        allMatsThatUserShader.Add(firstSlice.atlasRects[i].material);
                        if (!objsThatUseFirstSlice.Contains(firstSlice.atlasRects[i].objectsThatUse[0]))
                        {
                            objsThatUseFirstSlice.Add(firstSlice.atlasRects[i].objectsThatUse[0]);
                        }
                    }

                    MB3_TextureCombiner combiner = mom.CreateAndConfigureTextureCombiner();
                    combiner.packingAlgorithm    = MB2_PackingAlgorithmEnum.MeshBakerTexturePacker;
                    combiner.saveAtlasesAsAssets = false;
                    combiner.fixOutOfBoundsUVs   = true;
                    combiner.doMergeDistinctMaterialTexturesThatWouldExceedAtlasSize = true;
                    List <AtlasPackingResult> packingResults = new List <AtlasPackingResult>();
                    Material tempMat = new Material(resultMat.shader);

                    if (mom.LOG_LEVEL >= MB2_LogLevel.debug)
                    {
                        Debug.Log("======== 2nd pass. Use atlas packer to split the first slice into multiple if it exceeds atlas size. ");
                    }
                    combiner.CombineTexturesIntoAtlases(null, null, tempMat, mom.GetObjectsToCombine(), allMatsThatUserShader, null, packingResults,
                                                        onlyPackRects: true, splitAtlasWhenPackingIfTooBig: true);
                    if (mom.LOG_LEVEL >= MB2_LogLevel.debug)
                    {
                        Debug.Log("======== Completed packing with texture packer. numPackingResults: " + packingResults.Count);
                    }
                    newSlices.Clear();

                    // The texture packing just split the atlas into multiple atlases. Each atlas will become a "slice".
                    for (int newSliceIdx = 0; newSliceIdx < packingResults.Count; newSliceIdx++)
                    {
                        List <MB_MaterialAndUVRect> sourceMats     = new List <MB_MaterialAndUVRect>();
                        List <MB_MaterialAndUVRect> packedMatRects = (List <MB_MaterialAndUVRect>)packingResults[newSliceIdx].data;
                        HashSet <Rect> distinctAtlasRects          = new HashSet <Rect>();
                        for (int packedMatRectIdx = 0; packedMatRectIdx < packedMatRects.Count; packedMatRectIdx++)
                        {
                            MB_MaterialAndUVRect muvr = packedMatRects[packedMatRectIdx];
                            distinctAtlasRects.Add(muvr.atlasRect);
                            {
                                Rect    encapsulatingRect = muvr.GetEncapsulatingRect();
                                Vector2 sizeInAtlas_px    = new Vector2(
                                    packingResults[newSliceIdx].atlasX * encapsulatingRect.width,
                                    packingResults[newSliceIdx].atlasY * encapsulatingRect.height);
                            }
                            sourceMats.Add(muvr);
                        }

                        Slice slice = new Slice()
                        {
                            atlasRects    = sourceMats,
                            packingResult = packingResults[newSliceIdx],
                            numAtlasRects = distinctAtlasRects.Count,
                        };

                        newSlices.Add(slice);
                    }

                    // Replace first slice with split version.
                    if (mom.LOG_LEVEL >= MB2_LogLevel.debug)
                    {
                        Debug.Log("First slice exceeded atlas size splitting it into " + newSlices.Count + " slices");
                    }
                    slices.RemoveAt(0);
                    for (int i = 0; i < newSlices.Count; i++)
                    {
                        slices.Insert(i, newSlices[i]);
                    }
                }
            }

            // build the texture array result materials
            if (shader2ResultMat_map.Count == 0)
            {
                Debug.LogError("Found no materials in list of objects to combine");
            }
            mom.resultMaterialsTexArray = new MB_MultiMaterialTexArray[shader2ResultMat_map.Count];
            int k = 0;

            foreach (MB3_TextureBakerEditorInternal.MultiMatSubmeshInfo resMatKey in shader2ResultMat_map.Keys)
            {
                List <Slice>             srcSlices = shader2ResultMat_map[resMatKey];
                MB_MultiMaterialTexArray mm        = mom.resultMaterialsTexArray[k] = new MB_MultiMaterialTexArray();
                for (int sliceIdx = 0; sliceIdx < srcSlices.Count; sliceIdx++)
                {
                    Slice            slice    = srcSlices[sliceIdx];
                    MB_TexArraySlice resSlice = new MB_TexArraySlice();
                    List <Material>  usedMats = new List <Material>();

                    for (int srcMatIdx = 0; srcMatIdx < slice.atlasRects.Count; srcMatIdx++)
                    {
                        MB_MaterialAndUVRect matAndUVRect = slice.atlasRects[srcMatIdx];
                        List <GameObject>    objsThatUse  = matAndUVRect.objectsThatUse;
                        for (int objsThatUseIdx = 0; objsThatUseIdx < objsThatUse.Count; objsThatUseIdx++)
                        {
                            GameObject obj = objsThatUse[objsThatUseIdx];
                            if (!resSlice.ContainsMaterialAndMesh(slice.atlasRects[srcMatIdx].material, MB_Utility.GetMesh(obj)))
                            {
                                resSlice.sourceMaterials.Add(
                                    new MB_TexArraySliceRendererMatPair()
                                {
                                    renderer       = obj,
                                    sourceMaterial = slice.atlasRects[srcMatIdx].material
                                }
                                    );
                            }
                        }
                    }

                    {
                        // Should we use considerUVs
                        bool doConsiderUVs = false;
                        //     If there is more than one atlas rectangle in a slice then use considerUVs
                        if (slice.numAtlasRects > 1)
                        {
                            doConsiderUVs = true;
                        }
                        else
                        {
                            //     There is only one source material, could be:
                            //          - lots of tiling (don't want consider UVs)
                            //          - We are extracting a small part of a large atlas (want considerUVs)
                            if (slice.packingResult.atlasX >= mom.maxAtlasSize ||
                                slice.packingResult.atlasY >= mom.maxAtlasSize)
                            {
                                doConsiderUVs = false; // lots of tiling
                            }
                            else
                            {
                                doConsiderUVs = true; // extracting a small part of an atlas
                            }
                        }

                        resSlice.considerMeshUVs = doConsiderUVs;
                    }

                    mm.slices.Add(resSlice);
                }

                // Enforce integrity. If a material appears in more than one slice then all those slices must be considerUVs=true
                {
                    // collect all distinct materials
                    HashSet <Material>         distinctMats   = new HashSet <Material>();
                    Dictionary <Material, int> mat2sliceCount = new Dictionary <Material, int>();
                    for (int sliceIdx = 0; sliceIdx < mm.slices.Count; sliceIdx++)
                    {
                        for (int sliceMatIdx = 0; sliceMatIdx < mm.slices[sliceIdx].sourceMaterials.Count; sliceMatIdx++)
                        {
                            Material mat = mm.slices[sliceIdx].sourceMaterials[sliceMatIdx].sourceMaterial;
                            distinctMats.Add(mat);
                            mat2sliceCount[mat] = 0;
                        }
                    }

                    // Count the number of slices that use each material.
                    foreach (Material mat in distinctMats)
                    {
                        for (int sliceIdx = 0; sliceIdx < mm.slices.Count; sliceIdx++)
                        {
                            if (mm.slices[sliceIdx].ContainsMaterial(mat))
                            {
                                mat2sliceCount[mat] = mat2sliceCount[mat] + 1;
                            }
                        }
                    }

                    // Check that considerUVs is true for any materials that appear more than once
                    foreach (Material mat in distinctMats)
                    {
                        if (mat2sliceCount[mat] > 1)
                        {
                            for (int sliceIdx = 0; sliceIdx < mm.slices.Count; sliceIdx++)
                            {
                                if (mm.slices[sliceIdx].ContainsMaterial(mat))
                                {
                                    if (mom.LOG_LEVEL >= MB2_LogLevel.debug &&
                                        mm.slices[sliceIdx].considerMeshUVs)
                                    {
                                        Debug.Log("There was a material " + mat + " that was used by more than one slice and considerUVs was false. sliceIdx:" + sliceIdx);
                                    }
                                    mm.slices[sliceIdx].considerMeshUVs = true;
                                }
                            }
                        }
                    }
                }

                // Cleanup. remove "Renderer"s from source materials that do not use considerUVs and delete extra
                {
                    // put any slices with consider UVs first
                    List <MB_TexArraySlice> newSlices = new List <MB_TexArraySlice>();
                    for (int sliceIdx = 0; sliceIdx < mm.slices.Count; sliceIdx++)
                    {
                        if (mm.slices[sliceIdx].considerMeshUVs == true)
                        {
                            newSlices.Add(mm.slices[sliceIdx]);
                        }
                    }

                    // for any slices without considerUVs, remove "renderer" and truncate
                    for (int sliceIdx = 0; sliceIdx < mm.slices.Count; sliceIdx++)
                    {
                        MB_TexArraySlice slice = mm.slices[sliceIdx];
                        if (slice.considerMeshUVs == false)
                        {
                            newSlices.Add(slice);
                            HashSet <Material> distinctMats = slice.GetDistinctMaterials();
                            slice.sourceMaterials.Clear();
                            foreach (Material mat in distinctMats)
                            {
                                slice.sourceMaterials.Add(new MB_TexArraySliceRendererMatPair()
                                {
                                    sourceMaterial = mat
                                });
                            }
                        }
                    }

                    mm.slices = newSlices;
                }

                string   pth           = AssetDatabase.GetAssetPath(mom.textureBakeResults);
                string   baseName      = Path.GetFileNameWithoutExtension(pth);
                string   folderPath    = pth.Substring(0, pth.Length - baseName.Length - 6);
                string   matName       = folderPath + baseName + "-mat" + k + ".mat";
                Material existingAsset = AssetDatabase.LoadAssetAtPath <Material>(matName);
                if (!existingAsset)
                {
                    Material newMat = new Material(Shader.Find("Standard"));
                    // Don't try to configure the material we need the user to pick a shader that has TextureArrays
                    AssetDatabase.CreateAsset(newMat, matName);
                }

                mm.combinedMaterial = (Material)AssetDatabase.LoadAssetAtPath(matName, typeof(Material));
                k++;
            }


            MBVersionEditor.UpdateIfDirtyOrScript(textureBaker);
            textureBaker.Update();
        }