private void TypeTreeBlobRead(List <TypeTreeNode> typeTree) { int numberOfNodes = reader.ReadInt32(); int stringBufferSize = reader.ReadInt32(); for (int i = 0; i < numberOfNodes; i++) { var typeTreeNode = new TypeTreeNode(); typeTree.Add(typeTreeNode); typeTreeNode.m_Version = reader.ReadUInt16(); typeTreeNode.m_Level = reader.ReadByte(); typeTreeNode.m_IsArray = reader.ReadBoolean() ? 1 : 0; typeTreeNode.m_TypeStrOffset = reader.ReadUInt32(); typeTreeNode.m_NameStrOffset = reader.ReadUInt32(); typeTreeNode.m_ByteSize = reader.ReadInt32(); typeTreeNode.m_Index = reader.ReadInt32(); typeTreeNode.m_MetaFlag = reader.ReadInt32(); if (header.m_Version >= 19) { typeTreeNode.m_RefTypeHash = reader.ReadUInt64(); } } var m_StringBuffer = reader.ReadBytes(stringBufferSize); using (var stringBufferReader = new BinaryReader(new MemoryStream(m_StringBuffer))) { for (int i = 0; i < numberOfNodes; i++) { var typeTreeNode = typeTree[i]; typeTreeNode.m_Type = ReadString(stringBufferReader, typeTreeNode.m_TypeStrOffset); typeTreeNode.m_Name = ReadString(stringBufferReader, typeTreeNode.m_NameStrOffset); } } string ReadString(BinaryReader stringBufferReader, uint value) { var isOffset = (value & 0x80000000) == 0; if (isOffset) { stringBufferReader.BaseStream.Position = value; return(stringBufferReader.ReadStringToNull()); } var offset = value & 0x7FFFFFFF; if (CommonString.StringBuffer.TryGetValue(offset, out var str)) { return(str); } return(offset.ToString()); } }
private void TypeTreeBlobRead(TypeTree m_Type) { int numberOfNodes = reader.ReadInt32(); int stringBufferSize = reader.ReadInt32(); for (int i = 0; i < numberOfNodes; i++) { var typeTreeNode = new TypeTreeNode(); m_Type.m_Nodes.Add(typeTreeNode); typeTreeNode.m_Version = reader.ReadUInt16(); typeTreeNode.m_Level = reader.ReadByte(); typeTreeNode.m_TypeFlags = reader.ReadByte(); typeTreeNode.m_TypeStrOffset = reader.ReadUInt32(); typeTreeNode.m_NameStrOffset = reader.ReadUInt32(); typeTreeNode.m_ByteSize = reader.ReadInt32(); typeTreeNode.m_Index = reader.ReadInt32(); typeTreeNode.m_MetaFlag = reader.ReadInt32(); if (header.m_Version >= SerializedFileFormatVersion.kTypeTreeNodeWithTypeFlags) { typeTreeNode.m_RefTypeHash = reader.ReadUInt64(); } } m_Type.m_StringBuffer = reader.ReadBytes(stringBufferSize); using (var stringBufferReader = new BinaryReader(new MemoryStream(m_Type.m_StringBuffer))) { for (int i = 0; i < numberOfNodes; i++) { var m_Node = m_Type.m_Nodes[i]; m_Node.m_Type = ReadString(stringBufferReader, m_Node.m_TypeStrOffset); m_Node.m_Name = ReadString(stringBufferReader, m_Node.m_NameStrOffset); } } string ReadString(BinaryReader stringBufferReader, uint value) { var isOffset = (value & 0x80000000) == 0; if (isOffset) { stringBufferReader.BaseStream.Position = value; return(stringBufferReader.ReadStringToNull()); } var offset = value & 0x7FFFFFFF; if (CommonString.StringBuffer.TryGetValue(offset, out var str)) { return(str); } return(offset.ToString()); } }
private static object ReadValue(List <TypeTree> members, EndianBinaryReader reader, ref int i) { var member = members[i]; var level = member.m_Depth; var varTypeStr = member.m_Type; object value; var align = (member.m_MetaFlag & 0x4000) != 0; switch (varTypeStr) { case "SInt8": value = reader.ReadSByte(); break; case "UInt8": value = reader.ReadByte(); break; case "short": case "SInt16": value = reader.ReadInt16(); break; case "UInt16": case "unsigned short": value = reader.ReadUInt16(); break; case "int": case "SInt32": value = reader.ReadInt32(); break; case "UInt32": case "unsigned int": case "Type*": value = reader.ReadUInt32(); break; case "long long": case "SInt64": value = reader.ReadInt64(); break; case "UInt64": case "unsigned long long": value = reader.ReadUInt64(); break; case "float": value = reader.ReadSingle(); break; case "double": value = reader.ReadDouble(); break; case "bool": value = reader.ReadBoolean(); break; case "string": value = reader.ReadAlignedString(); i += 3; break; case "vector": { if ((members[i + 1].m_MetaFlag & 0x4000) != 0) { align = true; } var size = reader.ReadInt32(); var list = new List <object>(size); var vector = GetMembers(members, level, i); i += vector.Count - 1; vector.RemoveRange(0, 3); for (int j = 0; j < size; j++) { int tmp = 0; list.Add(ReadValue(vector, reader, ref tmp)); } value = list; break; } case "map": { if ((members[i + 1].m_MetaFlag & 0x4000) != 0) { align = true; } var size = reader.ReadInt32(); var dic = new List <KeyValuePair <object, object> >(size); var map = GetMembers(members, level, i); i += map.Count - 1; map.RemoveRange(0, 4); var first = GetMembers(map, map[0].m_Depth, 0); map.RemoveRange(0, first.Count); var second = map; for (int j = 0; j < size; j++) { int tmp1 = 0; int tmp2 = 0; dic.Add(new KeyValuePair <object, object>(ReadValue(first, reader, ref tmp1), ReadValue(second, reader, ref tmp2))); } value = dic; break; } case "TypelessData": { var size = reader.ReadInt32(); value = reader.ReadBytes(size); i += 2; break; } default: { if (i != members.Count && members[i + 1].m_Type == "Array") { goto case "vector"; } var @class = GetMembers(members, level, i); @class.RemoveAt(0); i += @class.Count; var obj = new ExpandoObject(); var objdic = (IDictionary <string, object>)obj; for (int j = 0; j < @class.Count; j++) { var classmember = @class[j]; var name = classmember.m_Name; objdic[name] = ReadValue(@class, reader, ref j); } value = obj; break; } } if (align) { reader.AlignStream(4); } return(value); }
private static void ReadStringValue(StringBuilder sb, List <TypeTree> members, EndianBinaryReader reader, ref int i) { var member = members[i]; var level = member.m_Depth; var varTypeStr = member.m_Type; var varNameStr = member.m_Name; object value = null; var append = true; var align = (member.m_MetaFlag & 0x4000) != 0; switch (varTypeStr) { case "SInt8": value = reader.ReadSByte(); break; case "UInt8": value = reader.ReadByte(); break; case "short": case "SInt16": value = reader.ReadInt16(); break; case "UInt16": case "unsigned short": value = reader.ReadUInt16(); break; case "int": case "SInt32": value = reader.ReadInt32(); break; case "UInt32": case "unsigned int": case "Type*": value = reader.ReadUInt32(); break; case "long long": case "SInt64": value = reader.ReadInt64(); break; case "UInt64": case "unsigned long long": value = reader.ReadUInt64(); break; case "float": value = reader.ReadSingle(); break; case "double": value = reader.ReadDouble(); break; case "bool": value = reader.ReadBoolean(); break; case "string": append = false; var str = reader.ReadAlignedString(); sb.AppendFormat("{0}{1} {2} = \"{3}\"\r\n", (new string('\t', level)), varTypeStr, varNameStr, str); i += 3; break; case "vector": { if ((members[i + 1].m_MetaFlag & 0x4000) != 0) { align = true; } append = false; sb.AppendFormat("{0}{1} {2}\r\n", (new string('\t', level)), varTypeStr, varNameStr); sb.AppendFormat("{0}{1} {2}\r\n", (new string('\t', level + 1)), "Array", "Array"); var size = reader.ReadInt32(); sb.AppendFormat("{0}{1} {2} = {3}\r\n", (new string('\t', level + 1)), "int", "size", size); var vector = GetMembers(members, level, i); i += vector.Count - 1; vector.RemoveRange(0, 3); for (int j = 0; j < size; j++) { sb.AppendFormat("{0}[{1}]\r\n", (new string('\t', level + 2)), j); int tmp = 0; ReadStringValue(sb, vector, reader, ref tmp); } break; } case "map": { if ((members[i + 1].m_MetaFlag & 0x4000) != 0) { align = true; } append = false; sb.AppendFormat("{0}{1} {2}\r\n", (new string('\t', level)), varTypeStr, varNameStr); sb.AppendFormat("{0}{1} {2}\r\n", (new string('\t', level + 1)), "Array", "Array"); var size = reader.ReadInt32(); sb.AppendFormat("{0}{1} {2} = {3}\r\n", (new string('\t', level + 1)), "int", "size", size); var map = GetMembers(members, level, i); i += map.Count - 1; map.RemoveRange(0, 4); var first = GetMembers(map, map[0].m_Depth, 0); map.RemoveRange(0, first.Count); var second = map; for (int j = 0; j < size; j++) { sb.AppendFormat("{0}[{1}]\r\n", (new string('\t', level + 2)), j); sb.AppendFormat("{0}{1} {2}\r\n", (new string('\t', level + 2)), "pair", "data"); int tmp1 = 0; int tmp2 = 0; ReadStringValue(sb, first, reader, ref tmp1); ReadStringValue(sb, second, reader, ref tmp2); } break; } case "TypelessData": { append = false; var size = reader.ReadInt32(); reader.ReadBytes(size); i += 2; sb.AppendFormat("{0}{1} {2}\r\n", (new string('\t', level)), varTypeStr, varNameStr); sb.AppendFormat("{0}{1} {2} = {3}\r\n", (new string('\t', level)), "int", "size", size); break; } default: { if (i != members.Count && members[i + 1].m_Type == "Array") { goto case "vector"; } append = false; sb.AppendFormat("{0}{1} {2}\r\n", (new string('\t', level)), varTypeStr, varNameStr); var @class = GetMembers(members, level, i); @class.RemoveAt(0); i += @class.Count; for (int j = 0; j < @class.Count; j++) { ReadStringValue(sb, @class, reader, ref j); } break; } } if (append) { sb.AppendFormat("{0}{1} {2} = {3}\r\n", (new string('\t', level)), varTypeStr, varNameStr, value); } if (align) { reader.AlignStream(4); } }
public static void ReadClassStruct(StringBuilder sb, List <ClassMember> members, EndianBinaryReader reader) { for (int i = 0; i < members.Count; i++) { var member = members[i]; var level = member.Level; var varTypeStr = member.Type; var varNameStr = member.Name; object value = null; var align = (member.Flag & 0x4000) != 0; var append = true; if (member.alignBefore) { reader.AlignStream(4); } switch (varTypeStr) { case "SInt8": value = reader.ReadSByte(); break; case "UInt8": value = reader.ReadByte(); break; case "short": case "SInt16": value = reader.ReadInt16(); break; case "UInt16": case "unsigned short": value = reader.ReadUInt16(); break; case "int": case "SInt32": value = reader.ReadInt32(); break; case "UInt32": case "unsigned int": case "Type*": value = reader.ReadUInt32(); break; case "long long": case "SInt64": value = reader.ReadInt64(); break; case "UInt64": case "unsigned long long": value = reader.ReadUInt64(); break; case "float": value = reader.ReadSingle(); break; case "double": value = reader.ReadDouble(); break; case "bool": value = reader.ReadBoolean(); break; case "string": append = false; var str = reader.ReadAlignedString(); sb.AppendFormat("{0}{1} {2} = \"{3}\"\r\n", (new string('\t', level)), varTypeStr, varNameStr, str); i += 3; //skip break; case "Array": { append = false; if ((members[i - 1].Flag & 0x4000) != 0) { align = true; } sb.AppendFormat("{0}{1} {2}\r\n", (new string('\t', level)), varTypeStr, varNameStr); var size = reader.ReadInt32(); sb.AppendFormat("{0}{1} {2} = {3}\r\n", (new string('\t', level)), "int", "size", size); var array = ReadArray(members, level, i); for (int j = 0; j < size; j++) { sb.AppendFormat("{0}[{1}]\r\n", (new string('\t', level + 1)), j); ReadClassStruct(sb, array, reader); } i += array.Count + 1; //skip break; } case "TypelessData": { append = false; var size = reader.ReadInt32(); reader.ReadBytes(size); i += 2; sb.AppendFormat("{0}{1} {2}\r\n", (new string('\t', level)), varTypeStr, varNameStr); sb.AppendFormat("{0}{1} {2} = {3}\r\n", (new string('\t', level)), "int", "size", size); break; } default: append = false; if (align) { align = false; SetAlignBefore(members, level, i + 1); } sb.AppendFormat("{0}{1} {2}\r\n", (new string('\t', level)), varTypeStr, varNameStr); break; } if (append) { sb.AppendFormat("{0}{1} {2} = {3}\r\n", (new string('\t', level)), varTypeStr, varNameStr, value); } if (align) { reader.AlignStream(4); } } }