private static List <Vector2> offsets; //used for tiling of the textures.
//objToCombine should be correctly assembled,meaning has MeshRenderer,filter and shares the same type of shader across materials
//combines the number of materials in the mesh renderer, not the submesh count.
public static GameObject CombineMaterials(GameObject objToCombine, string shaderUsed)
{
List <string> shaderDefines = ShaderManager.Instance.GetShaderTexturesDefines(shaderUsed);
Material[] materialsToCombine = objToCombine.GetComponent <MeshRenderer>().sharedMaterials;
GetTexturesScalesAndOffsetsForShaderDefine(objToCombine, shaderDefines[0]);
int atlasSize = CalculateAproxAtlasSizeForMaterials(objToCombine, shaderUsed);
Atlasser atlas = new Atlasser(atlasSize, atlasSize);
// generate atlas for the initial textures
int resizeTimes = 1;
for (int i = 0; i < texturesToAtlas.Count; i++)
{
Node resultNode = atlas.Insert(texturesToAtlas[i].width, texturesToAtlas[i].height);
if (resultNode == null)
{
int resizedAtlasSize = atlasSize + Mathf.RoundToInt((float)atlasSize * Constants.AtlasResizeFactor * resizeTimes);
atlas = new Atlasser(resizedAtlasSize, resizedAtlasSize);
i = -1;//at the end of the loop 1 will be added and it will start in 0
resizeTimes++;
}
}
//with the generated atlas, save the textures and load them and add them to the combinedMaterial
string pathToAtlas = CreateFolderForCombinedObject(objToCombine);
string fileName = "MaterialAtlas " + shaderUsed.Replace('/', '_');
string atlasTexturePath = pathToAtlas + Path.DirectorySeparatorChar + fileName;
//create material and fill with the combined to be textures in the material
Material combinedMaterial = new Material(Shader.Find(shaderUsed));
AssetDatabase.CreateAsset(combinedMaterial, atlasTexturePath + "Mat.mat");
AssetDatabase.ImportAsset(atlasTexturePath + "Mat.mat");
//AssetDatabase.Refresh();
combinedMaterial = (Material)AssetDatabase.LoadAssetAtPath(atlasTexturePath + "Mat.mat", typeof(Material));
for (int i = 0; i < shaderDefines.Count; i++)
{
GetTexturesScalesAndOffsetsForShaderDefine(objToCombine, shaderDefines[i]);
// Debug.Log ("Creating atlas from multiple materials on gameobject");
atlas.SaveAtlasToFile(atlasTexturePath + i.ToString() + ".png", texturesToAtlas, scales, offsets);
AssetDatabase.ImportAsset(atlasTexturePath + i.ToString() + ".png");
//AssetDatabase.Refresh();
Texture2D savedAtlasTexture = (Texture2D)AssetDatabase.LoadAssetAtPath(atlasTexturePath + i.ToString() + ".png", typeof(Texture2D));
combinedMaterial.SetTexture(shaderDefines[i], savedAtlasTexture);
}
//AssetDatabase.Refresh();
Mesh masterMesh = objToCombine.GetComponent <MeshFilter>().sharedMesh;
Mesh[] subMeshes = new Mesh[materialsToCombine.Length];
for (int i = 0; i < subMeshes.Length; i++)
{
subMeshes[i] = ExtractMesh(masterMesh, i);
Vector2[] remappedUVs = subMeshes[i].uv;
for (int j = 0; j < remappedUVs.Length; j++)
{
remappedUVs[j] = Utils.ReMapUV(remappedUVs[j], atlas.AtlasWidth, atlas.AtlasHeight, atlas.TexturePositions[i], objToCombine.name);
}
subMeshes[i].uv = remappedUVs;
}
GameObject combinedObj = GameObject.Instantiate(objToCombine,
objToCombine.transform.position,
objToCombine.transform.rotation) as GameObject;
combinedObj.GetComponent <MeshRenderer>().sharedMaterials = new Material[] { combinedMaterial };
combinedObj.GetComponent <MeshFilter>().sharedMesh = Utils.CombineMeshes(subMeshes);
combinedObj.transform.parent = objToCombine.transform.parent;
combinedObj.transform.localScale = objToCombine.transform.localScale;
combinedObj.name = objToCombine.name;
return(combinedObj);
}
public void OptimizeShader(bool reuseTextures, bool generatePrefabs)
{
if (shaderName == "")//unknown shader doesnt need to be optimed
{
return;
}
int currentAtlasSize = CalculateAproxAtlasSize(reuseTextures); //(reuseTextures) ? aproxAtlasSizeReuseTextures : aproxAtlasSize;
if ((objects.Count > 1 || //more than 1 obj or 1 obj with multiple mat
(objects.Count == 1 && objects[0] != null && objects[0].ObjHasMoreThanOneMaterial)) &&
currentAtlasSize < Constants.MaxAtlasSize) //check the generated atlas size doesnt exceed max supported texture size
{
List <Rect> texturePositions = new List <Rect>(); //creo que puede morir porque el atlasser tiene adentro un rect.
Node resultNode = null; //nodes for the tree for atlasing
Atlasser generatedAtlas = new Atlasser(currentAtlasSize, currentAtlasSize);
int resizeTimes = 1;
TextureReuseManager textureReuseManager = new TextureReuseManager();
for (int j = objects.Count - 1; j >= 0; j--) //start from the largest to the shortest textures
{
if (objects[j].ObjHasMoreThanOneMaterial) //before atlassing multiple materials obj, combine it.
{
objects[j].ProcessAndCombineMaterials();
}
Vector2 textureToAtlasSize = objects[j].TextureSize;
if (reuseTextures)
{
//if texture is not registered already
if (!textureReuseManager.TextureRefExists(objects[j]))
{
//generate a node
resultNode = generatedAtlas.Insert(Mathf.RoundToInt((textureToAtlasSize.x != Constants.NULLV2.x) ? textureToAtlasSize.x : Constants.NullTextureSize),
Mathf.RoundToInt((textureToAtlasSize.y != Constants.NULLV2.y) ? textureToAtlasSize.y : Constants.NullTextureSize));
if (resultNode != null) //save node if fits in atlas
{
textureReuseManager.AddTextureRef(objects[j], resultNode.NodeRect, j);
}
}
}
else
{
resultNode = generatedAtlas.Insert(Mathf.RoundToInt((textureToAtlasSize.x != Constants.NULLV2.x) ? textureToAtlasSize.x : Constants.NullTextureSize),
Mathf.RoundToInt((textureToAtlasSize.y != Constants.NULLV2.y) ? textureToAtlasSize.y : Constants.NullTextureSize));
}
if (resultNode == null)
{
int resizedAtlasSize = currentAtlasSize + Mathf.RoundToInt((float)currentAtlasSize * Constants.AtlasResizeFactor * resizeTimes);
generatedAtlas = new Atlasser(resizedAtlasSize, resizedAtlasSize);
j = objects.Count;//Count and not .Count-1 bc at the end of the loop it will be substracted j-- and we want to start from Count-1
texturePositions.Clear();
textureReuseManager.ClearTextureRefs();
resizeTimes++;
}
else
{
if (reuseTextures)
{
texturePositions.Add(textureReuseManager.GetTextureRefPosition(objects[j]));
}
else
{
texturePositions.Add(resultNode.NodeRect);//save the texture rectangle
}
}
}
Material atlasMaterial = CreateAtlasMaterialAndTexture(generatedAtlas, shaderName, textureReuseManager);
OptimizeDrawCalls(ref atlasMaterial,
generatedAtlas.GetAtlasSize().x,
generatedAtlas.GetAtlasSize().y,
texturePositions,
reuseTextures,
textureReuseManager,
generatePrefabs);
//after the game object has been organized, remove the combined game objects.
for (int i = 0; i < objects.Count; i++)
{
if (objects[i].ObjWasCombined)
{
objects[i].ClearCombinedObject();
}
}
}
}
void OnGUI()
{
if (NeedToReload())
{
ReloadDataStructures();
}
selectedMenuOption = GUI.SelectionGrid(new Rect(5, 8, window.position.width - 10, 20), selectedMenuOption, menuOptions, 3);
switch (selectedMenuOption)
{
case 0:
ObjectsGUI.Instance.DrawGUI(window);
AdvancedMenuGUI.Instance.ClearConsole();
menuOptions[0] = "Objects";
break;
case 1:
ShadersGUI.Instance.DrawGUI(window);
AdvancedMenuGUI.Instance.ClearConsole();
menuOptions[0] = "Objects(" + ObjSorter.GetTotalSortedObjects() + ")";
break;
case 2:
AdvancedMenuGUI.Instance.DrawGUI(window);
menuOptions[0] = "Objects(" + ObjSorter.GetTotalSortedObjects() + ")";
break;
default:
Debug.LogError("Unrecognized menu option: " + selectedMenuOption);
break;
}
if (GUI.Button(new Rect(5, window.position.height - 35, window.position.width / 2 - 10, 33), "Clear Atlas"))
{
GameObject[] objsInHierarchy = Utils.GetAllObjectsInHierarchy();
foreach (GameObject obj in objsInHierarchy)
{
if (obj.name.Contains(Constants.OptimizedObjIdentifier))
{
DestroyImmediate(obj);
}
else
if (obj.GetComponent <MeshRenderer>() != null)
{
obj.GetComponent <MeshRenderer>().enabled = true;
}
}
// delete the folder where the atlas reside.
string folderOfAtlas = EditorApplication.currentScene;
if (folderOfAtlas == "") //scene is not saved yet.
{
folderOfAtlas = Constants.NonSavedSceneFolderName + ".unity";
Debug.LogWarning("WARNING: Scene has not been saved, clearing baked objects from NOT_SAVED_SCENE folder");
}
folderOfAtlas = folderOfAtlas.Substring(0, folderOfAtlas.Length - 6) + "-Atlas"; //remove the ".unity"
if (Directory.Exists(folderOfAtlas))
{
FileUtil.DeleteFileOrDirectory(folderOfAtlas);
AssetDatabase.Refresh();
}
}
GUI.enabled = CheckEmptyArray(); //if there are no textures deactivate the GUI
if (GUI.Button(new Rect(window.position.width / 2, window.position.height - 35, window.position.width / 2 - 5, 33), "Bake Atlas"))
{
//Remove objects that are already optimized and start over.
if (AdvancedMenuGUI.Instance.RemoveObjectsBeforeBaking)
{
GameObject[] objsInHierarchy = Utils.GetAllObjectsInHierarchy();
foreach (GameObject obj in objsInHierarchy)
{
if (obj.name.Contains(Constants.OptimizedObjIdentifier))
{
GameObject.DestroyImmediate(obj);
}
}
}
List <Rect> texturePositions = new List <Rect>(); //creo que esto puede morir porque el atlasser tiene adentro un rect.
string progressBarInfo = "";
float pace = 1 / (float)ObjSorter.GetRecognizableShadersCount();
float progress = pace;
Node resultNode = null; //nodes for the tree for atlasing
for (int shaderIndex = 0; shaderIndex < ObjSorter.GetObjs().Count; shaderIndex++)
{
EditorUtility.DisplayProgressBar("Optimization in progress... " +
(AdvancedMenuGUI.Instance.CreatePrefabsForObjects ? " Get coffee this will take some time..." : ""), progressBarInfo, progress);
progress += pace;
texturePositions.Clear();
TextureReuseManager textureReuseManager = new TextureReuseManager();
string shaderToAtlas = (ObjSorter.GetObjs()[shaderIndex][0] != null && ObjSorter.GetObjs()[shaderIndex][0].IsCorrectlyAssembled) ? ObjSorter.GetObjs()[shaderIndex][0].ShaderName : "";
progressBarInfo = "Processing shader " + shaderToAtlas + "...";
int atlasSize = ObjSorter.GetAproxAtlasSize(shaderIndex, AdvancedMenuGUI.Instance.ReuseTextures);
if (ShaderManager.Instance.ShaderExists(shaderToAtlas) &&
(ObjSorter.GetObjs()[shaderIndex].Count > 1 ||
(ObjSorter.GetObjs()[shaderIndex].Count == 1 && ObjSorter.GetObjs()[shaderIndex][0] != null && ObjSorter.GetObjs()[shaderIndex][0].ObjHasMoreThanOneMaterial)) && //more than 1 obj or 1obj wth multiple mat
atlasSize < Constants.MaxAtlasSize) //check the generated atlas size doesnt exceed max supported texture size
{
generatedAtlas = new Atlasser(atlasSize, atlasSize);
int resizeTimes = 1;
for (int j = ObjSorter.GetObjs()[shaderIndex].Count - 1; j >= 0; j--) //start from the largest to the shortest textures
//before atlassing multiple materials obj, combine it.
{
if (ObjSorter.GetObjs()[shaderIndex][j].ObjHasMoreThanOneMaterial)
{
progressBarInfo = "Combining materials...";
ObjSorter.GetObjs()[shaderIndex][j].ProcessAndCombineMaterials(); //mirar esto, aca esta el problema de multiple materiales y reimportacion
}
Vector2 textureToAtlasSize = ObjSorter.GetObjs()[shaderIndex][j].TextureSize;
if (AdvancedMenuGUI.Instance.ReuseTextures)
{
//if texture is not registered already
if (!textureReuseManager.TextureRefExists(ObjSorter.GetObjs()[shaderIndex][j]))
{
//generate a node
resultNode = generatedAtlas.Insert(Mathf.RoundToInt((textureToAtlasSize.x != Constants.NULLV2.x) ? textureToAtlasSize.x : Constants.NullTextureSize),
Mathf.RoundToInt((textureToAtlasSize.y != Constants.NULLV2.y) ? textureToAtlasSize.y : Constants.NullTextureSize));
if (resultNode != null) //save node if fits in atlas
{
textureReuseManager.AddTextureRef(ObjSorter.GetObjs()[shaderIndex][j], resultNode.NodeRect, j);
}
}
}
else
{
resultNode = generatedAtlas.Insert(Mathf.RoundToInt((textureToAtlasSize.x != Constants.NULLV2.x) ? textureToAtlasSize.x : Constants.NullTextureSize),
Mathf.RoundToInt((textureToAtlasSize.y != Constants.NULLV2.y) ? textureToAtlasSize.y : Constants.NullTextureSize));
}
if (resultNode == null)
{
int resizedAtlasSize = atlasSize + Mathf.RoundToInt((float)atlasSize * Constants.AtlasResizeFactor * resizeTimes);
generatedAtlas = new Atlasser(resizedAtlasSize, resizedAtlasSize);
j = ObjSorter.GetObjs()[shaderIndex].Count; //Count and not .Count-1 bc at the end of the loop it will be substracted j-- and we want to start from Count-1
texturePositions.Clear();
textureReuseManager.ClearTextureRefs();
resizeTimes++;
}
else
{
if (AdvancedMenuGUI.Instance.ReuseTextures)
{
texturePositions.Add(textureReuseManager.GetTextureRefPosition(ObjSorter.GetObjs()[shaderIndex][j]));
}
else
{
texturePositions.Add(resultNode.NodeRect); //save the texture rectangle
}
}
}
progressBarInfo = "Saving textures to atlas...";
Material atlasMaterial = CreateAtlasMaterialAndTexture(shaderToAtlas, shaderIndex, textureReuseManager);
progressBarInfo = "Remapping coordinates...";
ObjSorter.OptimizeDrawCalls(ref atlasMaterial,
shaderIndex,
generatedAtlas.GetAtlasSize().x,
generatedAtlas.GetAtlasSize().y,
texturePositions,
AdvancedMenuGUI.Instance.ReuseTextures,
textureReuseManager,
AdvancedMenuGUI.Instance.CreatePrefabsForObjects);
}
}
//after the game object has been organized, remove the combined game objects.
for (int shaderIndex = 0; shaderIndex < ObjSorter.GetObjs().Count; shaderIndex++)
{
for (int j = ObjSorter.GetObjs()[shaderIndex].Count - 1; j >= 0; j--)
{
if (ObjSorter.GetObjs()[shaderIndex][j].ObjWasCombined)
{
ObjSorter.GetObjs()[shaderIndex][j].ClearCombinedObject();
}
}
}
EditorUtility.ClearProgressBar();
AssetDatabase.Refresh(); //reimport the created atlases so they get displayed in the editor.
}
}
private static List <Vector2> offsets; //used for tiling of the textures.
//objToCombine should be correctly assembled,meaning has MeshRenderer,filter and shares the same type of shader across materials
//combines the number of materials in the mesh renderer, not the submesh count.
public static GameObject CombineMaterials(GameObject objToCombine, string shaderUsed, bool usesSkinnedMeshRenderer)
{
List <string> shaderDefines = ShaderManager.Instance.GetShaderTexturesDefines(shaderUsed);
Material[] materialsToCombine = usesSkinnedMeshRenderer ? objToCombine.GetComponent <SkinnedMeshRenderer>().sharedMaterials : objToCombine.GetComponent <MeshRenderer>().sharedMaterials;
GetTexturesScalesAndOffsetsForShaderDefine(materialsToCombine, shaderDefines[0]);
int objToCombineID = objToCombine.GetInstanceID();
int atlasSize = CalculateAproxAtlasSizeForMaterials(materialsToCombine, shaderUsed);
Atlasser atlas = new Atlasser(atlasSize, atlasSize, false /*dont force the atlas to be power of 2 as we are combining a material*/);
string atlasName = "Atlas";
// generate atlas for the initial textures
int resizeTimes = 1;
for (int i = 0; i < texturesToAtlas.Count; i++)
{
Node resultNode = atlas.Insert(texturesToAtlas[i].width, texturesToAtlas[i].height);
string texturePath = AssetDatabase.GetAssetPath(texturesToAtlas[i]).Replace(Path.DirectorySeparatorChar, '-');
if (texturePath == "") //means we have a colored material, lets just peek at the color and get a hash
{
texturePath = Utils.CalculateMD5Hash(texturesToAtlas[i].GetPixel(0, 0).ToString()).ToString();
}
atlasName += texturePath;
if (resultNode == null)
{
int resizedAtlasSize = atlasSize + Mathf.RoundToInt((float)atlasSize * Constants.AtlasResizeFactor * resizeTimes);
atlas = new Atlasser(resizedAtlasSize, resizedAtlasSize, false /*dont force the atlas to be power of 2 as we are combining a material*/);
atlasName = "Atlas";
i = -1;//at the end of the loop 1 will be added and it will start in 0
resizeTimes++;
}
}
atlasName = "Tex" + Utils.CalculateMD5Hash(atlasName).ToString();//Remove the MD5 for debuging purposes to know where each tex comes from
//with the generated atlas, save the textures and load them and add them to the combinedMaterial
string pathToCombinedMaterials = CreateFolderForCombinedObjects();
string atlasTexturePath = pathToCombinedMaterials + Path.DirectorySeparatorChar;
//create material and fill with the combined to be textures in the material
string shaderMaterialName = shaderUsed;
if (Utils.IsShaderStandard(shaderMaterialName))
{
shaderMaterialName = Utils.ExtractStandardShaderOriginalName(shaderMaterialName);
}
Material combinedMaterial = new Material(Shader.Find(shaderMaterialName));
string materialPathAndName = atlasTexturePath + "Mat" + objToCombineID + ".mat";
AssetDatabase.CreateAsset(combinedMaterial, materialPathAndName);
AssetDatabase.ImportAsset(materialPathAndName);
combinedMaterial = (Material)AssetDatabase.LoadAssetAtPath(materialPathAndName, typeof(Material));
for (int i = 0; i < shaderDefines.Count; i++)
{
string scaleOffsetsID = GetTexturesScalesAndOffsetsForShaderDefine(materialsToCombine, shaderDefines[i]);
string atlasTexturePathAndName = atlasTexturePath + atlasName + i.ToString() + scaleOffsetsID + ".png";
if (!File.Exists(atlasTexturePathAndName))
{
atlas.SaveAtlasToFile(atlasTexturePathAndName, texturesToAtlas, scales, offsets);
}
AssetDatabase.ImportAsset(atlasTexturePathAndName);
Texture2D savedAtlasTexture = (Texture2D)AssetDatabase.LoadAssetAtPath(atlasTexturePathAndName, typeof(Texture2D));
combinedMaterial.SetTexture(shaderDefines[i], savedAtlasTexture);
}
Mesh masterMesh = usesSkinnedMeshRenderer ? objToCombine.GetComponent <SkinnedMeshRenderer>().sharedMesh : objToCombine.GetComponent <MeshFilter>().sharedMesh;
Mesh[] subMeshes = new Mesh[materialsToCombine.Length];
for (int i = 0; i < subMeshes.Length; i++)
{
//Debug.Log("Number of Meshes: " + subMeshes.Length + " i: " + i);
subMeshes[i] = ExtractMesh(masterMesh, i);
Vector2[] remappedUVs = subMeshes[i].uv;
bool generatedTexture = (materialsToCombine[i].mainTexture == null);
for (int j = 0; j < remappedUVs.Length; j++)
{
remappedUVs[j] = Utils.ReMapUV(remappedUVs[j], atlas.AtlasWidth, atlas.AtlasHeight, atlas.TexturePositions[i], objToCombine.name, generatedTexture);
}
subMeshes[i].uv = remappedUVs;
}
GameObject combinedObj = GameObject.Instantiate(objToCombine,
objToCombine.transform.position,
objToCombine.transform.rotation) as GameObject;
if (usesSkinnedMeshRenderer)
{
combinedObj.GetComponent <SkinnedMeshRenderer>().sharedMaterials = new Material[] { combinedMaterial };
combinedObj.GetComponent <SkinnedMeshRenderer>().sharedMesh = Utils.CombineMeshes(subMeshes);
combinedObj.GetComponent <SkinnedMeshRenderer>().sharedMesh.boneWeights = objToCombine.GetComponent <SkinnedMeshRenderer>().sharedMesh.boneWeights;
combinedObj.GetComponent <SkinnedMeshRenderer>().sharedMesh.bindposes = objToCombine.GetComponent <SkinnedMeshRenderer>().sharedMesh.bindposes;
}
else
{
combinedObj.GetComponent <MeshRenderer>().sharedMaterials = new Material[] { combinedMaterial };
combinedObj.GetComponent <MeshFilter>().sharedMesh = Utils.CombineMeshes(subMeshes);
}
combinedObj.transform.parent = objToCombine.transform.parent;
combinedObj.transform.localScale = objToCombine.transform.localScale;
combinedObj.name = objToCombine.name;
return(combinedObj);
}
public void OptimizeShader(bool reuseTextures, bool generatePrefabs, bool generatePowerOf2Atlases)
{
optimizedObjects.Clear(); //used for generating hierearchy
if (shaderName == "") //unknown shader doesnt need to be optimed
{
return;
}
int currentAtlasSize = Mathf.Min(CalculateAproxAtlasSize(reuseTextures, generatePowerOf2Atlases),
Constants.MaxAtlasSize); /*Constants.MaxAtlasSize);*/
if (objectsToOptimize.Count > 1 || //more than 1 obj or 1 obj with multiple mat
(objectsToOptimize.Count == 1 && objectsToOptimize[0] != null && objectsToOptimize[0].ObjHasMoreThanOneMaterial))
{
// // // when generating prefabs // // //
folderToSavePrefabs = (PersistenceHandler.Instance.PathToSaveOptimizedObjs != "") ?
PersistenceHandler.Instance.PathToSaveOptimizedObjs + Path.DirectorySeparatorChar + Utils.GetCurrentSceneName() :
EditorSceneManager.GetActiveScene().path;//<--5.4 +
//EditorApplication.currentScene;//<- 5.3 -
if (generatePrefabs)
{
//if(EditorApplication.currentScene == "") { //scene is not saved yet.
if (EditorSceneManager.GetActiveScene().path == "")//scene not saved yet.
{
folderToSavePrefabs = Constants.NonSavedSceneFolderName + ".unity";
}
folderToSavePrefabs = folderToSavePrefabs.Substring(0, folderToSavePrefabs.Length - 6) + "-Atlas";//remove the ".unity"
folderToSavePrefabs += Path.DirectorySeparatorChar + "Prefabs";
if (!Directory.Exists(folderToSavePrefabs))
{
Directory.CreateDirectory(folderToSavePrefabs);
AssetDatabase.Refresh();
}
}
///////////////////////////////////////////
Node resultNode = null;//nodes for the tree for atlasing
Atlasser generatedAtlas = new Atlasser(currentAtlasSize, currentAtlasSize, generatePowerOf2Atlases);
int resizeTimes = 1;
TextureReuseManager textureReuseManager = new TextureReuseManager();
int lastAtlasStartingIndex = objectsToOptimize.Count - 1;
int atlasNumber = 1; //this is just for numbering the atlases
int range = 0; //how many items have we placed inside the current atlas.
for (int j = objectsToOptimize.Count - 1; j >= 0; j--) //start from the largest to the shortest textures
{
if (objectsToOptimize[j].ObjHasMoreThanOneMaterial) //before atlassing multiple materials obj, combine it.
{
objectsToOptimize[j].ProcessAndCombineMaterials();
}
Vector2 textureToAtlasSize = objectsToOptimize[j].TextureSize;
if (objectsToOptimize[j].TextureArea > Constants.MaxAtlasSize * Constants.MaxAtlasSize)
{
Debug.LogError("Texture for game object: " + objectsToOptimize[j].GameObj.name + " is bigger than max atlas size: " + Constants.MaxAtlasSize + "x" + Constants.MaxAtlasSize + " ABORTING");
return;
}
if (reuseTextures)
{
if (!textureReuseManager.TextureRefExists(objectsToOptimize[j]))//if texture is not registered already
//generate a node
{
resultNode = generatedAtlas.Insert(Mathf.RoundToInt((textureToAtlasSize.x != Constants.NULLV2.x) ? textureToAtlasSize.x : Constants.NullTextureSize),
Mathf.RoundToInt((textureToAtlasSize.y != Constants.NULLV2.y) ? textureToAtlasSize.y : Constants.NullTextureSize));
if (resultNode != null) //save node if fits in atlas
{
textureReuseManager.AddTextureRef(objectsToOptimize[j], resultNode.NodeRect, j);
}
}
}
else
{
resultNode = generatedAtlas.Insert(Mathf.RoundToInt((textureToAtlasSize.x != Constants.NULLV2.x) ? textureToAtlasSize.x : Constants.NullTextureSize),
Mathf.RoundToInt((textureToAtlasSize.y != Constants.NULLV2.y) ? textureToAtlasSize.y : Constants.NullTextureSize));
}
if (resultNode == null)
{
int resizedAtlasSize = currentAtlasSize + Mathf.RoundToInt((float)currentAtlasSize * Constants.AtlasResizeFactor * resizeTimes);
if (resizedAtlasSize <= Constants.MaxAtlasSize)//If we still can place textures inside the atlas then increase the atlas.
{
if (generatePowerOf2Atlases)
{
resizedAtlasSize = Mathf.NextPowerOfTwo(resizedAtlasSize);
}
generatedAtlas = new Atlasser(resizedAtlasSize, resizedAtlasSize, generatePowerOf2Atlases);
j = lastAtlasStartingIndex + 1;//== Count and not .Count-1 bc at the end of the loop it will be substracted j-- and we want to start from Count-1
resizeTimes++;
}
else//lets save what we have gathered already into a material + objects and lets start over again.
{
lastAtlasStartingIndex = j;
Material atlasMaterial1 = CreateAtlasMaterialAndTexture(generatedAtlas, shaderName, textureReuseManager, atlasNumber, lastAtlasStartingIndex + 1, lastAtlasStartingIndex + 1 + range);
OptimizeDrawCalls(objectsToOptimize.GetRange(lastAtlasStartingIndex + 1, range),
ref atlasMaterial1,
generatedAtlas.GetAtlasSize().x, generatedAtlas.GetAtlasSize().y,
generatedAtlas.TexturePositions,
reuseTextures,
textureReuseManager,//remember to clear this when creating one atlas.
generatePrefabs);
CombineObjectsSelectedForCombine(generatePrefabs, atlasMaterial1, lastAtlasStartingIndex + 1, lastAtlasStartingIndex + 1 + range);
resizeTimes = 1;
currentAtlasSize = Constants.MinAtlasSize;
generatedAtlas = new Atlasser(currentAtlasSize, currentAtlasSize, generatePowerOf2Atlases);
atlasNumber++;
if (j == 0)
{
j++; //if we happen to be creating an atlas in the last iteration of the loop. then we need to iterate once more to get the 1rst elementx
}
}
textureReuseManager.ClearTextureRefs();
range = 0;
}
else
{
range++;//increase range as the resultNode != null --> Insertion was successful
}
}
Material atlasMaterial = CreateAtlasMaterialAndTexture(generatedAtlas, shaderName, textureReuseManager, atlasNumber, 0, range);
OptimizeDrawCalls(objectsToOptimize.GetRange(0, range),
ref atlasMaterial,
generatedAtlas.GetAtlasSize().x,
generatedAtlas.GetAtlasSize().y,
generatedAtlas.TexturePositions,
reuseTextures,
textureReuseManager,
generatePrefabs);
CombineObjectsSelectedForCombine(generatePrefabs, atlasMaterial, 0, range);
//after the game object has been organized, remove the combined game objects.
for (int i = 0; i < objectsToOptimize.Count; i++)
{
if (objectsToOptimize[i].ObjWasCombined)
{
objectsToOptimize[i].ClearCombinedObject();
}
}
}
}