public static void OpenFileInME3(IMEPackage pcc, bool canHotLoad = false, bool shouldPad = true) { var tempMapName = GameController.TempMapName; string tempDir = ME3Directory.CookedPCPath; string tempFilePath = Path.Combine(tempDir, $"{tempMapName}.pcc"); pcc.Save(tempFilePath); if (shouldPad) { if (!InteropHelper.TryPadFile(tempFilePath)) { //if file was too big to pad, hotloading is impossible canHotLoad = false; } } if (GameController.TryGetME3Process(out Process me3Process) && canHotLoad) { IntPtr handle = me3Process.MainWindowHandle; GameController.ExecuteConsoleCommands(handle, MEGame.ME3, $"at {tempMapName}"); return; } me3Process?.Kill(); int resX = 1000; int resY = 800; int posX = (int)(SystemParameters.PrimaryScreenWidth - (resX + 100)); int posY = (int)(SystemParameters.PrimaryScreenHeight - resX) / 2; AutoTOCWPF.GenerateAllTOCs(); Process.Start(ME3Directory.ExecutablePath, $"{tempMapName} -nostartupmovies -Windowed ResX={resX} ResY={resY} WindowPosX={posX} WindowPosY={posY}"); }
public bool ImportFromPSA(string path) { PSAFile psa = new PSAFile(); psa.ImportPSA(path); PSAFile.PSAData d = psa.data; DebugOutput.PrintLn("Checking data..."); if (d.Bones.Count != SetData.TrackBoneNames.Count) { MessageBox.Show("Cant import: different count of bones"); return(false); } for (int i = 0; i < SetData.TrackBoneNames.Count; i++) { if (d.Bones[i].name != SetData.TrackBoneNames[i]) { MessageBox.Show("Cant import: couldnt match all bones"); return(false); } } if (d.Infos.Count != Sequences.Count) { MessageBox.Show("Cant import: different count of sequences"); return(false); } for (int i = 0; i < Sequences.Count; i++) { AnimSequence ans = new AnimSequence(pcc.GetUExport(Sequences[i])); if (d.Infos[i].name != ans.SequenceName) { MessageBox.Show("Cant import: couldnt match all sequences"); return(false); } } int pos = 0; List <Vector4> rot = new List <Vector4>(); for (int i = 0; i < Sequences.Count; i++) { DebugOutput.PrintLn($"Importing into AnimSequence #{Sequences[i]} ..."); AnimSequence ans = new AnimSequence(pcc.GetUExport(Sequences[i])); PSAFile.PSAAnimInfo inf = d.Infos[i]; var loc = new List <Vector3>(); for (int j = 0; j < inf.TotalBones; j++) { PSAFile.PSAAnimKeys key = d.Keys[pos + j]; loc.Add(key.location.ToVector3()); rot.Add(key.rotation.ToVector4()); } ans.ImportKeys(loc.ToArray(), rot.ToArray(), inf.NumRawFrames); ans.SaveChanges(); pos += inf.KeyQuotum; } pcc.Save(); return(true); }
public static void SetUpAnimStreamFile(string animSourceFilePath, int animSequenceUIndex, string saveAsName) { string animViewerAnimStreamFilePath = Path.Combine(App.ExecFolder, "ME3AnimViewer_StreamAnim.pcc"); using IMEPackage pcc = MEPackageHandler.OpenMEPackage(animViewerAnimStreamFilePath); if (animSourceFilePath != null) { try { const int InterpDataUIndex = 8; const int InterpTrackAnimControlUIndex = 10; const int KIS_DYN_AnimsetUIndex = 6; #if DEBUG Debug.WriteLine($"AnimViewer Loading: {animSourceFilePath} #{animSequenceUIndex}"); #endif using IMEPackage animSourceFile = MEPackageHandler.OpenMEPackage(animSourceFilePath); ExportEntry sourceAnimSeq = animSourceFile.GetUExport(animSequenceUIndex); IEntry parent = EntryImporter.GetOrAddCrossImportOrPackage(sourceAnimSeq.ParentFullPath, animSourceFile, pcc); EntryImporter.ImportAndRelinkEntries(EntryImporter.PortingOption.CloneAllDependencies, sourceAnimSeq, pcc, parent, true, out IEntry ent); ExportEntry importedAnimSeq = (ExportEntry)ent; NameReference seqName = importedAnimSeq.GetProperty <NameProperty>("SequenceName").Value; float seqLength = importedAnimSeq.GetProperty <FloatProperty>("SequenceLength"); IEntry bioAnimSet = pcc.GetEntry(importedAnimSeq.GetProperty <ObjectProperty>("m_pBioAnimSetData").Value); string setName = importedAnimSeq.ObjectName.Name.RemoveRight(seqName.Name.Length + 1); ExportEntry animInterpData = pcc.GetUExport(InterpDataUIndex); animInterpData.WriteProperty(new FloatProperty(seqLength, "InterpLength")); ExportEntry animTrack = pcc.GetUExport(InterpTrackAnimControlUIndex); var animSeqKeys = animTrack.GetProperty <ArrayProperty <StructProperty> >("AnimSeqs"); animSeqKeys[0].Properties.AddOrReplaceProp(new NameProperty(seqName, "AnimSeqName")); animTrack.WriteProperty(animSeqKeys); ExportEntry dynamicAnimSet = pcc.GetUExport(KIS_DYN_AnimsetUIndex); dynamicAnimSet.WriteProperty(new ObjectProperty(bioAnimSet.UIndex, "m_pBioAnimSetData")); dynamicAnimSet.WriteProperty(new NameProperty(setName, "m_nmOrigSetName")); dynamicAnimSet.WriteProperty(new ArrayProperty <ObjectProperty>("Sequences") { new ObjectProperty(importedAnimSeq.UIndex) }); } catch (Exception e) { MessageBox.Show($"Error Loading {animSourceFilePath} #{animSequenceUIndex}"); } } string tempFilePath = Path.Combine(ME3Directory.CookedPCPath, $"{saveAsName}.pcc"); pcc.Save(tempFilePath); InteropHelper.TryPadFile(tempFilePath, 10_485_760); }
public static void InstallDLC_MOD_Interop() { if (Directory.Exists(ModInstallPath)) { FileSystemHelper.DeleteFilesAndFoldersRecursively(ModInstallPath); } Dictionary <string, string> fileMap = MELoadedFiles.GetFilesLoadedInGame(MEGame.ME3, true); string sourcePath = Path.Combine(App.ExecFolder, modName); FileSystem.CopyDirectory(sourcePath, ModInstallPath); PadCamPathFile(); InteropHelper.InstallInteropASI(); string consoleExtASIWritePath = Path.Combine(ME3Directory.ExecutableFolder, "asi", consoleExtASIName); if (File.Exists(consoleExtASIWritePath)) { File.Delete(consoleExtASIWritePath); } File.Copy(Path.Combine(App.ExecFolder, consoleExtASIName), consoleExtASIWritePath); const string bioPGlobalFileName = "BioP_Global.pcc"; const string bioPGlobalNCFileName = "BioP_Global_NC.pcc"; var sourceFiles = new List <(string filePath, string md5)> { AugmentAndInstall(bioPGlobalFileName), AugmentAndInstall(bioPGlobalNCFileName) }; File.WriteAllText(InstallInfoPath, JsonConvert.SerializeObject(new InstallInfo { InstallTime = DateTime.Now, Version = CURRENT_VERSION, SourceFiles = sourceFiles })); AutoTOCWPF.GenerateAllTOCs(); (string, string) AugmentAndInstall(string fileName) { string existingFile = fileMap[fileName]; using (IMEPackage pcc = MEPackageHandler.OpenMEPackage(existingFile)) { AugmentMapToLoadLiveEditor(pcc); pcc.Save(Path.Combine(ModInstallPath, "CookedPCConsole", fileName)); } return(existingFile, InteropHelper.CalculateMD5(existingFile)); } }
/// <summary> /// Ports a power into a package /// </summary> /// <param name="targetPackage"></param> /// <param name="powerInfo"></param> /// <param name="additionalPowers">A list of additioanl powers that are referenced when this powerinfo is an import only power (prevent re-opening package)</param> /// <returns></returns> public static IEntry PortPowerIntoPackage(IMEPackage targetPackage, PowerInfo powerInfo, out IMEPackage sourcePackage) { if (powerInfo.IsCorrectedPackage) { var sourceData = MERUtilities.GetEmbeddedStaticFilesBinaryFile("correctedloadouts.powers." + powerInfo.PackageFileName); sourcePackage = MEPackageHandler.OpenMEPackageFromStream(new MemoryStream(sourceData)); } else { sourcePackage = NonSharedPackageCache.Cache.GetCachedPackage(powerInfo.PackageFileName); } if (sourcePackage != null) { var sourceExport = sourcePackage.GetUExport(powerInfo.SourceUIndex); if (!sourceExport.InheritsFrom("SFXPower") || sourceExport.IsDefaultObject) { throw new Exception("Wrong setup!"); } if (sourceExport.Parent != null && sourceExport.Parent.ClassName != "Package") { throw new Exception("Cannot port power - parent object is not Package!"); } var newParent = EntryExporter.PortParents(sourceExport, targetPackage); IEntry newEntry; if (powerInfo.ImportOnly) { //Debug.WriteLine($"ImportOnly in file {targetPackage.FilePath}"); if (powerInfo.RequiresStartupPackage) { ThreadSafeDLCStartupPackage.AddStartupPackage(Path.GetFileNameWithoutExtension(powerInfo.PackageFileName)); if (powerInfo.IsCorrectedPackage) { // File must be added to MERFS DLC var outP = Path.Combine(MERFileSystem.DLCModCookedPath, powerInfo.PackageFileName); if (!File.Exists(outP)) { sourcePackage.Save(outP, true); } } } newEntry = PackageTools.CreateImportForClass(sourceExport, targetPackage, newParent); // Port in extra imports so the calling class can reference them as necessary. foreach (var addlPow in powerInfo.AdditionalRequiredPowers) { var addlSourceExp = sourcePackage.FindExport(addlPow); PackageTools.CreateImportForClass(addlSourceExp, targetPackage, EntryExporter.PortParents(addlSourceExp, targetPackage)); } } else { #if DEBUG // DEBUG ONLY----------------------------------- //var defaults = sourceExport.GetDefaults(); //defaults.RemoveProperty("VFX"); //var vfx = defaults.GetProperty<ObjectProperty>("VFX").ResolveToEntry(sourcePackage) as ExportEntry; //vxx.RemoveProperty("PlayerCrust"); //vfx.FileRef.GetUExport(1544).RemoveProperty("oPrefab"); ////vfx = defaults.FileRef.GetUExport(6211); // Prefab ////vfx.RemoveProperty("WorldImpactVisualEffect"); //MERPackageCache cached = new MERPackageCache(); //EntryExporter.ExportExportToPackage(vfx, targetPackage, out newEntry, cached); //PackageTools.AddReferencesToWorld(targetPackage, new [] {newEntry as ExportEntry}); //return null; // END DEBUG ONLY-------------------------------- #endif List <EntryStringPair> relinkResults = null; if ((powerInfo.IsCorrectedPackage || (PackageTools.IsPersistentPackage(powerInfo.PackageFileName) && MERFileSystem.GetPackageFile(powerInfo.PackageFileName.ToLocalizedFilename()) == null))) { // Faster this way, without having to check imports Dictionary <IEntry, IEntry> crossPCCObjectMap = new Dictionary <IEntry, IEntry>(); // Not sure what this is used for these days. SHould probably just be part of the method relinkResults = EntryImporter.ImportAndRelinkEntries(EntryImporter.PortingOption.CloneAllDependencies, sourceExport, targetPackage, newParent, true, out newEntry, crossPCCObjectMap); } else { // MEMORY SAFE (resolve imports to exports) MERPackageCache cache = new MERPackageCache(); relinkResults = EntryExporter.ExportExportToPackage(sourceExport, targetPackage, out newEntry, cache); } if (relinkResults.Any()) { Debugger.Break(); } } return(newEntry); } return(null); // No package was found }
/// <summary> /// Copy ME2 Static art and collision into an ME3 file. /// By Kinkojiro /// </summary> /// <param name="Game">Target Game</param> /// <param name="BioPSource">Source BioP</param> /// <param name="tgtOutputfolder">OutputFolder</param> /// <param name="BioArtsToCopy">List of level source file locations</param> /// <param name="ActorsToMove">Dicitionary: key Actors, value filename, entry uid</param> /// <param name="AssetsToMove">Dictionary key: AssetInstancedPath, value filename, isimport, entry uid</param> /// <param name="fromreload">is reloaded json</param> public static async Task <List <string> > ConvertLevelToGame(MEGame Game, IMEPackage BioPSource, string tgtOutputfolder, string tgttfc, Action <string> callbackAction, LevelConversionData conversionData = null, bool fromreload = false, bool createtestlevel = false) { //VARIABLES / VALIDATION var actorclassesToMove = new List <string>() { "BlockingVolume", "SpotLight", "SpotLightToggleable", "PointLight", "PointLightToggleable", "SkyLight", "HeightFog", "LenseFlareSource", "StaticMeshActor", "BioTriggerStream", "BioBlockingVolume" }; var actorclassesToSubstitute = new Dictionary <string, string>() { { "BioBlockingVolume", "Engine.BlockingVolume" } }; var archetypesToSubstitute = new Dictionary <string, string>() { { "Default__BioBlockingVolume", "Default__BlockingVolume" } }; var fails = new List <string>(); string busytext = null; if ((BioPSource.Game == MEGame.ME2 && ME2Directory.DefaultGamePath == null) || (BioPSource.Game == MEGame.ME1 && ME1Directory.DefaultGamePath == null) || (BioPSource.Game == MEGame.ME3 && ME3Directory.DefaultGamePath == null) || BioPSource.Game == MEGame.UDK) { fails.Add("Source Game Directory not found"); return(fails); } //Get filelist from BioP, Save a copy in outputdirectory, Collate Actors and asset information if (!fromreload) { busytext = "Collating level files..."; callbackAction?.Invoke(busytext); conversionData = new LevelConversionData(Game, BioPSource.Game, null, null, null, new ConcurrentDictionary <string, string>(), new ConcurrentDictionary <string, (string, int)>(), new ConcurrentDictionary <string, (string, int, List <string>)>()); var supportedExtensions = new List <string> { ".pcc", ".u", ".upk", ".sfm" }; if (Path.GetFileName(BioPSource.FilePath).ToLowerInvariant().StartsWith("biop_") && BioPSource.Exports.FirstOrDefault(x => x.ClassName == "BioWorldInfo") is ExportEntry BioWorld) { string biopname = Path.GetFileNameWithoutExtension(BioPSource.FilePath); conversionData.GameLevelName = biopname.Substring(5, biopname.Length - 5); var lsks = BioWorld.GetProperty <ArrayProperty <ObjectProperty> >("StreamingLevels").ToList(); if (lsks.IsEmpty()) { fails.Add("No files found in level."); return(fails); } foreach (var l in lsks) { var lskexp = BioPSource.GetUExport(l.Value); var filename = lskexp.GetProperty <NameProperty>("PackageName"); if ((filename?.Value.ToString().ToLowerInvariant().StartsWith("bioa") ?? false) || (filename?.Value.ToString().ToLowerInvariant().StartsWith("biod") ?? false)) { var filePath = Directory.GetFiles(ME2Directory.DefaultGamePath, $"{filename.Value.Instanced}.pcc", SearchOption.AllDirectories).FirstOrDefault(); conversionData.FilesToCopy.TryAdd(filename.Value.Instanced, filePath); } } conversionData.BioPSource = $"{biopname}_{BioPSource.Game}"; BioPSource.Save(Path.Combine(tgtOutputfolder, $"{conversionData.BioPSource}.pcc")); BioPSource.Dispose(); } else { fails.Add("Requires an BioP to work with."); return(fails); } busytext = "Collating actors and assets..."; callbackAction?.Invoke(busytext); Parallel.ForEach(conversionData.FilesToCopy, (pccref) => { using IMEPackage pcc = MEPackageHandler.OpenMEPackage(pccref.Value); var sourcelevel = pcc.Exports.FirstOrDefault(l => l.ClassName == "Level"); if (ObjectBinary.From(sourcelevel) is Level levelbin) { foreach (var act in levelbin.Actors) { if (act < 1) { continue; } var actor = pcc.GetUExport(act); if (actorclassesToMove.Contains(actor.ClassName)) { conversionData.ActorsToMove.TryAdd($"{pccref.Key}.{actor.InstancedFullPath}", (pccref.Key, act)); HashSet <int> actorrefs = pcc.GetReferencedEntries(true, true, actor); foreach (var r in actorrefs) { var objref = pcc.GetEntry(r); if (objref != null) { if (objref.InstancedFullPath.Contains("PersistentLevel")) //remove components of actors { continue; } string instancedPath = objref.InstancedFullPath; if (objref.idxLink == 0) { instancedPath = $"{pccref.Key}.{instancedPath}"; } var added = conversionData.AssetsToMove.TryAdd(instancedPath, (pccref.Key, r, new List <string>() { pccref.Key })); if (!added) { conversionData.AssetsToMove[instancedPath].Item3.FindOrAdd(pccref.Key); if (r > 0 && conversionData.AssetsToMove[instancedPath].Item2 < 0) //Replace imports with exports if possible { var currentlist = conversionData.AssetsToMove[instancedPath].Item3; conversionData.AssetsToMove[instancedPath] = (pccref.Key, r, currentlist); } }
public static string GenerateUDKFileForLevel(string udkPath, IMEPackage pcc) { #region AssetPackage string meshPackageName = $"{Path.GetFileNameWithoutExtension(pcc.FilePath)}Meshes"; string meshFile = Path.Combine(udkPath, @"UDKGame\Content\Shared\", $"{meshPackageName}.upk"); MEPackageHandler.CreateAndSavePackage(meshFile, MEGame.UDK); using IMEPackage meshPackage = MEPackageHandler.OpenUDKPackage(meshFile); meshPackage.getEntryOrAddImport("Core.Package"); IEntry defMat = meshPackage.getEntryOrAddImport("EngineMaterials.DefaultMaterial", "Material", "Engine"); var allMats = new HashSet <int>(); var relinkMap = new Dictionary <IEntry, IEntry>(); #region StaticMeshes List <ExportEntry> staticMeshes = pcc.Exports.Where(exp => exp.ClassName == "StaticMesh").ToList(); foreach (ExportEntry mesh in staticMeshes) { var mats = new Queue <int>(); StaticMesh stm = ObjectBinary.From <StaticMesh>(mesh); foreach (StaticMeshRenderData lodModel in stm.LODModels) { foreach (StaticMeshElement meshElement in lodModel.Elements) { mats.Enqueue(meshElement.Material); allMats.Add(meshElement.Material); meshElement.Material = 0; } } if (pcc.GetEntry(stm.BodySetup) is ExportEntry rbBodySetup) { rbBodySetup.RemoveProperty("PhysMaterial"); } mesh.WriteBinary(stm); IEntry newParent = EntryImporter.GetOrAddCrossImportOrPackage(mesh.ParentFullPath, pcc, meshPackage); EntryImporter.ImportAndRelinkEntries(EntryImporter.PortingOption.CloneTreeAsChild, mesh, meshPackage, newParent, false, out IEntry ent, relinkMap); ExportEntry portedMesh = (ExportEntry)ent; stm = ObjectBinary.From <StaticMesh>(portedMesh); foreach (StaticMeshRenderData lodModel in stm.LODModels) { foreach (StaticMeshElement meshElement in lodModel.Elements) { meshElement.Material = mats.Dequeue(); } } portedMesh.WriteBinary(stm); } #endregion #region Materials using (IMEPackage udkResources = MEPackageHandler.OpenMEPackageFromStream(Utilities.GetCustomAppResourceStream(MEGame.UDK))) { ExportEntry normDiffMat = udkResources.Exports.First(exp => exp.ObjectName == "NormDiffMat"); foreach (int matUIndex in allMats) { if (pcc.GetEntry(matUIndex) is ExportEntry matExp) { List <IEntry> textures = new MaterialInstanceConstant(matExp).Textures; ExportEntry diff = null; ExportEntry norm = null; foreach (IEntry texEntry in textures) { if (texEntry is ExportEntry texport) { if (texport.ObjectName.Name.ToLower().Contains("diff")) { diff = texport; } else if (texport.ObjectName.Name.ToLower().Contains("norm")) { norm = texport; } } } if (diff == null) { relinkMap[matExp] = defMat; continue; } else { EntryImporter.ImportAndRelinkEntries(EntryImporter.PortingOption.AddSingularAsChild, diff, meshPackage, null, false, out IEntry ent); diff = (ExportEntry)ent; diff.RemoveProperty("TextureFileCacheName"); diff.RemoveProperty("TFCFileGuid"); diff.RemoveProperty("LODGroup"); } if (norm != null) { EntryImporter.ImportAndRelinkEntries(EntryImporter.PortingOption.AddSingularAsChild, norm, meshPackage, null, false, out IEntry ent); norm = (ExportEntry)ent; norm.RemoveProperty("TextureFileCacheName"); norm.RemoveProperty("TFCFileGuid"); norm.RemoveProperty("LODGroup"); } EntryImporter.ImportAndRelinkEntries(EntryImporter.PortingOption.CloneTreeAsChild, normDiffMat, meshPackage, null, true, out IEntry matEnt); ExportEntry newMat = (ExportEntry)matEnt; newMat.ObjectName = matExp.ObjectName; Material matBin = ObjectBinary.From <Material>(newMat); matBin.SM3MaterialResource.UniformExpressionTextures = new UIndex[] { norm?.UIndex ?? 0, diff.UIndex }; newMat.WriteBinary(matBin); relinkMap[matExp] = newMat; if (newMat.GetProperty <ArrayProperty <ObjectProperty> >("Expressions") is {} expressionsProp&& expressionsProp.Count >= 2) { ExportEntry diffExpression = meshPackage.GetUExport(expressionsProp[0].Value); ExportEntry normExpression = meshPackage.GetUExport(expressionsProp[1].Value); diffExpression.WriteProperty(new ObjectProperty(diff.UIndex, "Texture")); normExpression.WriteProperty(new ObjectProperty(norm?.UIndex ?? 0, "Texture")); } } else if (pcc.GetEntry(matUIndex) is ImportEntry matImp) { relinkMap[matImp] = defMat; } } var relinkMapping = new OrderedMultiValueDictionary <IEntry, IEntry>(relinkMap); foreach (ExportEntry stmExport in staticMeshes) { if (relinkMap.TryGetValue(stmExport, out IEntry destEnt) && destEnt is ExportEntry destExp) { Relinker.Relink(stmExport, destExp, relinkMapping); } } } #endregion meshPackage.Save(); #endregion var staticMeshActors = new List <ExportEntry>(); var lightActors = new List <ExportEntry>(); string tempPackagePath = Path.Combine(App.ExecFolder, $"{Path.GetFileNameWithoutExtension(pcc.FilePath)}.udk"); File.Copy(Path.Combine(App.ExecFolder, "empty.udk"), tempPackagePath, true); using IMEPackage udkPackage = MEPackageHandler.OpenUDKPackage(tempPackagePath); { var topLevelMeshPackages = new List <IEntry>(); foreach (ExportEntry exportEntry in staticMeshes) { IEntry imp = udkPackage.getEntryOrAddImport($"{exportEntry.FullPath}", "StaticMesh", "Engine", exportEntry.ObjectName.Number); while (imp.Parent != null) { imp = imp.Parent; } if (!topLevelMeshPackages.Contains(imp)) { topLevelMeshPackages.Add(imp); } } ExportEntry levelExport = udkPackage.Exports.First(exp => exp.ClassName == "Level"); List <int> actorsInLevel = ObjectBinary.From <Level>(pcc.Exports.First(exp => exp.ClassName == "Level")).Actors.Select(u => u.value).ToList(); var componentToMatrixMap = new Dictionary <int, Matrix>(); foreach (int uIndex in actorsInLevel) { if (pcc.GetEntry(uIndex) is ExportEntry stcExp) { if (stcExp.ClassName == "StaticMeshCollectionActor") { StaticMeshCollectionActor stmc = ObjectBinary.From <StaticMeshCollectionActor>(stcExp); var components = stcExp.GetProperty <ArrayProperty <ObjectProperty> >("StaticMeshComponents"); for (int i = 0; i < components.Count; i++) { componentToMatrixMap[components[i].Value] = stmc.LocalToWorldTransforms[i]; } } else if (stcExp.ClassName == "StaticLightCollectionActor") { StaticLightCollectionActor stlc = ObjectBinary.From <StaticLightCollectionActor>(stcExp); var components = stcExp.GetProperty <ArrayProperty <ObjectProperty> >("LightComponents"); for (int i = 0; i < components.Count; i++) { componentToMatrixMap[components[i].Value] = stlc.LocalToWorldTransforms[i]; } } } } #region StaticMeshActors { var emptySMCBin = new StaticMeshComponent(); IEntry staticMeshActorClass = udkPackage.getEntryOrAddImport("Engine.StaticMeshActor"); udkPackage.getEntryOrAddImport("Engine.Default__StaticMeshActor", "StaticMeshActor", "Engine"); IEntry staticMeshComponentArchetype = udkPackage.getEntryOrAddImport("Engine.Default__StaticMeshActor.StaticMeshComponent0", "StaticMeshComponent", "Engine"); int smaIndex = 2; int smcIndex = 2; foreach (ExportEntry smc in pcc.Exports.Where(exp => exp.ClassName == "StaticMeshComponent")) { if (smc.Parent is ExportEntry parent && actorsInLevel.Contains(parent.UIndex) && parent.IsA("StaticMeshActorBase")) { StructProperty locationProp; StructProperty rotationProp; StructProperty scaleProp = null; smc.CondenseArchetypes(); if (!(smc.GetProperty <ObjectProperty>("StaticMesh") is { } meshProp) || !pcc.IsUExport(meshProp.Value)) { continue; } smc.WriteBinary(emptySMCBin); smc.RemoveProperty("bBioIsReceivingDecals"); smc.RemoveProperty("bBioForcePrecomputedShadows"); //smc.RemoveProperty("bUsePreComputedShadows"); smc.RemoveProperty("bAcceptsLights"); smc.RemoveProperty("IrrelevantLights"); smc.RemoveProperty("Materials"); //should make use of this? smc.ObjectName = new NameReference("StaticMeshComponent", smcIndex++); if (parent.ClassName == "StaticMeshCollectionActor") { if (!componentToMatrixMap.TryGetValue(smc.UIndex, out Matrix m)) { continue; } (Vector3 posVec, Vector3 scaleVec, Rotator rotator) = m.UnrealDecompose(); locationProp = CommonStructs.Vector3Prop(posVec, "Location"); rotationProp = CommonStructs.RotatorProp(rotator, "Rotation"); scaleProp = CommonStructs.Vector3Prop(scaleVec, "DrawScale3D"); //smc.WriteProperty(CommonStructs.Matrix(m, "CachedParentToWorld")); } else { locationProp = parent.GetProperty <StructProperty>("Location"); rotationProp = parent.GetProperty <StructProperty>("Rotation"); scaleProp = parent.GetProperty <StructProperty>("DrawScale3D"); if (parent.GetProperty <FloatProperty>("DrawScale")?.Value is float scale) { Vector3 scaleVec = Vector3.One; if (scaleProp != null) { scaleVec = CommonStructs.GetVector3(scaleProp); } scaleProp = CommonStructs.Vector3Prop(scaleVec * scale, "DrawScale3D"); } } ExportEntry sma = new ExportEntry(udkPackage, EntryImporter.CreateStack(MEGame.UDK, staticMeshActorClass.UIndex)) { ObjectName = new NameReference("StaticMeshActor", smaIndex++), Class = staticMeshActorClass, Parent = levelExport }; sma.ObjectFlags |= UnrealFlags.EObjectFlags.HasStack; udkPackage.AddExport(sma); EntryImporter.ImportAndRelinkEntries(EntryImporter.PortingOption.AddSingularAsChild, smc, udkPackage, sma, true, out IEntry result); var props = new PropertyCollection { new ObjectProperty(result.UIndex, "StaticMeshComponent"), new NameProperty(new NameReference(Path.GetFileNameWithoutExtension(smc.FileRef.FilePath), smc.UIndex), "Tag"), new ObjectProperty(result.UIndex, "CollisionComponent") }; if (locationProp != null) { props.Add(locationProp); } if (rotationProp != null) { props.Add(rotationProp); } if (scaleProp != null) { props.Add(scaleProp); } sma.WriteProperties(props); staticMeshActors.Add(sma); } } IEntry topMeshPackageImport = udkPackage.getEntryOrAddImport(meshPackageName, "Package"); foreach (IEntry mp in topLevelMeshPackages) { mp.Parent = topMeshPackageImport; } } #endregion #region LightActors { IEntry pointLightClass = udkPackage.getEntryOrAddImport("Engine.PointLight"); IEntry spotLightClass = udkPackage.getEntryOrAddImport("Engine.SpotLight"); IEntry directionalLightClass = udkPackage.getEntryOrAddImport("Engine.DirectionalLight"); int plaIndex = 1; int plcIndex = 1; int slaIndex = 1; int slcIndex = 1; int dlaIndex = 1; int dlcIndex = 1; foreach (ExportEntry lightComponent in pcc.Exports) { if (!(lightComponent.Parent is ExportEntry parent && actorsInLevel.Contains(parent.UIndex))) { continue; } StructProperty locationProp; StructProperty rotationProp; StructProperty scaleProp; switch (lightComponent.ClassName) { case "PointLightComponent": lightComponent.CondenseArchetypes(); lightComponent.ObjectName = new NameReference("PointLightComponent", plcIndex++); if (parent.ClassName == "StaticLightCollectionActor") { if (!componentToMatrixMap.TryGetValue(lightComponent.UIndex, out Matrix m)) { continue; } (Vector3 posVec, Vector3 scaleVec, Rotator rotator) = m.UnrealDecompose(); locationProp = CommonStructs.Vector3Prop(posVec, "Location"); rotationProp = CommonStructs.RotatorProp(rotator, "Rotation"); scaleProp = CommonStructs.Vector3Prop(scaleVec, "DrawScale3D"); } else { locationProp = parent.GetProperty <StructProperty>("Location"); rotationProp = parent.GetProperty <StructProperty>("Rotation"); scaleProp = parent.GetProperty <StructProperty>("DrawScale3D"); if (parent.GetProperty <FloatProperty>("DrawScale")?.Value is float scale) { Vector3 scaleVec = Vector3.One; if (scaleProp != null) { scaleVec = CommonStructs.GetVector3(scaleProp); } scaleProp = CommonStructs.Vector3Prop(scaleVec * scale, "DrawScale3D"); } } ExportEntry pla = new ExportEntry(udkPackage, EntryImporter.CreateStack(MEGame.UDK, pointLightClass.UIndex)) { ObjectName = new NameReference("PointLight", plaIndex++), Class = pointLightClass, Parent = levelExport }; pla.ObjectFlags |= UnrealFlags.EObjectFlags.HasStack; udkPackage.AddExport(pla); EntryImporter.ImportAndRelinkEntries(EntryImporter.PortingOption.AddSingularAsChild, lightComponent, udkPackage, pla, true, out IEntry portedPLC); var plsProps = new PropertyCollection { new ObjectProperty(portedPLC.UIndex, "LightComponent"), new NameProperty("PointLight", "Tag"), }; if (locationProp != null) { plsProps.Add(locationProp); } if (rotationProp != null) { plsProps.Add(rotationProp); } if (scaleProp != null) { plsProps.Add(scaleProp); } pla.WriteProperties(plsProps); lightActors.Add(pla); break; case "SpotLightComponent": lightComponent.CondenseArchetypes(); lightComponent.ObjectName = new NameReference("SpotLightComponent", slcIndex++); if (parent.ClassName == "StaticLightCollectionActor") { if (!componentToMatrixMap.TryGetValue(lightComponent.UIndex, out Matrix m)) { continue; } (Vector3 posVec, Vector3 scaleVec, Rotator rotator) = m.UnrealDecompose(); locationProp = CommonStructs.Vector3Prop(posVec, "Location"); rotationProp = CommonStructs.RotatorProp(rotator, "Rotation"); scaleProp = CommonStructs.Vector3Prop(scaleVec, "DrawScale3D"); } else { locationProp = parent.GetProperty <StructProperty>("Location"); rotationProp = parent.GetProperty <StructProperty>("Rotation"); scaleProp = parent.GetProperty <StructProperty>("DrawScale3D"); if (parent.GetProperty <FloatProperty>("DrawScale")?.Value is float scale) { Vector3 scaleVec = Vector3.One; if (scaleProp != null) { scaleVec = CommonStructs.GetVector3(scaleProp); } scaleProp = CommonStructs.Vector3Prop(scaleVec * scale, "DrawScale3D"); } } ExportEntry sla = new ExportEntry(udkPackage, EntryImporter.CreateStack(MEGame.UDK, spotLightClass.UIndex)) { ObjectName = new NameReference("SpotLight", slaIndex++), Class = spotLightClass, Parent = levelExport }; sla.ObjectFlags |= UnrealFlags.EObjectFlags.HasStack; udkPackage.AddExport(sla); EntryImporter.ImportAndRelinkEntries(EntryImporter.PortingOption.AddSingularAsChild, lightComponent, udkPackage, sla, true, out IEntry portedSLC); var slaProps = new PropertyCollection { new ObjectProperty(portedSLC.UIndex, "LightComponent"), new NameProperty("SpotLight", "Tag"), }; if (locationProp != null) { slaProps.Add(locationProp); } if (rotationProp != null) { slaProps.Add(rotationProp); } if (scaleProp != null) { slaProps.Add(scaleProp); } sla.WriteProperties(slaProps); lightActors.Add(sla); break; case "DirectionalLightComponent": lightComponent.CondenseArchetypes(); lightComponent.ObjectName = new NameReference("DirectionalLightComponent", dlcIndex++); if (parent.ClassName == "StaticLightCollectionActor") { if (!componentToMatrixMap.TryGetValue(lightComponent.UIndex, out Matrix m)) { continue; } (Vector3 posVec, Vector3 scaleVec, Rotator rotator) = m.UnrealDecompose(); locationProp = CommonStructs.Vector3Prop(posVec, "Location"); rotationProp = CommonStructs.RotatorProp(rotator, "Rotation"); scaleProp = CommonStructs.Vector3Prop(scaleVec, "DrawScale3D"); } else { locationProp = parent.GetProperty <StructProperty>("Location"); rotationProp = parent.GetProperty <StructProperty>("Rotation"); scaleProp = parent.GetProperty <StructProperty>("DrawScale3D"); if (parent.GetProperty <FloatProperty>("DrawScale")?.Value is float scale) { Vector3 scaleVec = Vector3.One; if (scaleProp != null) { scaleVec = CommonStructs.GetVector3(scaleProp); } scaleProp = CommonStructs.Vector3Prop(scaleVec * scale, "DrawScale3D"); } } ExportEntry dla = new ExportEntry(udkPackage, EntryImporter.CreateStack(MEGame.UDK, directionalLightClass.UIndex)) { ObjectName = new NameReference("DirectionalLight", dlaIndex++), Class = directionalLightClass, Parent = levelExport }; dla.ObjectFlags |= UnrealFlags.EObjectFlags.HasStack; udkPackage.AddExport(dla); EntryImporter.ImportAndRelinkEntries(EntryImporter.PortingOption.AddSingularAsChild, lightComponent, udkPackage, dla, true, out IEntry portedDLC); var dlaProps = new PropertyCollection { new ObjectProperty(portedDLC.UIndex, "LightComponent"), new NameProperty("DirectionalLight", "Tag"), }; if (locationProp != null) { dlaProps.Add(locationProp); } if (rotationProp != null) { dlaProps.Add(rotationProp); } if (scaleProp != null) { dlaProps.Add(scaleProp); } dla.WriteProperties(dlaProps); lightActors.Add(dla); break; } } } UDKifyLights(udkPackage); #endregion Level level = ObjectBinary.From <Level>(levelExport); level.Actors = levelExport.GetChildren().Where(ent => ent.IsA("Actor")).Select(ent => new UIndex(ent.UIndex)).ToList(); levelExport.WriteBinary(level); udkPackage.Save(); } string resultFilePath = Path.Combine(udkPath, @"UDKGame\Content\Maps\", $"{Path.GetFileNameWithoutExtension(pcc.FilePath)}.udk"); using (IMEPackage udkPackage2 = MEPackageHandler.OpenUDKPackage(Path.Combine(App.ExecFolder, "empty.udk"))) { ExportEntry levelExport = udkPackage2.Exports.First(exp => exp.ClassName == "Level"); Level levelBin = ObjectBinary.From <Level>(levelExport); foreach (ExportEntry actor in staticMeshActors) { EntryImporter.ImportAndRelinkEntries(EntryImporter.PortingOption.CloneTreeAsChild, actor, udkPackage2, levelExport, true, out IEntry result); levelBin.Actors.Add(result.UIndex); } foreach (ExportEntry actor in lightActors) { EntryImporter.ImportAndRelinkEntries(EntryImporter.PortingOption.CloneTreeAsChild, actor, udkPackage2, levelExport, true, out IEntry result); levelBin.Actors.Add(result.UIndex); } levelExport.WriteBinary(levelBin); udkPackage2.Save(resultFilePath); } File.Delete(tempPackagePath); return(resultFilePath); }
public static void RunGame2EmailMerge(GameTarget target) { M3MergeDLC.RemoveMergeDLC(target); var loadedFiles = MELoadedFiles.GetFilesLoadedInGame(target.Game, gameRootOverride: target.TargetPath); // File to base modifications on using IMEPackage pcc = MEPackageHandler.OpenMEPackage(loadedFiles[@"BioD_Nor103_Messages.pcc"]); // Path to Message templates file - different files for ME2/LE2 string ResourcesFilePath = $@"MassEffectModManagerCore.modmanager.emailmerge.{target.Game}.103Message_Template_{target.Game}"; using IMEPackage resources = MEPackageHandler.OpenMEPackageFromStream(Utilities.GetResourceStream(ResourcesFilePath)); // Startup file to place conditionals and transitions into using IMEPackage startup = MEPackageHandler.OpenMEPackageFromStream(Utilities.GetResourceStream( $@"MassEffectModManagerCore.modmanager.mergedlc.{target.Game}.Startup_{M3MergeDLC.MERGE_DLC_FOLDERNAME}.pcc")); var emailInfos = new List <ME2EmailMergeFile>(); var jsonSupercedances = M3Directories.GetFileSupercedances(target, new[] { @".json" }); if (jsonSupercedances.TryGetValue(EMAIL_MERGE_MANIFEST_FILE, out var jsonList)) { jsonList.Reverse(); foreach (var dlc in jsonList) { var jsonFile = Path.Combine(M3Directories.GetDLCPath(target), dlc, target.Game.CookedDirName(), EMAIL_MERGE_MANIFEST_FILE); emailInfos.Add(JsonConvert.DeserializeObject <ME2EmailMergeFile>(File.ReadAllText(jsonFile))); } } // Sanity checks if (!emailInfos.Any() || !emailInfos.SelectMany(e => e.Emails).Any()) { return; } if (emailInfos.Any(e => e.Game != target.Game)) { throw new Exception("ME2 email merge manifest targets incorrect game"); } // Startup File // Could replace this with full instanced path in M3 implementation ExportEntry stateEventMapExport = startup.Exports .First(e => e.ClassName == "BioStateEventMap" && e.ObjectName == "StateTransitionMap"); BioStateEventMap StateEventMap = stateEventMapExport.GetBinaryData <BioStateEventMap>(); ExportEntry ConditionalClass = startup.FindExport($@"PlotManager{M3MergeDLC.MERGE_DLC_FOLDERNAME}.BioAutoConditionals"); #region Sequence Exports // Send message - All email conditionals are checked and emails transitions are triggered ExportEntry SendMessageContainer = pcc.FindExport(@"TheWorld.PersistentLevel.Main_Sequence.Send_Messages"); ExportEntry LastSendMessage = KismetHelper.GetSequenceObjects(SendMessageContainer).OfType <ExportEntry>() .FirstOrDefault(e => { var outbound = KismetHelper.GetOutboundLinksOfNode(e); return(outbound.Count == 1 && outbound[0].Count == 0); }); ExportEntry TemplateSendMessage = resources.FindExport(@"TheWorld.PersistentLevel.Main_Sequence.Send_MessageTemplate"); ExportEntry TemplateSendMessageBoolCheck = resources.FindExport(@"TheWorld.PersistentLevel.Main_Sequence.Send_MessageTemplate_BoolCheck"); // Mark Read - email ints are set to read // This is the only section that does not gracefully handle different DLC installations - DLC_CER is required atm ExportEntry MarkReadContainer = pcc.FindExport(@"TheWorld.PersistentLevel.Main_Sequence.Mark_Read"); ExportEntry LastMarkRead = pcc.FindExport(@"TheWorld.PersistentLevel.Main_Sequence.Mark_Read.DLC_CER"); ExportEntry MarkReadOutLink = KismetHelper.GetOutboundLinksOfNode(LastMarkRead)[0][0].LinkedOp as ExportEntry; KismetHelper.RemoveOutputLinks(LastMarkRead); ExportEntry TemplateMarkRead = resources.FindExport(@"TheWorld.PersistentLevel.Main_Sequence.Mark_ReadTemplate"); ExportEntry TemplateMarkReadTransition = resources.FindExport(@"TheWorld.PersistentLevel.Main_Sequence.Mark_Read_Transition"); // Display Messages - Str refs are passed through to GUI ExportEntry DisplayMessageContainer = pcc.FindExport(@"TheWorld.PersistentLevel.Main_Sequence.Display_Messages"); ExportEntry DisplayMessageOutLink = pcc.FindExport(@"TheWorld.PersistentLevel.Main_Sequence.Display_Messages.SeqCond_CompareBool_0"); ExportEntry LastDisplayMessage = SeqTools.FindOutboundConnectionsToNode(DisplayMessageOutLink, KismetHelper.GetSequenceObjects(DisplayMessageContainer).OfType <ExportEntry>())[0]; KismetHelper.RemoveOutputLinks(LastDisplayMessage); var DisplayMessageVariableLinks = LastDisplayMessage.GetProperty <ArrayProperty <StructProperty> >("VariableLinks"); ExportEntry TemplateDisplayMessage = resources.FindExport(@"TheWorld.PersistentLevel.Main_Sequence.Display_MessageTemplate"); // Archive Messages - Message ints are set to 3 ExportEntry ArchiveContainer = pcc.FindExport(@"TheWorld.PersistentLevel.Main_Sequence.Archive_Message"); ExportEntry ArchiveSwitch = pcc.FindExport(@"TheWorld.PersistentLevel.Main_Sequence.Archive_Message.SeqAct_Switch_0"); ExportEntry ArchiveOutLink = pcc.FindExport( @"TheWorld.PersistentLevel.Main_Sequence.Archive_Message.BioSeqAct_PMCheckConditional_1"); ExportEntry ExampleSetInt = KismetHelper.GetOutboundLinksOfNode(ArchiveSwitch)[0][0].LinkedOp as ExportEntry; ExportEntry ExamplePlotInt = SeqTools.GetVariableLinksOfNode(ExampleSetInt)[0].LinkedNodes[0] as ExportEntry; #endregion int messageID = KismetHelper.GetOutboundLinksOfNode(ArchiveSwitch).Count + 1; int currentSwCount = ArchiveSwitch.GetProperty <IntProperty>("LinkCount").Value; foreach (var emailMod in emailInfos) { string modName = "DLC_MOD_" + emailMod.ModName; foreach (var email in emailMod.Emails) { string emailName = modName + "_" + email.EmailName; // Create send transition int transitionId = WriteTransition(StateEventMap, email.StatusPlotInt); int conditionalId = WriteConditional(email.TriggerConditional); #region SendMessage ////////////// // SendMessage ////////////// // Create seq object var SMTemp = emailMod.InMemoryBool.HasValue ? TemplateSendMessageBoolCheck : TemplateSendMessage; EntryImporter.ImportAndRelinkEntries(EntryImporter.PortingOption.CloneTreeAsChild, SMTemp, pcc, SendMessageContainer, true, new RelinkerOptionsPackage(), out var outSendEntry); var newSend = outSendEntry as ExportEntry; // Set name, comment, add to sequence newSend.ObjectName = new NameReference(emailName); KismetHelper.AddObjectToSequence(newSend, SendMessageContainer); KismetHelper.SetComment(newSend, emailName); if (target.Game == MEGame.ME2) { newSend.WriteProperty(new StrProperty(emailName, "ObjName")); } // Set Trigger Conditional var pmCheckConditionalSM = newSend.GetChildren() .FirstOrDefault(e => e.ClassName == "BioSeqAct_PMCheckConditional" && e is ExportEntry); if (pmCheckConditionalSM is ExportEntry conditional) { conditional.WriteProperty(new IntProperty(conditionalId, "m_nIndex")); KismetHelper.SetComment(conditional, "Time for " + email.EmailName + "?"); } // Set Send Transition var pmExecuteTransitionSM = newSend.GetChildren() .FirstOrDefault(e => e.ClassName == "BioSeqAct_PMExecuteTransition" && e is ExportEntry); if (pmExecuteTransitionSM is ExportEntry transition) { transition.WriteProperty(new IntProperty(transitionId, "m_nIndex")); KismetHelper.SetComment(transition, "Send " + email.EmailName + " message."); } // Set Send Transition if (emailMod.InMemoryBool.HasValue) { var pmCheckStateSM = newSend.GetChildren() .FirstOrDefault(e => e.ClassName == "BioSeqAct_PMCheckState" && e is ExportEntry); if (pmCheckStateSM is ExportEntry checkState) { checkState.WriteProperty(new IntProperty(emailMod.InMemoryBool.Value, "m_nIndex")); KismetHelper.SetComment(checkState, "Is " + emailMod.ModName + " installed?"); } } // Hook up output links KismetHelper.CreateOutputLink(LastSendMessage, "Out", newSend); LastSendMessage = newSend; #endregion #region MarkRead /////////// // MarkRead /////////// // Create seq object var MRTemp = email.ReadTransition.HasValue ? TemplateMarkReadTransition : TemplateMarkRead; EntryImporter.ImportAndRelinkEntries(EntryImporter.PortingOption.CloneTreeAsChild, MRTemp, pcc, MarkReadContainer, true, new RelinkerOptionsPackage(), out var outMarkReadEntry); var newMarkRead = outMarkReadEntry as ExportEntry; // Set name, comment, add to sequence newMarkRead.ObjectName = new NameReference(emailName); KismetHelper.AddObjectToSequence(newMarkRead, MarkReadContainer); KismetHelper.SetComment(newMarkRead, emailName); if (target.Game == MEGame.ME2) { newMarkRead.WriteProperty(new StrProperty(emailName, "ObjName")); } // Set Plot Int var storyManagerIntMR = newMarkRead.GetChildren() .FirstOrDefault(e => e.ClassName == "BioSeqVar_StoryManagerInt" && e is ExportEntry); if (storyManagerIntMR is ExportEntry plotIntMR) { plotIntMR.WriteProperty(new IntProperty(email.StatusPlotInt, "m_nIndex")); KismetHelper.SetComment(plotIntMR, email.EmailName); } if (email.ReadTransition.HasValue) { var pmExecuteTransitionMR = newMarkRead.GetChildren() .FirstOrDefault(e => e.ClassName == "BioSeqAct_PMExecuteTransition" && e is ExportEntry); if (pmExecuteTransitionMR is ExportEntry transitionMR) { transitionMR.WriteProperty(new IntProperty(email.ReadTransition.Value, "m_nIndex")); KismetHelper.SetComment(transitionMR, "Trigger " + email.EmailName + " read transition"); } } // Hook up output links KismetHelper.CreateOutputLink(LastMarkRead, "Out", newMarkRead); LastMarkRead = newMarkRead; #endregion #region DisplayEmail //////////////// // Display Email //////////////// // Create seq object EntryImporter.ImportAndRelinkEntries(EntryImporter.PortingOption.CloneTreeAsChild, TemplateDisplayMessage, pcc, DisplayMessageContainer, true, new RelinkerOptionsPackage(), out var outDisplayMessage); var newDisplayMessage = outDisplayMessage as ExportEntry; // Set name, comment, variable links, add to sequence newDisplayMessage.ObjectName = new NameReference(emailName); KismetHelper.AddObjectToSequence(newDisplayMessage, DisplayMessageContainer); newDisplayMessage.WriteProperty(DisplayMessageVariableLinks); KismetHelper.SetComment(newDisplayMessage, emailName); if (target.Game == MEGame.ME2) { newDisplayMessage.WriteProperty(new StrProperty(emailName, "ObjName")); } var displayChildren = newDisplayMessage.GetChildren(); // Set Plot Int var storyManagerIntDE = displayChildren.FirstOrDefault(e => e.ClassName == "BioSeqVar_StoryManagerInt" && e is ExportEntry); if (storyManagerIntDE is ExportEntry plotIntDE) { plotIntDE.WriteProperty(new IntProperty(email.StatusPlotInt, "m_nIndex")); } // Set Email ID var emailIdDE = displayChildren.FirstOrDefault(e => e.ClassName == "SeqVar_Int" && e is ExportEntry); if (emailIdDE is ExportEntry EmailIDDE) { EmailIDDE.WriteProperty(new IntProperty(messageID, "IntValue")); } // Set Title StrRef var titleStrRef = displayChildren.FirstOrDefault(e => e.ClassName == "BioSeqVar_StrRef" && e is ExportEntry ee && ee.GetProperty <NameProperty>("VarName").Value == "Title StrRef"); if (titleStrRef is ExportEntry Title) { Title.WriteProperty(new StringRefProperty(email.TitleStrRef, "m_srValue")); } // Set Description StrRef var descStrRef = displayChildren.FirstOrDefault(e => e.ClassName == "BioSeqVar_StrRef" && e is ExportEntry ee && ee.GetProperty <NameProperty>("VarName").Value == "Desc StrRef"); if (descStrRef is ExportEntry Desc) { Desc.WriteProperty(new StringRefProperty(email.DescStrRef, "m_srValue")); } // Hook up output links KismetHelper.CreateOutputLink(LastDisplayMessage, "Out", newDisplayMessage); LastDisplayMessage = newDisplayMessage; #endregion #region ArchiveEmail //////////////// // Archive Email //////////////// var NewSetInt = EntryCloner.CloneEntry(ExampleSetInt); KismetHelper.AddObjectToSequence(NewSetInt, ArchiveContainer); KismetHelper.CreateOutputLink(NewSetInt, "Out", ArchiveOutLink); KismetHelper.CreateNewOutputLink(ArchiveSwitch, "Link " + (messageID - 1), NewSetInt); var NewPlotInt = EntryCloner.CloneEntry(ExamplePlotInt); KismetHelper.AddObjectToSequence(NewPlotInt, ArchiveContainer); NewPlotInt.WriteProperty(new IntProperty(email.StatusPlotInt, "m_nIndex")); NewPlotInt.WriteProperty(new StrProperty(emailName, "m_sRefName")); var linkedVars = SeqTools.GetVariableLinksOfNode(NewSetInt); linkedVars[0].LinkedNodes = new List <IEntry>() { NewPlotInt }; SeqTools.WriteVariableLinksToNode(NewSetInt, linkedVars); messageID++; currentSwCount++; #endregion } } KismetHelper.CreateOutputLink(LastMarkRead, "Out", MarkReadOutLink); KismetHelper.CreateOutputLink(LastDisplayMessage, "Out", DisplayMessageOutLink); ArchiveSwitch.WriteProperty(new IntProperty(currentSwCount, "LinkCount")); stateEventMapExport.WriteBinary(StateEventMap); // Save Messages file into DLC var cookedDir = Path.Combine(M3Directories.GetDLCPath(target), M3MergeDLC.MERGE_DLC_FOLDERNAME, target.Game.CookedDirName()); var outMessages = Path.Combine(cookedDir, @"BioD_Nor103_Messages.pcc"); pcc.Save(outMessages); // Save Startup file into DLC var startupF = Path.Combine(cookedDir, $@"Startup_{M3MergeDLC.MERGE_DLC_FOLDERNAME}.pcc"); startup.Save(startupF); }