/// <summary> /// Reads map /// </summary> /// <param name="abstractHessianInput">HessianInput to read from</param> /// <returns>Read object or null</returns> public override object ReadMap(AbstractHessianInput abstractHessianInput) { var ds = new DataSet(); int refer = abstractHessianInput.AddRef(ds); while (!abstractHessianInput.IsEnd()) { var dt = new DataTable(); if (abstractHessianInput.ReadMapStart() == CHessian2Constants.BC_MAP) { abstractHessianInput.ReadType(); } dt.TableName = abstractHessianInput.ReadString(); while (!abstractHessianInput.IsEnd()) { var columnName = abstractHessianInput.ReadString(); var typeFullName = abstractHessianInput.ReadString(); var type = Type.GetType(typeFullName); dt.Columns.Add(new DataColumn(columnName, type)); } abstractHessianInput.ReadEnd(); if (abstractHessianInput.ReadMapStart() == CHessian2Constants.BC_MAP) { abstractHessianInput.ReadType(); } while (!abstractHessianInput.IsEnd()) { ArrayList objects = new ArrayList(); if (abstractHessianInput.ReadMapStart() == CHessian2Constants.BC_MAP) { abstractHessianInput.ReadType(); } while (!abstractHessianInput.IsEnd()) { var obj = abstractHessianInput.ReadObject(); objects.Add(obj); } abstractHessianInput.ReadEnd(); var row = dt.NewRow(); row.ItemArray = objects.ToArray(); dt.Rows.Add(row); } abstractHessianInput.ReadEnd(); ds.Tables.Add(dt); } abstractHessianInput.ReadEnd(); return(ds); }
/// <summary> /// Reads objects as list /// <see cref="ReadList(AbstractHessianInput,int)"/> /// </summary> /// <param name="abstractHessianInput">HessianInput - Instance</param> /// <returns>List instance</returns> public override object ReadObject(AbstractHessianInput abstractHessianInput) { int intCode = abstractHessianInput.ReadListStart(); switch (intCode) { case CHessianInput.PROT_NULL: return(null); case CHessianInput.PROT_REF_TYPE: return(abstractHessianInput.ReadRef()); } String strType = abstractHessianInput.ReadType(); int intLength = abstractHessianInput.ReadLength(); return(ReadList(abstractHessianInput, intLength)); }
//public new Type GetType() //{ // switch (m_intCode) // { // case BOOLEAN: // return typeof(bool); // case BYTE: // return typeof(byte); // case SHORT: // return typeof(short); // case INTEGER: // return typeof(int); // case LONG: // return typeof(long); // case FLOAT: // return typeof(float); // case DOUBLE: // return typeof(double); // case CHARACTER: // return typeof(char); // case STRING: // return typeof(string); // case DATE: // return typeof(DateTime); // case BOOLEAN_ARRAY: // return typeof(bool[]); // case BYTE_ARRAY: // return typeof(byte[]); // case SHORT_ARRAY: // return typeof(short[]); // case INTEGER_ARRAY: // return typeof(int[]); // case LONG_ARRAY: // return typeof(long[]); // case FLOAT_ARRAY: // return typeof(float[]); // case DOUBLE_ARRAY: // return typeof(double[]); // case CHARACTER_ARRAY: // return typeof(char[]); // case STRING_ARRAY: // return typeof(string[]); // case OBJECT_ARRAY: // return typeof(object[]); // default: // throw new InvalidOperationException(); // } //} #region PUBLIC_METHODS /// <summary> /// Reads the basic (primitive & Date ) data types /// and arrays of them /// </summary> /// <param name="abstractHessianInput">Hessian Input instance</param> /// <exception cref="CHessianException"/> /// <returns>Read object</returns> public override object ReadObject(AbstractHessianInput abstractHessianInput) { switch (m_intCode) { case CSerializationConstants.NULL: { // hessian/3490 abstractHessianInput.ReadObject(); return(null); } case BOOLEAN: return(abstractHessianInput.ReadBoolean()); case BYTE: return((byte)abstractHessianInput.ReadInt()); case SBYTE: return((sbyte)abstractHessianInput.ReadInt()); case FLOAT: return((float)abstractHessianInput.ReadDouble()); case SHORT: return((short)abstractHessianInput.ReadInt()); case INTEGER: return(abstractHessianInput.ReadInt()); case LONG: return(abstractHessianInput.ReadLong()); case DOUBLE: return(abstractHessianInput.ReadDouble()); case STRING: return(abstractHessianInput.ReadString()); case CHARACTER: { //int charResult = abstractHessianInput.ReadInt(); //return (char)charResult; //Bei caucho ist hier ein Bug //TODO:Test string strResult = abstractHessianInput.ReadString(); if (strResult == null || strResult.Length == 0) { return(null); } else { return(strResult[0]); } } case BOOLEAN_ARRAY: case SHORT_ARRAY: case INTEGER_ARRAY: case SBYTE_ARRAY: case LONG_ARRAY: case FLOAT_ARRAY: case DOUBLE_ARRAY: case STRING_ARRAY: { int code = abstractHessianInput.ReadListStart(); switch (code) { case 'N': return(null); case 0x10: case 0x11: case 0x12: case 0x13: case 0x14: case 0x15: case 0x16: case 0x17: case 0x18: case 0x19: case 0x1a: case 0x1b: case 0x1c: case 0x1d: case 0x1e: case 0x1f: int length = code - 0x10; abstractHessianInput.ReadInt(); return(ReadLengthList(abstractHessianInput, length)); default: String type = abstractHessianInput.ReadType(); length = abstractHessianInput.ReadLength(); return(ReadList(abstractHessianInput, length)); } } case BYTE_ARRAY: return(abstractHessianInput.ReadBytes()); case CHARACTER_ARRAY: { string strResult = abstractHessianInput.ReadString(); if (strResult == null) { return(null); } else { int intLength = strResult.Length; char[] arrChars = new char[intLength]; arrChars = strResult.ToCharArray(); return(arrChars); } } case DATE: long javaTime = abstractHessianInput.ReadUTCDate(); const long timeShift = 62135596800000; DateTime dt = new DateTime((javaTime + timeShift) * 10000, DateTimeKind.Utc); dt = dt.ToLocalTime(); // der Einfachheit halber return(dt); default: throw new CHessianException("not supperted type for deserialization"); } }