public LMTM3AEntry FillBlankM3A(LMTM3AEntry Anim, int datalength, int ID, int RowTotal, int SecondOffset, BinaryReader bnr, int SecondaryCount, LMTEntry lmtentry) { LMTM3AEntry M3a = new LMTM3AEntry(); M3a._FileType = ".m3a"; M3a.FileExt = ".m3a"; M3a.TrackPointer = -1; M3a.TrackCount = -1; M3a.FrameCount = -1; M3a._FrameTotal = -1; M3a.LoopFrame = -1; M3a.AnimationFlags = -1; M3a.EventClassesPointer = -1; M3a.AnimDataSize = -1; M3a.AnimationID = ID; M3a.FileName = "AnimationID" + M3a.AnimationID + ".m3a"; M3a.ShortName = "AnimationID" + M3a.AnimationID; M3a.RawData = new byte[1]; M3a.RawData[0] = 0x00; M3a.MotionData = new byte[1]; M3a.MotionData[0] = 0x00; M3a.FullData = new byte[1]; M3a.FullData[0] = 0x00; M3a.IsBlank = true; Anim = M3a; return(Anim); }
public static LMTM3AEntry PrepareTheKeyframes(LMTM3AEntry M3a) { M3a.KeyFrames = new List <KeyFrame>(); foreach (Track track in M3a.Tracks) { IEnumerable <KeyFrame> Key = LMTM3ATrackBuffer.Convert(track.BufferType, track.Buffer, track.ExtremesArray, track.BoneID, track.BufferKind); M3a.KeyFrames.AddRange(Key.ToList()); } return(M3a); }
public static LMTM3AEntry ParseM3AYMLPart1(LMTM3AEntry M3a, string filename, LMTM3AEntry OLdM3a) { LMTM3AEntry NewM3a = new LMTM3AEntry(); using (var input = File.OpenText(filename)) { var deserializer = new DeserializerBuilder().WithTagMapping("!LMTM3AEntry", typeof(ThreeWorkTool.Resources.Wrappers.LMTM3AEntry)).Build(); NewM3a = deserializer.Deserialize <LMTM3AEntry>(input); } foreach (KeyFrame Key in NewM3a.KeyFrames) { } return(NewM3a); }
public static LMTEntry ReplaceLMTEntry(TreeView tree, ArcEntryWrapper node, ArcEntryWrapper OldNode, string filename, Type filetype = null) { LMTEntry lmtentry = new LMTEntry(); LMTEntry oldentry = new LMTEntry(); oldentry = OldNode.Tag as LMTEntry; tree.BeginUpdate(); try { using (BinaryReader bnr = new BinaryReader(File.OpenRead(filename))) { //We build the lmtentry starting from the uncompressed data. lmtentry.UncompressedData = System.IO.File.ReadAllBytes(filename); lmtentry.DecompressedFileLength = lmtentry.UncompressedData.Length; lmtentry._DecompressedFileLength = lmtentry.UncompressedData.Length; //Then Compress. lmtentry.CompressedData = Zlibber.Compressor(lmtentry.UncompressedData); lmtentry.CompressedFileLength = lmtentry.CompressedData.Length; lmtentry._CompressedFileLength = lmtentry.CompressedData.Length; //Gets the filename of the file to inject without the directory. string trname = filename; while (trname.Contains("\\")) { trname = trname.Substring(trname.IndexOf("\\") + 1); } //Enters name related parameters of the lmtentry. lmtentry.TrueName = trname; lmtentry._FileName = lmtentry.TrueName; lmtentry.TrueName = Path.GetFileNameWithoutExtension(trname); lmtentry.FileExt = trname.Substring(trname.LastIndexOf(".")); lmtentry._FileType = lmtentry.FileExt; string TypeHash = ""; //Looks through the archive_filetypes.cfg file to find the typehash associated with the extension. try { using (var sr2 = new StreamReader("archive_filetypes.cfg")) { while (!sr2.EndOfStream) { var keyword = Console.ReadLine() ?? lmtentry.FileExt; var line = sr2.ReadLine(); if (String.IsNullOrEmpty(line)) { continue; } if (line.IndexOf(keyword, StringComparison.CurrentCultureIgnoreCase) >= 0) { TypeHash = line; TypeHash = TypeHash.Split(' ')[0]; lmtentry.TypeHash = TypeHash; break; } } } } catch (FileNotFoundException) { MessageBox.Show("I cannot find and/or access archive_filetypes.cfg so I cannot finish parsing the arc.", "Oh Boy"); using (StreamWriter sw = File.AppendText("Log.txt")) { sw.WriteLine("Cannot find archive_filetypes.cfg so I cannot continue parsing the file."); } return(null); } int count = 0; int SecondaryCount = 0; using (MemoryStream msm3a = new MemoryStream(lmtentry.UncompressedData)) { using (BinaryReader brm3a = new BinaryReader(msm3a)) { bnr.BaseStream.Position = 6; lmtentry.Version = bnr.ReadInt16(); lmtentry.EntryCount = lmtentry.Version; lmtentry.OffsetList = new List <int>(); lmtentry.LstM3A = new List <LMTM3AEntry>(); //Gets all the offsets. ALL OF THEM. while (count < (lmtentry.Version)) { lmtentry.OffsetList.Add(bnr.ReadInt32()); bnr.BaseStream.Position = bnr.BaseStream.Position + 4; count++; } count = 0; //Goes through the offsets to get the data. Ignores offsets of 0. for (int i = 0; i < lmtentry.OffsetList.Count; i++) { if (lmtentry.OffsetList[i] != 0) { LMTM3AEntry aEntry = new LMTM3AEntry(); aEntry = aEntry.FillM3AProprties(aEntry, lmtentry.Length, i, lmtentry.RowCount, lmtentry.SecondOffsetList, bnr, SecondaryCount, lmtentry); lmtentry.LstM3A.Add(aEntry); } else { LMTM3AEntry aEntry = new LMTM3AEntry(); aEntry = aEntry.FillBlankM3A(aEntry, lmtentry.Length, i, lmtentry.RowCount, lmtentry.SecondOffsetList, bnr, SecondaryCount, lmtentry); lmtentry.LstM3A.Add(aEntry); } } } } lmtentry.TrueName = oldentry.TrueName; lmtentry._FileName = oldentry._FileName; lmtentry.EntryName = oldentry.EntryName; var tag = node.Tag; if (tag is LMTEntry) { oldentry = tag as LMTEntry; } string path = ""; int index = oldentry.EntryName.LastIndexOf("\\"); if (index > 0) { path = oldentry.EntryName.Substring(0, index); } lmtentry.EntryName = path + "\\" + lmtentry.TrueName; tag = lmtentry; if (node.Tag is LMTEntry) { node.Tag = lmtentry; node.Name = Path.GetFileNameWithoutExtension(lmtentry.EntryName); node.Text = Path.GetFileNameWithoutExtension(lmtentry.EntryName); } var aew = node as ArcEntryWrapper; string type = node.GetType().ToString(); if (type == "ThreeWorkTool.Resources.Wrappers.ArcEntryWrapper") { aew.entryfile = lmtentry; } node = aew; node.entryfile = lmtentry; /* * //ArcEntryWrapper aew = new ArcEntryWrapper(); * if (node is ArcEntryWrapper) * { * node.entryfile as ArcEntryWrapper = node.Tag; * } */ tree.EndUpdate(); } } catch (Exception ex) { MessageBox.Show("Read error. Is the file readable?"); using (StreamWriter sw = File.AppendText("Log.txt")) { sw.WriteLine("Read Error! Here's the exception info:\n" + ex); } } return(node.entryfile as LMTEntry); }
public static LMTEntry RebuildLMTEntry(TreeView tree, ArcEntryWrapper node, Type filetype = null) { //Gets the nodes and stuff and starts rebuilding from scratch. LMTEntry lMT = new LMTEntry(); int ChildCount = 0; //Fetches and Iterates through all the children and extracts the files tagged in the nodes. List <TreeNode> Children = new List <TreeNode>(); foreach (TreeNode thisNode in tree.SelectedNode.Nodes) { Children.Add(thisNode); ChildCount++; } //Now to rebuild from scratch. List <byte> NewUncompressedData = new List <byte>(); byte[] Header = { 0x4C, 0x4D, 0x54, 0x00, 0x43, 0x00 }; byte[] PlaceHolderEntry = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; byte[] BlankLine = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; byte[] BlankHalf = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 }; //Gets Entry Count. short Total = Convert.ToInt16(Children.Count); NewUncompressedData.AddRange(Header); NewUncompressedData.AddRange(BitConverter.GetBytes(Total)); //Adds in dummy bytes for Entry Offset List based on amount of child nodes of the lmt node. Adds an extra entry because the default LMTs do. NewUncompressedData.AddRange(PlaceHolderEntry); for (int w = 0; w < Children.Count; w++) { NewUncompressedData.AddRange(PlaceHolderEntry); } int MA3DataStart = NewUncompressedData.Count; lMT.OffsetList = new List <int>(); List <int> DataOffsetList = new List <int>(); List <bool> IsBlank = new List <bool>(); //Starts putting in the Block Data and updating the offset list. lMT.OffsetList.Add(NewUncompressedData.Count); for (int x = 0; x < Children.Count; x++) { TreeNode TN = tree.SelectedNode.Nodes.Find(x.ToString(), true)[0]; LMTM3AEntry tag = TN.Tag as LMTM3AEntry; if (tag != null) { IsBlank.Add(tag.IsBlank); if (tag.IsBlank == false) { NewUncompressedData.AddRange(tag.MotionData); /* * //The ending of the block data segments always has the raw data start on the 8 of the hex instead of the 0 of the hex offset for some reason. * //This is there to preserve that. * if (x == (Children.Count - 1)) * { * NewUncompressedData.AddRange(BlankHalf); * } * else * { * NewUncompressedData.AddRange(BlankLine); * } */ } } lMT.OffsetList.Add(NewUncompressedData.Count); } //Now for the RawData. Oh joy. DataOffsetList.Add(NewUncompressedData.Count); for (int y = 0; y < Children.Count; y++) { TreeNode TN = tree.SelectedNode.Nodes.Find(y.ToString(), true)[0]; LMTM3AEntry tag = TN.Tag as LMTM3AEntry; if (tag != null) { if (IsBlank[y] == false) { NewUncompressedData.AddRange(tag.RawData); DataOffsetList.Add(NewUncompressedData.Count); } } } byte[] UnCompressedBuffer = NewUncompressedData.ToArray(); int Capacity = UnCompressedBuffer.Length; int EntryAmount = lMT.OffsetList.Count - 1; List <int> IndexRows = new List <int>(); using (MemoryStream ms3 = new MemoryStream(UnCompressedBuffer)) { using (BinaryReader br3 = new BinaryReader(ms3)) { using (BinaryWriter bw3 = new BinaryWriter(ms3)) { bw3.BaseStream.Position = 8; //Offsets For The Block Data. for (int z = 0; z < EntryAmount; z++) { if (IsBlank[z] == false) { bw3.Write(lMT.OffsetList[z]); bw3.BaseStream.Position = bw3.BaseStream.Position + 4; } else { bw3.BaseStream.Position = bw3.BaseStream.Position + 8; } } //Offsets For the Raw Data. int EndingOffset = 0; int OffTemp = 0; bw3.BaseStream.Position = lMT.OffsetList[0]; for (int zz = 0; zz < DataOffsetList.Count; zz++) { bw3.Write(DataOffsetList[zz]); bw3.BaseStream.Position = bw3.BaseStream.Position + 4; IndexRows.Add(br3.ReadInt32()); bw3.BaseStream.Position = bw3.BaseStream.Position + 60; //bw3.BaseStream.Position = bw3.BaseStream.Position + 68; if (zz == (DataOffsetList.Count - 1)) { EndingOffset = UnCompressedBuffer.Length; bw3.Write(EndingOffset); } else { EndingOffset = (DataOffsetList[zz + 1] - 352); bw3.Write(EndingOffset); } bw3.BaseStream.Position = bw3.BaseStream.Position + 20; } //Lastly the offsets in the M3A entries themeslves. Sigh........ bw3.BaseStream.Position = DataOffsetList[0]; int CountTemp = DataOffsetList.Count - 1; for (int yy = 0; yy < CountTemp; yy++) { bw3.BaseStream.Position = DataOffsetList[yy]; //bw3.BaseStream.Position = IndexRows[yy]; for (int xx = 0; xx < IndexRows[yy]; xx++) { bw3.BaseStream.Position = DataOffsetList[yy]; bw3.BaseStream.Position = DataOffsetList[yy] + 16 + (48 * xx); OffTemp = br3.ReadInt32(); bw3.BaseStream.Position = (bw3.BaseStream.Position - 4); if (OffTemp > 0) { OffTemp = OffTemp + DataOffsetList[yy]; bw3.Write(OffTemp); } bw3.BaseStream.Position = DataOffsetList[yy] + 40 + (48 * xx); OffTemp = br3.ReadInt32(); bw3.BaseStream.Position = (bw3.BaseStream.Position - 4); if (OffTemp > 0) { OffTemp = OffTemp + DataOffsetList[yy]; bw3.Write(OffTemp); } } //Footer Things. bw3.BaseStream.Position = (DataOffsetList[(yy + 1)] - 280); //OffTemp = br3.ReadInt32(); OffTemp = DataOffsetList[(yy + 1)] - 32; //bw3.BaseStream.Position = (bw3.BaseStream.Position - 4); bw3.Write(OffTemp); bw3.BaseStream.Position = bw3.BaseStream.Position + 76; //OffTemp = br3.ReadInt32(); OffTemp = DataOffsetList[(yy + 1)] - 24; //bw3.BaseStream.Position = (bw3.BaseStream.Position - 4); bw3.Write(OffTemp); bw3.BaseStream.Position = bw3.BaseStream.Position + 76; //OffTemp = br3.ReadInt32(); OffTemp = DataOffsetList[(yy + 1)] - 16; //bw3.BaseStream.Position = (bw3.BaseStream.Position - 4); bw3.Write(OffTemp); bw3.BaseStream.Position = bw3.BaseStream.Position + 76; //OffTemp = br3.ReadInt32(); OffTemp = DataOffsetList[(yy + 1)] - 8; //bw3.BaseStream.Position = (bw3.BaseStream.Position - 4); bw3.Write(OffTemp); } } } } lMT.UncompressedData = UnCompressedBuffer; lMT.CompressedData = Zlibber.Compressor(lMT.UncompressedData); lMT.EntryCount = Children.Count; lMT._EntryCount = Children.Count; lMT._FileType = ".lmt"; lMT.FileExt = ".lmt"; return(lMT); }
public static LMTEntry InsertLMTEntry(TreeView tree, ArcEntryWrapper node, string filename, Type filetype = null) { LMTEntry lmtentry = new LMTEntry(); try { using (BinaryReader bnr = new BinaryReader(File.OpenRead(filename))) { //We build the lmtentry starting from the uncompressed data. lmtentry.UncompressedData = System.IO.File.ReadAllBytes(filename); lmtentry.DecompressedFileLength = lmtentry.UncompressedData.Length; lmtentry._DecompressedFileLength = lmtentry.UncompressedData.Length; lmtentry.DSize = lmtentry.UncompressedData.Length; //Then Compress. lmtentry.CompressedData = Zlibber.Compressor(lmtentry.UncompressedData); lmtentry.CompressedFileLength = lmtentry.CompressedData.Length; lmtentry._CompressedFileLength = lmtentry.CompressedData.Length; lmtentry.CSize = lmtentry.CompressedData.Length; //Gets the filename of the file to inject without the directory. string trname = filename; while (trname.Contains("\\")) { trname = trname.Substring(trname.IndexOf("\\") + 1); } lmtentry.TrueName = trname; lmtentry._FileName = lmtentry.TrueName; lmtentry.TrueName = Path.GetFileNameWithoutExtension(trname); lmtentry.FileExt = trname.Substring(trname.LastIndexOf(".")); lmtentry._FileType = lmtentry.FileExt; lmtentry.LstM3A = new List <LMTM3AEntry>(); lmtentry.OffsetList = new List <int>(); bnr.BaseStream.Position = 6; lmtentry.Version = bnr.ReadInt16(); lmtentry.EntryCount = lmtentry.Version; int count = 0; int SecondaryCount = 0; //Gets all the offsets. ALL OF THEM. while (count < (lmtentry.Version)) { lmtentry.OffsetList.Add(bnr.ReadInt32()); bnr.BaseStream.Position = bnr.BaseStream.Position + 4; count++; } count = 0; //Goes through the offsets to get the data. Ignores offsets of 0. for (int i = 0; i < lmtentry.OffsetList.Count; i++) { if (lmtentry.OffsetList[i] != 0) { LMTM3AEntry aEntry = new LMTM3AEntry(); aEntry = aEntry.FillM3AProprties(aEntry, lmtentry.Length, i, lmtentry.RowCount, lmtentry.SecondOffsetList, bnr, SecondaryCount, lmtentry); lmtentry.LstM3A.Add(aEntry); } else { LMTM3AEntry aEntry = new LMTM3AEntry(); aEntry = aEntry.FillBlankM3A(aEntry, lmtentry.Length, i, lmtentry.RowCount, lmtentry.SecondOffsetList, bnr, SecondaryCount, lmtentry); lmtentry.LstM3A.Add(aEntry); } } //Gets the path of the selected node to inject here. string nodepath = tree.SelectedNode.FullPath; nodepath = nodepath.Substring(nodepath.IndexOf("\\") + 1); string[] sepstr = { "\\" }; lmtentry.EntryDirs = nodepath.Split(sepstr, StringSplitOptions.RemoveEmptyEntries); lmtentry.EntryName = lmtentry.FileName; //Looks through the archive_filetypes.cfg file to find the typehash associated with the extension. try { using (var sr2 = new StreamReader("archive_filetypes.cfg")) { while (!sr2.EndOfStream) { var keyword = Console.ReadLine() ?? lmtentry.FileExt; var line = sr2.ReadLine(); if (String.IsNullOrEmpty(line)) { continue; } if (line.IndexOf(keyword, StringComparison.CurrentCultureIgnoreCase) >= 0) { lmtentry.TypeHash = line; lmtentry.TypeHash = lmtentry.TypeHash.Split(' ')[0]; break; } } } } catch (FileNotFoundException) { MessageBox.Show("I cannot find and/or access archive_filetypes.cfg so I cannot finish parsing the arc.", "Oh Boy"); using (StreamWriter sw = File.AppendText("Log.txt")) { sw.WriteLine("Cannot find archive_filetypes.cfg so I cannot continue parsing the file."); } } } } catch (Exception ex) { using (StreamWriter sw = File.AppendText("Log.txt")) { sw.WriteLine("Caught an exception using the BinaryReader. Here's the details:\n" + ex); } } return(lmtentry); }
public static LMTEntry FillLMTEntry(string filename, List <string> subnames, TreeView tree, BinaryReader br, int c, int ID, Type filetype = null) { LMTEntry lmtentry = new LMTEntry(); List <byte> BTemp = new List <byte>(); FillEntry(filename, subnames, tree, br, c, ID, lmtentry, filetype); lmtentry._FileName = lmtentry.TrueName + lmtentry.FileExt; lmtentry._FileType = lmtentry.FileExt; //Decompression Time. lmtentry.UncompressedData = ZlibStream.UncompressBuffer(lmtentry.CompressedData); lmtentry._DecompressedFileLength = lmtentry.UncompressedData.Length; lmtentry._CompressedFileLength = lmtentry.CompressedData.Length; int count = 0; byte[] STemp = new byte[2]; byte[] OTemp = new byte[4]; lmtentry.LstM3A = new List <LMTM3AEntry>(); lmtentry.OffsetList = new List <int>(); int SecondaryCount = 0; using (MemoryStream LmtStream = new MemoryStream(lmtentry.UncompressedData)) { using (BinaryReader bnr = new BinaryReader(LmtStream)) { bnr.BaseStream.Position = 6; lmtentry.Version = bnr.ReadInt16(); lmtentry.EntryCount = lmtentry.Version; //Gets all the offsets. ALL OF THEM. while (count < (lmtentry.Version)) { lmtentry.OffsetList.Add(bnr.ReadInt32()); bnr.BaseStream.Position = bnr.BaseStream.Position + 4; count++; } count = 0; //Goes through the offsets to get the data. Ignores offsets of 0. for (int i = 0; i < lmtentry.OffsetList.Count; i++) { if (lmtentry.OffsetList[i] != 0) { LMTM3AEntry aEntry = new LMTM3AEntry(); aEntry = aEntry.FillM3AProprties(aEntry, lmtentry.Length, i, lmtentry.RowCount, lmtentry.SecondOffsetList, bnr, SecondaryCount, lmtentry); lmtentry.LstM3A.Add(aEntry); } else { LMTM3AEntry aEntry = new LMTM3AEntry(); aEntry = aEntry.FillBlankM3A(aEntry, lmtentry.Length, i, lmtentry.RowCount, lmtentry.SecondOffsetList, bnr, SecondaryCount, lmtentry); lmtentry.LstM3A.Add(aEntry); } } } return(lmtentry); } }
public static LMTM3AEntry ReplaceLMTM3AEntry(TreeView tree, ArcEntryWrapper node, string filename, Type filetype = null) { LMTM3AEntry m3aentry = new LMTM3AEntry(); LMTM3AEntry oldentry = new LMTM3AEntry(); tree.BeginUpdate(); var tag = node.Tag; if (tag is LMTM3AEntry) { oldentry = tag as LMTM3AEntry; } //Builds the ma3entry. m3aentry._FileType = ".m3a"; m3aentry.FileExt = m3aentry._FileType; m3aentry.FullData = System.IO.File.ReadAllBytes(filename); m3aentry.AnimationID = oldentry.AnimationID; m3aentry.FileName = oldentry.FileName; m3aentry.ShortName = oldentry.ShortName; m3aentry._IsBlank = false; using (MemoryStream MAThreeStream = new MemoryStream(m3aentry.FullData)) { using (BinaryReader bnr = new BinaryReader(MAThreeStream)) { if (bnr.BaseStream.Length < 5) { MessageBox.Show("The entry you are trying to import is a blank one,\nso the replace command has been aborted.", "We have a problem here."); return(null); } int projdatlength = m3aentry.FullData.Length - 96; m3aentry.RawData = new byte[(projdatlength)]; Array.Copy(m3aentry.FullData, 0, m3aentry.RawData, 0, projdatlength); m3aentry.MotionData = new byte[96]; projdatlength = m3aentry.FullData.Length - 96; Array.Copy(m3aentry.FullData, projdatlength, m3aentry.MotionData, 0, 96); bnr.BaseStream.Position = (bnr.BaseStream.Length - 96); m3aentry.TrackPointer = bnr.ReadInt32(); bnr.BaseStream.Position = bnr.BaseStream.Position + 4; m3aentry.TrackCount = bnr.ReadInt32(); m3aentry.FrameCount = bnr.ReadInt32(); m3aentry._FrameTotal = m3aentry.FrameCount; m3aentry.IsBlank = false; m3aentry.LoopFrame = bnr.ReadInt32(); m3aentry.UnknownValue14 = ByteUtilitarian.BytesToString(bnr.ReadBytes(4), m3aentry.UnknownValue14); m3aentry.UnknownValue18 = ByteUtilitarian.BytesToString(bnr.ReadBytes(4), m3aentry.UnknownValue18); m3aentry.UnknownValue1C = ByteUtilitarian.BytesToString(bnr.ReadBytes(4), m3aentry.UnknownValue1C); m3aentry.EndFramesAdditiveScenePosition.W = bnr.ReadSingle(); m3aentry.EndFramesAdditiveScenePosition.X = bnr.ReadSingle(); m3aentry.EndFramesAdditiveScenePosition.Y = bnr.ReadSingle(); m3aentry.EndFramesAdditiveScenePosition.Z = bnr.ReadSingle(); m3aentry.EndFramesAdditiveSceneRotation.W = bnr.ReadSingle(); m3aentry.EndFramesAdditiveSceneRotation.X = bnr.ReadSingle(); m3aentry.EndFramesAdditiveSceneRotation.Y = bnr.ReadSingle(); m3aentry.EndFramesAdditiveSceneRotation.Z = bnr.ReadSingle(); m3aentry.AnimationFlags = bnr.ReadInt64(); m3aentry.EventClassesPointer = bnr.ReadInt32(); //m3aentry.EventClassesPointer = bnr.ReadInt32(); //bnr.BaseStream.Position = bnr.BaseStream.Position + 4; m3aentry.AnimDataSize = (m3aentry.EventClassesPointer - m3aentry.TrackPointer) + 352; m3aentry.AnimDataSize = m3aentry.FullData.Length - 448; m3aentry.FloatTracksPointer = bnr.ReadInt32(); bnr.BaseStream.Position = bnr.BaseStream.Position + 4; m3aentry.Unknown58 = bnr.ReadInt32(); m3aentry.Unknown5C = bnr.ReadSingle(); m3aentry.PrevOffsetThree = Convert.ToInt32(bnr.BaseStream.Position); bnr.BaseStream.Position = m3aentry.TrackPointer; m3aentry.RawData = new byte[m3aentry.AnimDataSize]; Array.Copy(m3aentry.FullData, m3aentry.RawData, m3aentry.AnimDataSize); m3aentry.MotionData = new byte[96]; bnr.BaseStream.Position = (m3aentry.FullData.Length - 96); m3aentry.MotionData = bnr.ReadBytes(96); bnr.BaseStream.Position = m3aentry.PrevOffsetThree; //Gets the Tracks. m3aentry.Tracks = new List <Track>(); bnr.BaseStream.Position = 0; for (int j = 0; j < m3aentry.TrackCount; j++) { Track track = new Track(); track.TrackNumber = j; track.BufferType = bnr.ReadByte(); BufferType type = (BufferType)track.BufferType; track.BufferKind = type.ToString(); track.TrackType = bnr.ReadByte(); track.BoneType = bnr.ReadByte(); track.BoneID = bnr.ReadByte(); track.Weight = bnr.ReadSingle(); track.BufferSize = bnr.ReadInt32(); bnr.BaseStream.Position = bnr.BaseStream.Position + 4; track.BufferPointer = bnr.ReadInt32(); bnr.BaseStream.Position = bnr.BaseStream.Position + 4; track.ReferenceData.W = bnr.ReadSingle(); track.ReferenceData.X = bnr.ReadSingle(); track.ReferenceData.Y = bnr.ReadSingle(); track.ReferenceData.Z = bnr.ReadSingle(); track.ExtremesPointer = bnr.ReadInt32(); bnr.BaseStream.Position = bnr.BaseStream.Position + 4; m3aentry.PrevOffset = Convert.ToInt32(bnr.BaseStream.Position); if (track.BufferSize != 0) { //MessageBox.Show("Track #" + j + " inside " + lmtentry.EntryName + "\nhas a buffer size that is NOT ZERO.", "Debug Note"); bnr.BaseStream.Position = track.BufferPointer; track.Buffer = bnr.ReadBytes(track.BufferSize); } if (track.ExtremesPointer != 0) { //MessageBox.Show("Track # " + j + " inside " + lmtentry.EntryName + "\nhas an actual extremes pointer.", "Debug Note"); bnr.BaseStream.Position = Convert.ToInt32(track.ExtremesPointer); track.Extremes = new Extremes(); track.Extremes.min.W = bnr.ReadSingle(); track.Extremes.min.X = bnr.ReadSingle(); track.Extremes.min.Y = bnr.ReadSingle(); track.Extremes.min.Z = bnr.ReadSingle(); track.Extremes.max.W = bnr.ReadSingle(); track.Extremes.max.X = bnr.ReadSingle(); track.Extremes.max.Y = bnr.ReadSingle(); track.Extremes.max.Z = bnr.ReadSingle(); } bnr.BaseStream.Position = m3aentry.PrevOffset; m3aentry.Tracks.Add(track); } bnr.BaseStream.Position = m3aentry.FullData.Length - 448; //Animation Events. m3aentry.Events = new List <AnimEvent>(); for (int k = 0; k < 4; k++) { AnimEvent animEvent = new AnimEvent(); for (int l = 0; l < 32; l++) { animEvent.EventRemap = new List <int>(); animEvent.EventRemap.Add(bnr.ReadInt16()); } animEvent.EventCount = bnr.ReadInt32(); bnr.BaseStream.Position = bnr.BaseStream.Position + 4; animEvent.EventsPointer = bnr.ReadInt32(); bnr.BaseStream.Position = bnr.BaseStream.Position + 4; m3aentry.PrevOffsetTwo = Convert.ToInt32(bnr.BaseStream.Position); bnr.BaseStream.Position = animEvent.EventsPointer; animEvent.EventBit = bnr.ReadInt32(); animEvent.FrameNumber = bnr.ReadInt32(); m3aentry.Events.Add(animEvent); bnr.BaseStream.Position = m3aentry.PrevOffsetTwo; } //Subtracts pointers in there by the data offset to get their base value. int OffTemp = 0; using (MemoryStream msm3a = new MemoryStream(m3aentry.RawData)) { using (BinaryReader brm3a = new BinaryReader(msm3a)) { using (BinaryWriter bwm3a = new BinaryWriter(msm3a)) { //Adjusts the offsets in the Rawdata of the m3a. bwm3a.BaseStream.Position = 0; for (int y = 0; y < m3aentry.TrackCount; y++) { bwm3a.BaseStream.Position = 0; bwm3a.BaseStream.Position = 16 + (48 * y); OffTemp = brm3a.ReadInt32(); bwm3a.BaseStream.Position = (bwm3a.BaseStream.Position - 4); if (OffTemp > 0) { OffTemp = OffTemp - m3aentry.TrackPointer; bwm3a.Write(OffTemp); } bwm3a.BaseStream.Position = 40 + (48 * y); OffTemp = brm3a.ReadInt32(); bwm3a.BaseStream.Position = (bwm3a.BaseStream.Position - 4); if (OffTemp > 0) { OffTemp = OffTemp - m3aentry.TrackPointer; bwm3a.Write(OffTemp); } } //Adjusts the offsets in the Events. bwm3a.BaseStream.Position = (bwm3a.BaseStream.Length - 280); OffTemp = m3aentry.RawData.Length - 32; bwm3a.Write(OffTemp); bwm3a.BaseStream.Position = bwm3a.BaseStream.Position + 76; OffTemp = m3aentry.RawData.Length - 24; bwm3a.Write(OffTemp); bwm3a.BaseStream.Position = bwm3a.BaseStream.Position + 76; OffTemp = m3aentry.RawData.Length - 16; bwm3a.Write(OffTemp); bwm3a.BaseStream.Position = bwm3a.BaseStream.Position + 76; OffTemp = m3aentry.RawData.Length - 8; bwm3a.Write(OffTemp); } } } //Appends the Animation Block Data to the FullData. m3aentry.FullData = new byte[(m3aentry.AnimDataSize + 96)]; m3aentry._FileLength = m3aentry.FullData.LongLength; Array.Copy(m3aentry.RawData, 0, m3aentry.FullData, 0, m3aentry.RawData.Length); Array.Copy(m3aentry.MotionData, 0, m3aentry.FullData, m3aentry.RawData.Length, m3aentry.MotionData.Length); } } try { using (BinaryReader bnr = new BinaryReader(File.OpenRead(filename))) { m3aentry.RawData = System.IO.File.ReadAllBytes(filename); /* * var tag = node.Tag; * if (tag is LMTM3AEntry) * { * oldentry = tag as LMTM3AEntry; * } */ tag = m3aentry; if (node.Tag is LMTM3AEntry) { node.Tag = m3aentry; } var aew = node as ArcEntryWrapper; string type = node.GetType().ToString(); if (type == "ThreeWorkTool.Resources.Wrappers.ArcEntryWrapper") { aew.entryfile = m3aentry; } node = aew; node.entryfile = m3aentry; /* * //ArcEntryWrapper aew = new ArcEntryWrapper(); * if (node is ArcEntryWrapper) * { * node.entryfile as ArcEntryWrapper = node.Tag; * } */ tree.EndUpdate(); node.ImageIndex = 18; node.SelectedImageIndex = 18; } } catch (Exception ex) { MessageBox.Show("Read error. Is the file readable?"); using (StreamWriter sw = File.AppendText("Log.txt")) { sw.WriteLine("Read Error! Here's the exception info:\n" + ex); } } return(node.entryfile as LMTM3AEntry); }
public LMTM3AEntry FillM3AProprties(LMTM3AEntry Anim, int datalength, int ID, int RowTotal, int SecondOffset, BinaryReader bnr, int SecondaryCount, LMTEntry lmtentry) { //Reads the AnnimBlock Header. LMTM3AEntry M3a = new LMTM3AEntry(); M3a.KeyFrames = new List <KeyFrame>(); M3a._FileType = ".m3a"; M3a.FileExt = M3a._FileType; bnr.BaseStream.Position = lmtentry.OffsetList[ID]; M3a.TrackPointer = bnr.ReadInt32(); bnr.BaseStream.Position = bnr.BaseStream.Position + 4; M3a.TrackCount = bnr.ReadInt32(); M3a.FrameCount = bnr.ReadInt32(); M3a._FrameTotal = M3a.FrameCount; M3a.LoopFrame = bnr.ReadInt32(); M3a.UnknownValue14 = ByteUtilitarian.BytesToString(bnr.ReadBytes(4), M3a.UnknownValue14); M3a.UnknownValue18 = ByteUtilitarian.BytesToString(bnr.ReadBytes(4), M3a.UnknownValue18); M3a.UnknownValue1C = ByteUtilitarian.BytesToString(bnr.ReadBytes(4), M3a.UnknownValue1C); M3a.EndFramesAdditiveScenePosition.W = bnr.ReadSingle(); M3a.EndFramesAdditiveScenePosition.X = bnr.ReadSingle(); M3a.EndFramesAdditiveScenePosition.Y = bnr.ReadSingle(); M3a.EndFramesAdditiveScenePosition.Z = bnr.ReadSingle(); M3a.EndFramesAdditiveSceneRotation.W = bnr.ReadSingle(); M3a.EndFramesAdditiveSceneRotation.X = bnr.ReadSingle(); M3a.EndFramesAdditiveSceneRotation.Y = bnr.ReadSingle(); M3a.EndFramesAdditiveSceneRotation.Z = bnr.ReadSingle(); M3a.AnimationFlags = bnr.ReadInt64(); M3a.EventClassesPointer = bnr.ReadInt32(); bnr.BaseStream.Position = bnr.BaseStream.Position + 4; M3a.AnimDataSize = (M3a.EventClassesPointer - M3a.TrackPointer) + 352; M3a.FloatTracksPointer = bnr.ReadInt32(); bnr.BaseStream.Position = bnr.BaseStream.Position + 4; M3a.Unknown58 = bnr.ReadInt32(); M3a.Unknown5C = bnr.ReadSingle(); PrevOffsetThree = Convert.ToInt32(bnr.BaseStream.Position); bnr.BaseStream.Position = M3a.TrackPointer; M3a.RawData = new byte[M3a.AnimDataSize]; M3a.RawData = bnr.ReadBytes(M3a.AnimDataSize); M3a.MotionData = new byte[96]; bnr.BaseStream.Position = lmtentry.OffsetList[ID]; M3a.MotionData = bnr.ReadBytes(96); bnr.BaseStream.Position = PrevOffsetThree; //Gets the Tracks. M3a.Tracks = new List <Track>(); bnr.BaseStream.Position = M3a.TrackPointer; for (int j = 0; j < M3a.TrackCount; j++) { Track track = new Track(); track.TrackNumber = j; track.ExtremesArray = new float[8]; track.BufferType = bnr.ReadByte(); BufferType type = (BufferType)track.BufferType; track.BufferKind = type.ToString(); track.TrackType = bnr.ReadByte(); track.BoneType = bnr.ReadByte(); track.BoneID = bnr.ReadByte(); track.Weight = bnr.ReadSingle(); track.BufferSize = bnr.ReadInt32(); bnr.BaseStream.Position = bnr.BaseStream.Position + 4; track.BufferPointer = bnr.ReadInt32(); bnr.BaseStream.Position = bnr.BaseStream.Position + 4; track.ReferenceData.W = bnr.ReadSingle(); track.ReferenceData.X = bnr.ReadSingle(); track.ReferenceData.Y = bnr.ReadSingle(); track.ReferenceData.Z = bnr.ReadSingle(); track.ExtremesPointer = bnr.ReadInt32(); bnr.BaseStream.Position = bnr.BaseStream.Position + 4; PrevOffset = Convert.ToInt32(bnr.BaseStream.Position); if (track.BufferSize != 0) { //MessageBox.Show("Track #" + j + " inside " + lmtentry.EntryName + "\nhas a buffer size that is NOT ZERO.", "Debug Note"); bnr.BaseStream.Position = track.BufferPointer; track.Buffer = bnr.ReadBytes(track.BufferSize); } else { track.Buffer = new byte[0]; } if (track.ExtremesPointer != 0) { //MessageBox.Show("Track # " + j + " inside " + lmtentry.EntryName + "\nhas an actual extremes pointer.", "Debug Note"); bnr.BaseStream.Position = Convert.ToInt32(track.ExtremesPointer); track.Extremes = new Extremes(); track.Extremes.min.W = bnr.ReadSingle(); track.Extremes.min.X = bnr.ReadSingle(); track.Extremes.min.Y = bnr.ReadSingle(); track.Extremes.min.Z = bnr.ReadSingle(); track.Extremes.max.W = bnr.ReadSingle(); track.Extremes.max.X = bnr.ReadSingle(); track.Extremes.max.Y = bnr.ReadSingle(); track.Extremes.max.Z = bnr.ReadSingle(); track.ExtremesArray[0] = track.Extremes.min.W; track.ExtremesArray[1] = track.Extremes.min.X; track.ExtremesArray[2] = track.Extremes.min.Y; track.ExtremesArray[3] = track.Extremes.min.Z; track.ExtremesArray[4] = track.Extremes.max.W; track.ExtremesArray[5] = track.Extremes.max.X; track.ExtremesArray[6] = track.Extremes.max.Y; track.ExtremesArray[7] = track.Extremes.max.Z; //Keyframes Take 1. IEnumerable <KeyFrame> Key = LMTM3ATrackBuffer.Convert(track.BufferType, track.Buffer, track.ExtremesArray, track.BoneID, track.BufferKind); M3a.KeyFrames.AddRange(Key.ToList()); } else { IEnumerable <KeyFrame> Key = LMTM3ATrackBuffer.Convert(track.BufferType, track.Buffer, track.ExtremesArray, track.BoneID, track.BufferKind); M3a.KeyFrames.AddRange(Key.ToList()); } bnr.BaseStream.Position = PrevOffset; M3a.Tracks.Add(track); } bnr.BaseStream.Position = M3a.EventClassesPointer; //Animation Events. M3a.Events = new List <AnimEvent>(); for (int k = 0; k < 4; k++) { AnimEvent animEvent = new AnimEvent(); for (int l = 0; l < 32; l++) { animEvent.EventRemap = new List <int>(); animEvent.EventRemap.Add(bnr.ReadInt16()); } animEvent.EventCount = bnr.ReadInt32(); bnr.BaseStream.Position = bnr.BaseStream.Position + 4; animEvent.EventsPointer = bnr.ReadInt32(); bnr.BaseStream.Position = bnr.BaseStream.Position + 4; PrevOffsetTwo = Convert.ToInt32(bnr.BaseStream.Position); bnr.BaseStream.Position = animEvent.EventsPointer; animEvent.EventBit = bnr.ReadInt32(); animEvent.FrameNumber = bnr.ReadInt32(); M3a.Events.Add(animEvent); bnr.BaseStream.Position = PrevOffsetTwo; } M3a.AnimationID = ID; M3a.FileName = "AnimationID" + M3a.AnimationID + ".m3a"; M3a.ShortName = "AnimationID" + M3a.AnimationID; M3a._IsBlank = false; Anim = M3a; //Subtracts pointers in there by the data offset to get their base value. int OffTemp = 0; using (MemoryStream msm3a = new MemoryStream(M3a.RawData)) { using (BinaryReader brm3a = new BinaryReader(msm3a)) { using (BinaryWriter bwm3a = new BinaryWriter(msm3a)) { //Adjusts the offsets in the Rawdata of the m3a. bwm3a.BaseStream.Position = 0; for (int y = 0; y < M3a.TrackCount; y++) { bwm3a.BaseStream.Position = 0; bwm3a.BaseStream.Position = 16 + (48 * y); OffTemp = brm3a.ReadInt32(); bwm3a.BaseStream.Position = (bwm3a.BaseStream.Position - 4); if (OffTemp > 0) { OffTemp = OffTemp - M3a.TrackPointer; bwm3a.Write(OffTemp); } bwm3a.BaseStream.Position = 40 + (48 * y); OffTemp = brm3a.ReadInt32(); bwm3a.BaseStream.Position = (bwm3a.BaseStream.Position - 4); if (OffTemp > 0) { OffTemp = OffTemp - M3a.TrackPointer; bwm3a.Write(OffTemp); } } //Adjusts the offsets in the Events. bwm3a.BaseStream.Position = (bwm3a.BaseStream.Length - 280); OffTemp = M3a.RawData.Length - 32; bwm3a.Write(OffTemp); bwm3a.BaseStream.Position = bwm3a.BaseStream.Position + 76; OffTemp = M3a.RawData.Length - 24; bwm3a.Write(OffTemp); bwm3a.BaseStream.Position = bwm3a.BaseStream.Position + 76; OffTemp = M3a.RawData.Length - 16; bwm3a.Write(OffTemp); bwm3a.BaseStream.Position = bwm3a.BaseStream.Position + 76; OffTemp = M3a.RawData.Length - 8; bwm3a.Write(OffTemp); } } } //Appends the Animation Block Data to the FullData. M3a.FullData = new byte[(M3a.AnimDataSize + 96)]; M3a._FileLength = M3a.FullData.LongLength; Array.Copy(M3a.RawData, 0, M3a.FullData, 0, M3a.RawData.Length); Array.Copy(M3a.MotionData, 0, M3a.FullData, M3a.RawData.Length, M3a.MotionData.Length); return(Anim); }
public static void TestFromKeyframesToM3A(LMTM3AEntry M3a) { LMTM3AEntry NewM3a = new LMTM3AEntry(); }