#if PPV2_EXISTS using System; using System.Collections.Generic; using System.IO; using System.Linq; using System.Reflection; using System.Text; using UnityEditor; using UnityEditor.Rendering; using UnityEditor.SceneManagement; using UnityEditor.Search; using UnityEngine; using UnityEngine.Rendering; using UnityEngine.Rendering.Universal; using UnityEngine.SceneManagement; using BIRPRendering = UnityEngine.Rendering.PostProcessing; using Object = UnityEngine.Object; using URPRenderingEditor = UnityEditor.Rendering.Universal; using URPRendering = UnityEngine.Rendering.Universal; namespace UnityEditor.Rendering.Universal.Converters { internal class PPv2Converter : RenderPipelineConverter { public override string name => "Post-Processing Stack v2 Converter"; public override string info => "Converts PPv2 Volumes, Profiles, and Layers to URP Volumes, Profiles, and Cameras."; public override Type container => typeof(BuiltInToURPConverterContainer); public override bool needsIndexing => true; private IEnumerable effectConverters = null; private List postConversionDestroyables = null; List guids = new List(); public override void OnInitialize(InitializeConverterContext context, Action callback) { // Converters should already be set to null on domain reload, // but we're doing it here just in case anything somehow lingers. effectConverters = null; postConversionDestroyables = new List(); // We are using separate searchContexts here and Adding them in this order: // - Components from Prefabs & Scenes (Volumes & Layers) // - ScriptableObjects (Profiles) // // This allows the old objects to be both re-referenced and deleted safely as they are converted in OnRun. // The process of converting Volumes will convert Profiles as-needed, and then the explicit followup Profile // conversion step will convert any non-referenced assets and delete all old Profiles. Debug.Log("Running here"); // Components First using var componentContext = Search.SearchService.CreateContext("asset", "urp:convert-ppv2component"); using var componentItems = Search.SearchService.Request(componentContext); { Debug.Log("First Search"); AddSearchItemsAsConverterAssetEntries(componentItems, context); } // Then ScriptableObjects using var scriptableObjectContext = Search.SearchService.CreateContext("asset", "urp:convert-ppv2scriptableobject"); using var scriptableObjectItems = Search.SearchService.Request(scriptableObjectContext); { Debug.Log("Second Search"); AddSearchItemsAsConverterAssetEntries(scriptableObjectItems, context); } callback.Invoke(); } public override void OnRun(ref RunItemContext context) { var obj = GetContextObject(ref context); if (!obj) { context.didFail = true; context.info = "Could not be converted because the target object was lost."; return; } BIRPRendering.PostProcessVolume[] oldVolumes = null; BIRPRendering.PostProcessLayer[] oldLayers = null; // TODO: Upcoming changes to GlobalObjectIdentifierToObjectSlow will allow // this to be inverted, and the else to be deleted. #if false if (obj is GameObject go) { oldVolumes = go.GetComponents(); oldLayers = go.GetComponents(); } else if (obj is MonoBehaviour mb) { oldVolumes = mb.GetComponents(); oldLayers = mb.GetComponents(); } #else if (obj is GameObject go) { oldVolumes = go.GetComponentsInChildren(); oldLayers = go.GetComponentsInChildren(); } else if (obj is MonoBehaviour mb) { oldVolumes = mb.GetComponentsInChildren(); oldLayers = mb.GetComponentsInChildren(); } #endif // Note: even if nothing needs to be converted, that should still count as success, // though it shouldn't ever actually occur. var succeeded = true; var errorString = new StringBuilder(); if (effectConverters == null || effectConverters.Count() == 0 || effectConverters.Any(converter => converter == null)) { effectConverters = GetAllBIRPConverters(); } if (oldVolumes != null) { foreach (var oldVolume in oldVolumes) { ConvertVolume(oldVolume, ref succeeded, errorString); } } if (oldLayers != null) { foreach (var oldLayer in oldLayers) { ConvertLayer(oldLayer, ref succeeded, errorString); } } if (obj is BIRPRendering.PostProcessProfile oldProfile) { ConvertProfile(oldProfile, ref succeeded, errorString); } if (!succeeded) { context.didFail = true; context.info = errorString.ToString(); } else { var currentScene = SceneManager.GetActiveScene(); EditorSceneManager.SaveScene(currentScene); } } public override void OnPostRun() { for (var i = 0; i < postConversionDestroyables.Count; i++) { Object.DestroyImmediate(postConversionDestroyables[i], allowDestroyingAssets: true); } postConversionDestroyables.Clear(); } public override void OnClicked(int index) { if (GlobalObjectId.TryParse(guids[index], out var gid)) { var containerPath = AssetDatabase.GUIDToAssetPath(gid.assetGUID); EditorGUIUtility.PingObject(AssetDatabase.LoadAssetAtPath(containerPath)); } } private void AddSearchItemsAsConverterAssetEntries(ISearchList searchItems, InitializeConverterContext context) { foreach (var searchItem in searchItems) { if (searchItem == null || !GlobalObjectId.TryParse(searchItem.id, out var globalId)) { continue; } var description = searchItem.provider.fetchDescription(searchItem, searchItem.context); var item = new ConverterItemDescriptor() { name = description.Split('/').Last().Split('.').First(), info = $"{ReturnType(globalId)}", }; guids.Add(globalId.ToString()); context.AddAssetToConvert(item); } } string ReturnType(GlobalObjectId gid) { var containerPath = AssetDatabase.GUIDToAssetPath(gid.assetGUID); return AssetDatabase.LoadAssetAtPath(containerPath).GetType().ToString().Split('.').Last(); } private Object GetContextObject(ref RunItemContext ctx) { var item = ctx.item; var guid = guids[item.index]; if (GlobalObjectId.TryParse(guid, out var globalId)) { // Try loading the object // TODO: Upcoming changes to GlobalObjectIdentifierToObjectSlow will allow it // to return direct references to prefabs and their children. // Once that change happens there are several items which should be adjusted. var obj = GlobalObjectId.GlobalObjectIdentifierToObjectSlow(globalId); // If the object was not loaded, it is probably part of an unopened scene; // if so, then the solution is to first load the scene here. var objIsInSceneOrPrefab = globalId.identifierType == 2; // 2 is IdentifierType.kSceneObject if (!obj && objIsInSceneOrPrefab) { // Open the Containing Scene Asset in the Hierarchy so the Object can be manipulated var mainAssetPath = AssetDatabase.GUIDToAssetPath(globalId.assetGUID); var mainAsset = AssetDatabase.LoadAssetAtPath(mainAssetPath); AssetDatabase.OpenAsset(mainAsset); // If a prefab stage was opened, then mainAsset is the root of the // prefab that contains the target object, so reference that for now, // until GlobalObjectIdentifierToObjectSlow is updated if (PrefabStageUtility.GetCurrentPrefabStage() != null) { obj = mainAsset; } // Reload object if it is still null (because it's in a previously unopened scene) if (!obj) { obj = GlobalObjectId.GlobalObjectIdentifierToObjectSlow(globalId); if (!obj) { ctx.didFail = true; ctx.info = $"Object {globalId.assetGUID} failed to load..."; } } } return obj; } ctx.didFail = true; ctx.info = $"Failed to parse Global ID {item.descriptor.info}..."; return null; } #region Conversion_Entry_Points private void ConvertVolume(BIRPRendering.PostProcessVolume oldVolume, ref bool succeeded, StringBuilder errorString) { if (!succeeded) { return; } if (!oldVolume) { // TODO: unless there's good way to tell the if the object is just missing because it was already // converted as part of an earlier conversion object, then these two lines should be commented // out or removed. It should still return though. // succeeded = false; // errorString.AppendLine("PPv2 PostProcessVolume failed to be converted because the original asset reference was lost during conversion."); return; } if (PrefabUtility.IsPartOfPrefabInstance(oldVolume) && !PrefabUtility.IsAddedComponentOverride(oldVolume)) { // This is a property override on an instance of the component, // so override the component instance with the modifications. succeeded = ConvertVolumeInstance(oldVolume, errorString); } else { // The entire component is unique, so just convert it succeeded = ConvertVolumeComponent(oldVolume, errorString); } } private void ConvertLayer(BIRPRendering.PostProcessLayer oldLayer, ref bool succeeded, StringBuilder errorString) { if (!succeeded) { return; } if (!oldLayer) { // TODO: unless there's good way to tell the if the object is just missing because it was already // converted as part of an earlier conversion object, then these two lines should be commented // out or removed. It should still return though. // succeeded = false; // errorString.AppendLine("PPv2 PostProcessLayer failed to be converted because the original asset reference was lost during conversion."); return; } if (PrefabUtility.IsPartOfPrefabInstance(oldLayer) && !PrefabUtility.IsAddedComponentOverride(oldLayer)) { // This is a property override on an instance of the component, // so override the component instance with the modifications. succeeded = ConvertLayerInstance(oldLayer, errorString); } else { // The entire component is unique, so just convert it succeeded = ConvertLayerComponent(oldLayer, errorString); } } private void ConvertProfile(BIRPRendering.PostProcessProfile oldProfile, ref bool succeeded, StringBuilder errorString) { if (!succeeded) { return; } if (!oldProfile) { errorString.AppendLine( "PPv2 PostProcessProfile failed to be converted because the original asset reference was lost during conversion."); return; } ConvertVolumeProfileAsset(oldProfile, errorString, ref succeeded); // TODO: // - Perhaps old Profiles should only be deleted if they actually no longer have references, // just in case some some Volume conversions are skipped and still need references for future conversion. // - Alternatively, leave deletion of Profiles entirely to the user. (I think this is preferred) } #endregion Conversion_Entry_Points private bool ConvertVolumeComponent(BIRPRendering.PostProcessVolume oldVolume, StringBuilder errorString) { // Don't convert if it appears to already have been converted. if (oldVolume.GetComponent()) return true; var gameObject = oldVolume.gameObject; var newVolume = gameObject.AddComponent(); newVolume.priority = oldVolume.priority; newVolume.weight = oldVolume.weight; newVolume.blendDistance = oldVolume.blendDistance; newVolume.isGlobal = oldVolume.isGlobal; newVolume.enabled = oldVolume.enabled; var success = true; newVolume.sharedProfile = ConvertVolumeProfileAsset(oldVolume.sharedProfile, errorString, ref success); if (PrefabUtility.IsPartOfPrefabAsset(oldVolume)) { postConversionDestroyables.Add(oldVolume); } else { Object.DestroyImmediate(oldVolume, allowDestroyingAssets: true); } EditorUtility.SetDirty(gameObject); return success; } private bool ConvertVolumeInstance(BIRPRendering.PostProcessVolume oldVolume, StringBuilder errorString) { // First get a reference to the local instance of the converted component // which may require immediately converting it at its origin location first. var newVolumeInstance = oldVolume.GetComponent(); if (!newVolumeInstance) { var oldVolumeOrigin = PrefabUtility.GetCorrespondingObjectFromSource(oldVolume); if (!ConvertVolumeComponent(oldVolumeOrigin, errorString)) { return false; } PrefabUtility.SavePrefabAsset(oldVolumeOrigin.gameObject); newVolumeInstance = oldVolume.GetComponent(); if (!newVolumeInstance) { errorString.AppendLine( "PPv2 PostProcessVolume failed to be converted because the instance object did not inherit the converted Prefab source."); return false; } } bool success = true; var oldModifications = PrefabUtility.GetPropertyModifications(oldVolume); foreach (var oldModification in oldModifications) { if (oldModification.target is BIRPRendering.PostProcessVolume) { if (oldModification.propertyPath.EndsWith("priority", StringComparison.InvariantCultureIgnoreCase)) newVolumeInstance.priority = oldVolume.priority; else if (oldModification.propertyPath.EndsWith("weight", StringComparison.InvariantCultureIgnoreCase)) newVolumeInstance.weight = oldVolume.weight; else if (oldModification.propertyPath.EndsWith("blendDistance", StringComparison.InvariantCultureIgnoreCase)) newVolumeInstance.blendDistance = oldVolume.blendDistance; else if (oldModification.propertyPath.EndsWith("isGlobal", StringComparison.InvariantCultureIgnoreCase)) newVolumeInstance.isGlobal = oldVolume.isGlobal; else if (oldModification.propertyPath.EndsWith("enabled", StringComparison.InvariantCultureIgnoreCase)) newVolumeInstance.enabled = oldVolume.enabled; else if (oldModification.propertyPath.EndsWith("sharedProfile", StringComparison.InvariantCultureIgnoreCase)) newVolumeInstance.sharedProfile = ConvertVolumeProfileAsset(oldVolume.sharedProfile, errorString, ref success); EditorUtility.SetDirty(newVolumeInstance); } } return success; } private bool ConvertLayerComponent(BIRPRendering.PostProcessLayer oldLayer, StringBuilder errorString) { var siblingCamera = oldLayer.GetComponent().GetUniversalAdditionalCameraData(); // PostProcessLayer requires a sibling Camera component, but // we check it here just in case something weird went happened. if (!siblingCamera) { errorString.AppendLine( "PPv2 PostProcessLayer failed to be converted because the instance object was missing a required sibling Camera component."); return false; } // The presence of a PostProcessLayer implies the Camera should render post-processes siblingCamera.renderPostProcessing = true; siblingCamera.volumeLayerMask = oldLayer.volumeLayer; siblingCamera.volumeTrigger = oldLayer.volumeTrigger; siblingCamera.stopNaN = oldLayer.stopNaNPropagation; siblingCamera.antialiasingQuality = (URPRendering.AntialiasingQuality)oldLayer.subpixelMorphologicalAntialiasing.quality; switch (oldLayer.antialiasingMode) { case BIRPRendering.PostProcessLayer.Antialiasing.None: siblingCamera.antialiasing = URPRendering.AntialiasingMode.None; break; case BIRPRendering.PostProcessLayer.Antialiasing.FastApproximateAntialiasing: siblingCamera.antialiasing = URPRendering.AntialiasingMode.FastApproximateAntialiasing; break; case BIRPRendering.PostProcessLayer.Antialiasing.SubpixelMorphologicalAntialiasing: siblingCamera.antialiasing = URPRendering.AntialiasingMode.SubpixelMorphologicalAntiAliasing; break; default: // Default to the the most performant mode, since "None" is an explicit option. siblingCamera.antialiasing = URPRendering.AntialiasingMode.FastApproximateAntialiasing; break; } if (PrefabUtility.IsPartOfPrefabAsset(oldLayer)) { postConversionDestroyables.Add(oldLayer); } else { Object.DestroyImmediate(oldLayer, allowDestroyingAssets: true); } EditorUtility.SetDirty(siblingCamera.gameObject); return true; } private bool ConvertLayerInstance(BIRPRendering.PostProcessLayer oldLayer, StringBuilder errorString) { // First get a reference to the local instance of the camera (which is required by PostProcessingLayer) var siblingCamera = oldLayer.GetComponent().GetUniversalAdditionalCameraData(); if (!siblingCamera) { errorString.AppendLine( "PPv2 PostProcessLayer failed to be converted because the instance object was missing a required sibling Camera component."); return false; } var oldModifications = PrefabUtility.GetPropertyModifications(oldLayer); foreach (var oldModification in oldModifications) { if (oldModification.target is BIRPRendering.PostProcessLayer) { if (oldModification.propertyPath.EndsWith("volumeLayer", StringComparison.InvariantCultureIgnoreCase)) siblingCamera.volumeLayerMask = oldLayer.volumeLayer; else if (oldModification.propertyPath.EndsWith("volumeTrigger", StringComparison.InvariantCultureIgnoreCase)) siblingCamera.volumeTrigger = oldLayer.volumeTrigger; else if (oldModification.propertyPath.EndsWith("stopNaNPropagation", StringComparison.InvariantCultureIgnoreCase)) siblingCamera.stopNaN = oldLayer.stopNaNPropagation; else if (oldModification.propertyPath.EndsWith("quality", StringComparison.InvariantCultureIgnoreCase)) siblingCamera.antialiasingQuality = (URPRendering.AntialiasingQuality)oldLayer.subpixelMorphologicalAntialiasing.quality; else if (oldModification.propertyPath.EndsWith("antialiasingMode", StringComparison.InvariantCultureIgnoreCase)) { switch (oldLayer.antialiasingMode) { case BIRPRendering.PostProcessLayer.Antialiasing.None: siblingCamera.antialiasing = URPRendering.AntialiasingMode.None; break; case BIRPRendering.PostProcessLayer.Antialiasing.FastApproximateAntialiasing: siblingCamera.antialiasing = URPRendering.AntialiasingMode.FastApproximateAntialiasing; break; case BIRPRendering.PostProcessLayer.Antialiasing.SubpixelMorphologicalAntialiasing: siblingCamera.antialiasing = URPRendering.AntialiasingMode.SubpixelMorphologicalAntiAliasing; break; default: // Default to the the most performant mode, since "None" is an explicit option. siblingCamera.antialiasing = URPRendering.AntialiasingMode.FastApproximateAntialiasing; break; } } EditorUtility.SetDirty(siblingCamera); } } return true; } private VolumeProfile ConvertVolumeProfileAsset(BIRPRendering.PostProcessProfile oldProfile, StringBuilder errorString, ref bool success) { // Don't convert if it appears to already have been converted. if (!oldProfile) return null; var oldPath = AssetDatabase.GetAssetPath(oldProfile); var oldDirectory = Path.GetDirectoryName(oldPath); var oldName = Path.GetFileNameWithoutExtension(oldPath); var newPath = Path.Combine(oldDirectory, $"{oldName}(URP).asset"); if (File.Exists(newPath)) { return AssetDatabase.LoadAssetAtPath(newPath); } var newProfile = ScriptableObject.CreateInstance(); try { AssetDatabase.CreateAsset(newProfile, newPath); } catch (Exception e) { errorString.AppendLine($"PPv2 PostProcessLayer failed to be converted with exception:\n{e}"); success = false; if (!newProfile) return null; } foreach (var oldSettings in oldProfile.settings) { foreach (var effectConverter in effectConverters) { effectConverter.AddConvertedProfileSettingsToProfile(oldSettings, newProfile); } } EditorUtility.SetDirty(newProfile); return newProfile; } public IEnumerable GetAllBIRPConverters() { var baseType = typeof(PostProcessEffectSettingsConverter); var assembly = Assembly.GetAssembly(baseType); var derivedTypes = assembly .GetTypes() .Where(t => t.BaseType != null && t.BaseType == baseType) .Select(t => ScriptableObject.CreateInstance(t) as PostProcessEffectSettingsConverter); return derivedTypes; } } } #endif