public void ReadFromFile(BinaryReader reader) { version = reader.ReadInt32(); unk1 = reader.ReadInt32(); unk2 = reader.ReadInt16(); bounds = BoundingBoxExtenders.ReadFromFile(reader); numGrids = reader.ReadInt32(); Grids = new Grid[numGrids]; for (int i = 0; i < numGrids; i++) { Grid grid = new Grid(); grid.Key = reader.ReadInt16(); grid.Origin = Vector3Extenders.ReadFromFile(reader); grid.CellSize = Vector2Extenders.ReadFromFile(reader); grid.Width = reader.ReadInt32(); grid.Height = reader.ReadInt32(); grid.Data = new ushort[grid.Width * grid.Height]; for (int y = 0; y != grid.Data.Length; y++) { grid.Data[y] = reader.ReadUInt16(); } Grids[i] = grid; } numUnk3 = reader.ReadInt32(); unk3 = new short[numUnk3 * 2]; for (int i = 0; i < numUnk3 * 2; i++) { unk3[i] = reader.ReadInt16(); } numObjectGroups = reader.ReadInt32(); ObjectGroups = new ObjectGroup[numObjectGroups]; for (int i = 0; i != numObjectGroups; i++) { ObjectGroup objectGroup = new ObjectGroup(); objectGroup.Unk01 = reader.ReadInt16(); objectGroup.NumObjects = reader.ReadInt32(); objectGroup.Objects = new Object[objectGroup.NumObjects]; for (int x = 0; x != objectGroup.NumObjects; x++) { Object obj = new Object(); obj.NumInstance2 = reader.ReadInt16(); obj.Unk02 = reader.ReadInt16(); obj.Name = new HashName(); ulong hashvalue = reader.ReadUInt64(); obj.Name.Hash = hashvalue; obj.Name.String = StringHelpers.ReadString(reader); Debug.Assert(obj.Name.Hash == hashvalue, "Object Hash and Name should be identical"); obj.UnkBytes1 = reader.ReadBytes(31 - obj.Name.ToString().Length); obj.GridMax = reader.ReadSingle(); obj.GridMin = reader.ReadSingle(); obj.NumInstances = reader.ReadInt32(); obj.Instances = new Instance[obj.NumInstances]; for (int y = 0; y != obj.NumInstances; y++) { byte[] packed = reader.ReadBytes(14); Instance instance = new Instance(); instance.W0 = BitConverter.ToUInt16(packed, 0); instance.W1 = BitConverter.ToUInt16(packed, 2); instance.W2 = BitConverter.ToUInt16(packed, 4); instance.D5 = BitConverter.ToInt32(packed, 6); instance.ID = BitConverter.ToUInt16(packed, 10); instance.D4 = BitConverter.ToUInt16(packed, 12); DecompressScale(instance); DecompressRotation(instance); instance.Position = DecompressPosition(packed, instance, bounds.Minimum, bounds.Maximum); obj.Instances[y] = instance; } objectGroup.Objects[x] = obj; } ObjectGroups[i] = objectGroup; } }
public void ReadFromFile(BinaryReader reader) { version = reader.ReadInt32(); unk1 = reader.ReadInt32(); unk2 = reader.ReadInt16(); bounds = BoundingBoxExtenders.ReadFromFile(reader); numGrids = reader.ReadInt32(); Grids = new Grid[numGrids]; for (int i = 0; i < numGrids; i++) { Grid grid = new Grid(); grid.Key = reader.ReadInt16(); grid.Origin = Vector3Extenders.ReadFromFile(reader); grid.CellSize = Vector2Extenders.ReadFromFile(reader); grid.Width = reader.ReadInt32(); grid.Height = reader.ReadInt32(); grid.Data = new ushort[grid.Width * grid.Height]; for (int y = 0; y != grid.Data.Length; y++) { grid.Data[y] = reader.ReadUInt16(); } Grids[i] = grid; } numUnk3 = reader.ReadInt32(); unk3 = new short[numUnk3 * 2]; for (int i = 0; i < numUnk3 * 2; i++) { unk3[i] = reader.ReadInt16(); } numObjectGroups = reader.ReadInt32(); ObjectGroups = new ObjectGroup[numObjectGroups]; for (int i = 0; i != numObjectGroups; i++) { ObjectGroup objectGroup = new ObjectGroup(); objectGroup.Unk01 = reader.ReadInt16(); objectGroup.NumObjects = reader.ReadInt32(); objectGroup.Objects = new Object[objectGroup.NumObjects]; for (int x = 0; x != objectGroup.NumObjects; x++) { Object obj = new Object(); obj.NumInstance2 = reader.ReadInt16(); obj.Unk02 = reader.ReadInt16(); obj.Hash = reader.ReadUInt64(); obj.Name = StringHelpers.ReadString(reader); obj.UnkBytes1 = reader.ReadBytes(31 - obj.Name.Length); obj.GridMax = reader.ReadSingle(); obj.GridMin = reader.ReadSingle(); obj.NumInstances = reader.ReadInt32(); obj.Instances = new Instance[obj.NumInstances]; for (int y = 0; y != obj.NumInstances; y++) { byte[] packed = reader.ReadBytes(14); Instance instance = new Instance(); instance.W0 = BitConverter.ToUInt16(packed, 0); instance.W1 = BitConverter.ToUInt16(packed, 2); instance.W2 = BitConverter.ToUInt16(packed, 4); instance.D5 = BitConverter.ToInt32(packed, 6); instance.ID = BitConverter.ToUInt16(packed, 10); instance.D4 = BitConverter.ToUInt16(packed, 12); if (!IDs.Contains(instance.ID)) { IDs.Add(instance.ID); } else { Console.WriteLine("Duplication!! {0} {1}", obj.Name, instance.ID); } DecompressScale(instance); DecompressRotation(instance); instance.Position = DecompressPosition(packed, instance, bounds.Minimum, bounds.Maximum); obj.Instances[y] = instance; } objectGroup.Objects[x] = obj; } ObjectGroups[i] = objectGroup; } IDs.Sort(); }