protected override GameObject DoUnityThreadWork(IDisposable state__,
out IEnumerable <Null> meshEnumerable,
out ImportMaterialCollector
importMaterialCollector)
{
meshEnumerable = null;
importMaterialCollector = null;
GameObject rootObject = null;
using (IDisposable state_ = state__)
{
var state = state_ as ImportGltf.ImportState;
if (state != null)
{
string assetLocation = Path.GetDirectoryName(m_localPath);
// EndImport doesn't try to use the loadImages functionality of UriLoader anyway.
// It knows it's on the main thread, so chooses to use Unity's fast loading.
var loader = new TiltBrushUriLoader(m_localPath, assetLocation, loadImages: false);
ImportGltf.GltfImportResult result =
ImportGltf.EndImport(
state, loader,
new ImportMaterialCollector(assetLocation, uniqueSeed: m_localPath),
out meshEnumerable);
if (result != null)
{
rootObject = result.root;
importMaterialCollector = (ImportMaterialCollector)result.materialCollector;
}
}
}
IsValid = (rootObject != null);
return(rootObject);
}
GameObject LoadGltf(List <string> warnings)
{
// This is intended to be identical to using GltfModelBuilder, except synchronous.
GameObject go;
bool fromPoly = (m_Location.GetLocationType() == Location.Type.PolyAssetId);
string localPath = m_Location.AbsolutePath;
string assetLocation = Path.GetDirectoryName(localPath);
// Synchronous, so don't use slow image loading
var loader = new TiltBrushUriLoader(localPath, assetLocation, loadImages: false);
try
{
ImportGltf.GltfImportResult result = ImportGltf.Import(
localPath, loader,
new ImportMaterialCollector(assetLocation, uniqueSeed: localPath),
fromPoly ? kPolyGltfImportOptions : kGltfImportOptions);
go = result.root;
m_ImportMaterialCollector = (ImportMaterialCollector)result.materialCollector;
}
catch (Exception ex)
{
m_LoadError = new LoadError("Invalid data", ex.Message);
go = null;
m_AllowExport = false;
Debug.LogException(ex);
}
m_AllowExport = (go != null);
return(go);
}
private static GameObject DoImport(string gltfPath, PolyImportOptions options, bool savePrefab = false)
{
var text = File.ReadAllText(gltfPath);
GltfSchemaVersion version;
if (text.Contains("\"version\": \"1"))
{
version = GltfSchemaVersion.GLTF1;
}
else if (text.Contains("\"version\": \"2"))
{
version = GltfSchemaVersion.GLTF2;
}
else
{
// well, just guess I suppose... it's just test code
version = GltfSchemaVersion.GLTF1;
}
Debug.LogFormat("Import {0} as {1}", gltfPath, version);
IUriLoader binLoader = new BufferedStreamLoader(Path.GetDirectoryName(gltfPath));
using (TextReader reader = new StreamReader(gltfPath)) {
var result = ImportGltf.Import(version, reader, binLoader, options);
if (savePrefab)
{
SaveAsSinglePrefab(result, Path.ChangeExtension(gltfPath, ".prefab"));
}
return(result.root);
}
}
public override void OnImportAsset(AssetImportContext ctx)
{
IUriLoader loader = new BufferedStreamLoader(
ctx.assetPath, Path.GetDirectoryName(ctx.assetPath));
ImportGltf.GltfImportResult result = ImportGltf.Import(
ctx.assetPath, loader, null, kOptions);
// The "identifier" param passed here is supposed to be:
// - Unique to this asset
// - Deterministic (if possible)
foreach (var obj in result.textures)
{
if (!AssetDatabase.Contains(obj))
{
ctx.AddObjectToAsset("Texture/" + obj.name, obj);
}
}
foreach (var obj in result.materials)
{
ctx.AddObjectToAsset("Material/" + obj.name, obj);
}
foreach (var obj in result.meshes)
{
ctx.AddObjectToAsset("Mesh/" + obj.name, obj);
}
string objectName = Path.GetFileNameWithoutExtension(ctx.assetPath);
result.root.name = objectName;
ctx.AddObjectToAsset("ROOT", result.root);
ctx.SetMainObject(result.root);
}
protected override IDisposable DoBackgroundThreadWork()
{
var loader = new TiltBrushUriLoader(
m_localPath, Path.GetDirectoryName(m_localPath), m_useThreadedImageLoad);
var options = m_fromPoly ? kPolyGltfImportOptions : kGltfImportOptions;
return(ImportGltf.BeginImport(m_localPath, loader, options));
}
/*
* public override void OnImportAsset(AssetImportContext ctx) {
* IUriLoader loader = new BufferedStreamLoader(
* ctx.assetPath, Path.GetDirectoryName(ctx.assetPath));
*
* ImportGltf.GltfImportResult result = ImportGltf.Import(
* ctx.assetPath, loader, null, kOptions);
*
* // The "identifier" param passed here is supposed to be:
* // - Unique to this asset
* // - Deterministic (if possible)
* foreach (var obj in result.textures) {
* if (! AssetDatabase.Contains(obj)) {
* ctx.AddObjectToAsset("Texture/" + obj.name, obj);
* }
* }
* foreach (var obj in result.materials) {
* ctx.AddObjectToAsset("Material/" + obj.name, obj);
* }
* foreach (var obj in result.meshes) {
* ctx.AddObjectToAsset("Mesh/" + obj.name, obj);
* }
* string objectName = Path.GetFileNameWithoutExtension(ctx.assetPath);
* result.root.name = objectName;
* ctx.AddObjectToAsset("ROOT", result.root);
* ctx.SetMainObject(result.root);
* }
*/
public static GameObject ImportTiltBrushAsset(string path)
{
IUriLoader loader = new BufferedStreamLoader(
path, Path.GetDirectoryName(path));//Directory.GetParent(path).ToString());
ImportGltf.GltfImportResult result = ImportGltf.Import(
path, loader, null, kOptions);
return(result.root);
}
public static void TestSaveAsSinglePrefab()
{
IUriLoader binLoader = new BufferedStreamLoader(Path.GetDirectoryName(Path.Combine(RepoRoot, kMoto)));
ImportGltf.GltfImportResult result = null;
using (TextReader reader = new StreamReader(Path.Combine(RepoRoot, kMoto))) {
result = ImportGltf.Import(GltfSchemaVersion.GLTF1, reader, binLoader, PolyImportOptions.Default());
}
string prefabPath = "Assets/Poly/TestData/single_p.prefab";
SaveAsSinglePrefab(result, prefabPath);
GameObject.DestroyImmediate(result.root);
}
public static void TestSaveAsSeparateWithMeshesInAsset()
{
IUriLoader binLoader = new BufferedStreamLoader(Path.GetDirectoryName(Path.Combine(RepoRoot, kAllBrush10)));
ImportGltf.GltfImportResult result = null;
using (TextReader reader = new StreamReader(Path.Combine(RepoRoot, kAllBrush10))) {
result = ImportGltf.Import(GltfSchemaVersion.GLTF1, reader, binLoader, PolyImportOptions.Default());
}
string assetPath = "Assets/Poly/TestData/separate_a.asset";
string prefabPath = "Assets/Poly/TestData/separate_p.prefab";
SaveAsSeparateWithMeshesInAsset(result, assetPath, prefabPath);
GameObject.DestroyImmediate(result.root);
}
public void Update()
{
// We process at most one import result per frame, to avoid doing too much work
// in the main thread.
ImportOperation operation;
lock (finishedOperationsLock)
{
if (finishedOperations.Count == 0)
{
return;
}
operation = finishedOperations.Dequeue();
}
if (!operation.status.ok)
{
// Import failed.
operation.callback(operation.status, root: null, meshCreator: null);
return;
}
try
{
IEnumerable meshCreator;
ImportGltf.GltfImportResult result = ImportGltf.EndImport(operation.importState,
operation.loader, out meshCreator);
if (!operation.options.clientThrottledMainThread)
{
// If we're not in throttled mode, create all the meshes immediately by exhausting
// the meshCreator enumeration. Otherwise, it's the caller's responsibility to
// do this.
foreach (var unused in meshCreator) /* empty */ } {
meshCreator = null;
}
// Success.
operation.callback(PolyStatus.Success(), result.root, meshCreator);
}
catch (Exception ex)
{
// Import failed.
Debug.LogException(ex);
operation.callback(PolyStatus.Error("Failed to convert import to Unity objects.", ex),
root: null, meshCreator: null);
}
}
private static void BackgroundThreadProc(object userData)
{
ImportOperation operation = (ImportOperation)userData;
try {
using (TextReader reader = new StreamReader(new MemoryStream(operation.format.root.contents), Encoding.UTF8)) {
operation.importState = ImportGltf.BeginImport(
operation.format.formatType == PolyFormatType.GLTF ? GltfSchemaVersion.GLTF1 : GltfSchemaVersion.GLTF2,
reader, operation.loader, operation.options);
}
} catch (Exception ex) {
Debug.LogException(ex);
operation.status = PolyStatus.Error("Error importing asset.", ex);
}
// Done with background thread part, let's queue it so we can finish up on the main thread.
operation.instance.EnqueueFinishedOperation(operation);
}
/// <summary>
/// Executes the given import request, producing a PtAsset and a prefab.
/// </summary>
/// <param name="request">The request to perform.</param>
private static void ExecuteImportRequest(ImportRequest request)
{
PtDebug.LogFormat("Executing import request: {0}", request);
string gltfFullPath = PtUtils.ToAbsolutePath(request.gltfLocalPath);
string assetLocalPath = request.ptAssetLocalPath;
string assetFullPath = PtUtils.ToAbsolutePath(assetLocalPath);
PtAsset assetToReplace = AssetDatabase.LoadAssetAtPath <PtAsset>(assetLocalPath);
GameObject prefabToReplace = null;
if (assetToReplace != null)
{
if (assetToReplace.assetPrefab == null)
{
Debug.LogErrorFormat("Couldn't find prefab for asset {0}.", assetToReplace);
PtAnalytics.SendEvent(PtAnalytics.Action.IMPORT_FAILED, "Prefab not found");
return;
}
prefabToReplace = assetToReplace.assetPrefab;
}
// Determine if file is glTF2 or glTF1.
bool isGltf2 = Path.GetExtension(request.gltfLocalPath) == ".gltf2";
// First, import the GLTF and build a GameObject from it.
EditorUtility.DisplayProgressBar(PROGRESS_BAR_TITLE, PROGRESS_BAR_TEXT, 0.5f);
// Use a SanitizedPath stream loader because any format file we have downloaded and saved to disk we
// have replaced the original relative path string with the MD5 string hash. This custom stream loader
// will always convert uris passed to it to this hash value, and read them from there.
IUriLoader binLoader = new HashedPathBufferedStreamLoader(Path.GetDirectoryName(gltfFullPath));
ImportGltf.GltfImportResult result = null;
using (TextReader reader = new StreamReader(gltfFullPath)) {
result = ImportGltf.Import(isGltf2 ? GltfSchemaVersion.GLTF2 : GltfSchemaVersion.GLTF1,
reader, binLoader, request.options.baseOptions);
}
EditorUtility.ClearProgressBar();
string baseName = PtUtils.GetPtAssetBaseName(request.polyAsset);
result.root.name = baseName;
// Create the asset (delete it first if it exists).
if (File.Exists(assetFullPath))
{
AssetDatabase.DeleteAsset(assetLocalPath);
// If we are replacing an existing asset, we should rename the replacement to the new name,
// since the name reflects the identity of the asset. So if the user is importing the asset
// dog_a381b3g to replace what was previously cat_v81938.asset, the replacement file should
// be named dog_a381b3g.asset, not cat_v81938.asset.
assetLocalPath = PtUtils.GetDefaultPtAssetPath(request.polyAsset);
assetFullPath = PtUtils.ToAbsolutePath(assetLocalPath);
}
Directory.CreateDirectory(Path.GetDirectoryName(assetFullPath));
// Create the new PtAsset and fill it in.
AssetDatabase.CreateAsset(ScriptableObject.CreateInstance <PtAsset>(), assetLocalPath);
PtAsset newAsset = AssetDatabase.LoadAssetAtPath <PtAsset>(assetLocalPath);
newAsset.name = baseName;
newAsset.title = request.polyAsset.displayName ?? "";
newAsset.author = request.polyAsset.authorName ?? "";
newAsset.license = request.polyAsset.license;
newAsset.url = request.polyAsset.Url;
// Ensure the imported object has a PtAssetObject component which references the PtAsset.
result.root.AddComponent <PtAssetObject>().asset = newAsset;
// Add all the meshes to the PtAsset.
SaveMeshes(result.meshes, newAsset);
// If the asset has materials, save those to the PtAsset.
if (result.materials != null)
{
SaveMaterials(result.materials, newAsset);
}
// If the asset has textures, save those to the PtAsset.
if (result.textures != null)
{
SaveTextures(result.textures, newAsset);
}
// Reimport is required to ensure custom asset displays correctly.
AssetDatabase.ImportAsset(assetLocalPath);
GameObject newPrefab;
if (prefabToReplace)
{
// Replace the existing prefab with our new object, without breaking prefab connections.
newPrefab = PrefabUtility.ReplacePrefab(result.root, prefabToReplace, ReplacePrefabOptions.ReplaceNameBased);
AssetDatabase.RenameAsset(AssetDatabase.GetAssetPath(newPrefab), baseName);
}
else
{
// Create a new prefab.
// Prefab path is the same as the asset path but with the extension changed to '.prefab'.
string prefabLocalPath = Regex.Replace(assetLocalPath, "\\.asset$", ".prefab");
if (!prefabLocalPath.EndsWith(".prefab"))
{
Debug.LogErrorFormat("Error: failed to compute prefab path for {0}", assetLocalPath);
PtAnalytics.SendEvent(PtAnalytics.Action.IMPORT_FAILED, "Prefab path error");
return;
}
newPrefab = PrefabUtility.CreatePrefab(prefabLocalPath, result.root);
}
// Now ensure the asset points to the prefab.
newAsset.assetPrefab = newPrefab;
if (newAsset.assetPrefab == null)
{
Debug.LogErrorFormat("Could not get asset prefab reference for asset {0}", newAsset);
PtAnalytics.SendEvent(PtAnalytics.Action.IMPORT_FAILED, "Prefab ref error");
}
GameObject.DestroyImmediate(result.root);
AssetDatabase.Refresh();
if (request.options.alsoInstantiate)
{
PrefabUtility.InstantiatePrefab(newPrefab);
}
PtDebug.LogFormat("GLTF import complete: {0}", request);
PtAnalytics.SendEvent(PtAnalytics.Action.IMPORT_SUCCESSFUL, isGltf2 ? "GLTF2" : "GLTF1");
// If this is a third-party asset, we need to update the attributions file.
AttributionFileGenerator.Generate(/* showUi */ false);
EditorWindow.GetWindow <AssetBrowserWindow>().HandleAssetImported(request.polyAsset.name);
// Select the prefab in the editor so the user knows where it is.
AssetDatabase.Refresh();
Selection.activeObject = newPrefab;
EditorGUIUtility.PingObject(newPrefab);
}