private IAWArray UnrollArray(ArrayList arr) { IAWArray iSFSArray = AWArray.NewInstance(); IEnumerator enumerator = arr.GetEnumerator(); try { while (enumerator.MoveNext()) { object current = enumerator.Current; AWDataWrapper sFSDataWrapper = this.WrapField(current); if (sFSDataWrapper == null) { throw new AWCodecError("Cannot serialize field of array: " + current + " -- unsupported type!"); } iSFSArray.Add(sFSDataWrapper); } } finally { IDisposable disposable; if ((disposable = (enumerator as IDisposable)) != null) { disposable.Dispose(); } } return(iSFSArray); }
private IAWObject UnrollDictionary(Hashtable dict) { IAWObject iSFSObject = AWObject.NewInstance(); IEnumerator enumerator = dict.Keys.GetEnumerator(); try { while (enumerator.MoveNext()) { string text = (string)enumerator.Current; AWDataWrapper sFSDataWrapper = this.WrapField(dict[text]); if (sFSDataWrapper == null) { throw new AWCodecError(string.Concat(new object[] { "Cannot serialize field of dictionary with key: ", text, ", ", dict[text], " -- unsupported type!" })); } iSFSObject.Put(text, sFSDataWrapper); } } finally { IDisposable disposable; if ((disposable = (enumerator as IDisposable)) != null) { disposable.Dispose(); } } return(iSFSObject); }
private ByteArray Arr2bin(IAWArray array, ByteArray buffer) { for (int i = 0; i < array.Size(); i++) { AWDataWrapper wrappedElementAt = array.GetWrappedElementAt(i); buffer = this.EncodeObject(buffer, wrappedElementAt.Type, wrappedElementAt.Data); } return(buffer); }
private ByteArray Obj2bin(IAWObject obj, ByteArray buffer) { string[] keys = obj.GetKeys(); string[] array = keys; for (int i = 0; i < array.Length; i++) { string text = array[i]; AWDataWrapper data = obj.GetData(text); buffer = this.EncodeSFSObjectKey(buffer, text); buffer = this.EncodeObject(buffer, data.Type, data.Data); } return(buffer); }
private void ConvertSFSObject(IAWArray fieldList, object csObj, Type objType) { for (int i = 0; i < fieldList.Size(); i++) { IAWObject sFSObject = fieldList.GetAWObject(i); string utfString = sFSObject.GetUtfString(DefaultAWDataSerializer.FIELD_NAME_KEY); AWDataWrapper data = sFSObject.GetData(DefaultAWDataSerializer.FIELD_VALUE_KEY); object value = this.UnwrapField(data); FieldInfo field = objType.GetField(utfString, BindingFlags.Instance | BindingFlags.Public | BindingFlags.NonPublic); if (field != null) { field.SetValue(csObj, value); } } }
private void ConvertCsObj(object csObj, IAWObject sfsObj) { Type type = csObj.GetType(); string fullName = type.FullName; if (!(csObj is SerializableAWType)) { throw new AWCodecError(string.Concat(new object[] { "Cannot serialize object: ", csObj, ", type: ", fullName, " -- It doesn't implement the SerializableAWType interface" })); } IAWArray iSFSArray = AWArray.NewInstance(); sfsObj.PutUtfString(DefaultAWDataSerializer.CLASS_MARKER_KEY, fullName); sfsObj.PutSFSArray(DefaultAWDataSerializer.CLASS_FIELDS_KEY, iSFSArray); FieldInfo[] fields = type.GetFields(BindingFlags.Instance | BindingFlags.Public | BindingFlags.NonPublic); FieldInfo[] array = fields; for (int i = 0; i < array.Length; i++) { FieldInfo fieldInfo = array[i]; string name = fieldInfo.Name; object value = fieldInfo.GetValue(csObj); IAWObject iSFSObject = AWObject.NewInstance(); AWDataWrapper sFSDataWrapper = this.WrapField(value); if (sFSDataWrapper == null) { throw new AWCodecError(string.Concat(new object[] { "Cannot serialize field of object: ", csObj, ", field: ", name, ", type: ", fieldInfo.GetType().Name, " -- unsupported type!" })); } iSFSObject.PutUtfString(DefaultAWDataSerializer.FIELD_NAME_KEY, name); iSFSObject.Put(DefaultAWDataSerializer.FIELD_VALUE_KEY, sFSDataWrapper); iSFSArray.AddSFSObject(iSFSObject); } }
private IAWObject DecodeSFSObject(ByteArray buffer) { AWObject sFSObject = AWObject.NewInstance(); byte b = buffer.ReadByte(); if (b != Convert.ToByte(18)) { throw new AWCodecError(string.Concat(new object[] { "Invalid AWDataType. Expected: ", AWDataType.SFS_OBJECT, ", found: ", b })); } int num = (int)buffer.ReadShort(); if (num < 0) { throw new AWCodecError("Can't decode AWObject. Size is negative: " + num); } try { for (int i = 0; i < num; i++) { string text = buffer.ReadUTF(); AWDataWrapper sFSDataWrapper = this.DecodeObject(buffer); if (sFSDataWrapper == null) { throw new AWCodecError("Could not decode value for AWObject with key: " + text); } sFSObject.Put(text, sFSDataWrapper); } } catch (AWCodecError sFSCodecError) { throw sFSCodecError; } return(sFSObject); }
private object UnwrapField(AWDataWrapper wrapper) { object result = null; int type = wrapper.Type; if (type <= 8) { result = wrapper.Data; } else { if (type == 17) { result = this.RebuildArray(wrapper.Data as IAWArray); } else { if (type == 18) { IAWObject iSFSObject = wrapper.Data as IAWObject; if (iSFSObject.ContainsKey(DefaultAWDataSerializer.CLASS_MARKER_KEY) && iSFSObject.ContainsKey(DefaultAWDataSerializer.CLASS_FIELDS_KEY)) { result = this.Sfs2Cs(iSFSObject); } else { result = this.RebuildDict(wrapper.Data as IAWObject); } } else { if (type == 19) { result = wrapper.Data; } } } } return(result); }
private IAWArray DecodeSFSArray(ByteArray buffer) { IAWArray iSFSArray = AWArray.NewInstance(); AWDataType sFSDataType = (AWDataType)Convert.ToInt32(buffer.ReadByte()); if (sFSDataType != AWDataType.SFS_ARRAY) { throw new AWCodecError(string.Concat(new object[] { "Invalid AWDataType. Expected: ", AWDataType.SFS_ARRAY, ", found: ", sFSDataType })); } int num = (int)buffer.ReadShort(); if (num < 0) { throw new AWCodecError("Can't decode AWArray. Size is negative: " + num); } try { for (int i = 0; i < num; i++) { AWDataWrapper sFSDataWrapper = this.DecodeObject(buffer); if (sFSDataWrapper == null) { throw new AWCodecError("Could not decode AWArray item at index: " + i); } iSFSArray.Add(sFSDataWrapper); } } catch (AWCodecError sFSCodecError) { throw sFSCodecError; } return(iSFSArray); }
private AWDataWrapper WrapField(object val) { AWDataWrapper result; if (val == null) { result = new AWDataWrapper(AWDataType.NULL, null); } else { AWDataWrapper sFSDataWrapper = null; if (val is bool) { sFSDataWrapper = new AWDataWrapper(AWDataType.BOOL, val); } else { if (val is byte) { sFSDataWrapper = new AWDataWrapper(AWDataType.BYTE, val); } else { if (val is short) { sFSDataWrapper = new AWDataWrapper(AWDataType.SHORT, val); } else { if (val is int) { sFSDataWrapper = new AWDataWrapper(AWDataType.INT, val); } else { if (val is long) { sFSDataWrapper = new AWDataWrapper(AWDataType.LONG, val); } else { if (val is float) { sFSDataWrapper = new AWDataWrapper(AWDataType.FLOAT, val); } else { if (val is double) { sFSDataWrapper = new AWDataWrapper(AWDataType.DOUBLE, val); } else { if (val is string) { sFSDataWrapper = new AWDataWrapper(AWDataType.UTF_STRING, val); } else { if (val is ArrayList) { sFSDataWrapper = new AWDataWrapper(AWDataType.SFS_ARRAY, this.UnrollArray(val as ArrayList)); } else { if (val is SerializableAWType) { sFSDataWrapper = new AWDataWrapper(AWDataType.SFS_OBJECT, this.Cs2Sfs(val)); } else { if (val is Hashtable) { sFSDataWrapper = new AWDataWrapper(AWDataType.SFS_OBJECT, this.UnrollDictionary(val as Hashtable)); } } } } } } } } } } } result = sFSDataWrapper; } return(result); }
private AWDataWrapper DecodeObject(ByteArray buffer) { AWDataType sFSDataType = (AWDataType)Convert.ToInt32(buffer.ReadByte()); AWDataWrapper result; if (sFSDataType == AWDataType.NULL) { result = this.BinDecode_NULL(buffer); } else { if (sFSDataType == AWDataType.BOOL) { result = this.BinDecode_BOOL(buffer); } else { if (sFSDataType == AWDataType.BOOL_ARRAY) { result = this.BinDecode_BOOL_ARRAY(buffer); } else { if (sFSDataType == AWDataType.BYTE) { result = this.BinDecode_BYTE(buffer); } else { if (sFSDataType == AWDataType.BYTE_ARRAY) { result = this.BinDecode_BYTE_ARRAY(buffer); } else { if (sFSDataType == AWDataType.SHORT) { result = this.BinDecode_SHORT(buffer); } else { if (sFSDataType == AWDataType.SHORT_ARRAY) { result = this.BinDecode_SHORT_ARRAY(buffer); } else { if (sFSDataType == AWDataType.INT) { result = this.BinDecode_INT(buffer); } else { if (sFSDataType == AWDataType.INT_ARRAY) { result = this.BinDecode_INT_ARRAY(buffer); } else { if (sFSDataType == AWDataType.LONG) { result = this.BinDecode_LONG(buffer); } else { if (sFSDataType == AWDataType.LONG_ARRAY) { result = this.BinDecode_LONG_ARRAY(buffer); } else { if (sFSDataType == AWDataType.FLOAT) { result = this.BinDecode_FLOAT(buffer); } else { if (sFSDataType == AWDataType.FLOAT_ARRAY) { result = this.BinDecode_FLOAT_ARRAY(buffer); } else { if (sFSDataType == AWDataType.DOUBLE) { result = this.BinDecode_DOUBLE(buffer); } else { if (sFSDataType == AWDataType.DOUBLE_ARRAY) { result = this.BinDecode_DOUBLE_ARRAY(buffer); } else { if (sFSDataType == AWDataType.UTF_STRING) { result = this.BinDecode_UTF_STRING(buffer); } else { if (sFSDataType == AWDataType.UTF_STRING_ARRAY) { result = this.BinDecode_UTF_STRING_ARRAY(buffer); } else { if (sFSDataType == AWDataType.SFS_ARRAY) { buffer.Position--; result = new AWDataWrapper(17, this.DecodeSFSArray(buffer)); } else { if (sFSDataType != AWDataType.SFS_OBJECT) { throw new Exception("Unknow AWDataType ID: " + sFSDataType); } buffer.Position--; IAWObject iSFSObject = this.DecodeSFSObject(buffer); byte type = Convert.ToByte(18); object data = iSFSObject; if (iSFSObject.ContainsKey(DefaultAWDataSerializer.CLASS_MARKER_KEY) && iSFSObject.ContainsKey(DefaultAWDataSerializer.CLASS_FIELDS_KEY)) { type = Convert.ToByte(19); data = this.Sfs2Cs(iSFSObject); } result = new AWDataWrapper((int)type, data); } } } } } } } } } } } } } } } } } } return(result); }