public async Task ReadAsync(TProtocol iprot, CancellationToken cancellationToken) { iprot.IncrementRecursionDepth(); try { TField field; await iprot.ReadStructBeginAsync(cancellationToken); while (true) { field = await iprot.ReadFieldBeginAsync(cancellationToken); if (field.Type == TType.Stop) { break; } switch (field.ID) { case 1: if (field.Type == TType.String) { ColumnName = await iprot.ReadBinaryAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 2: if (field.Type == TType.Struct) { Cell = new TCell(); await Cell.ReadAsync(iprot, cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; default: await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); break; } await iprot.ReadFieldEndAsync(cancellationToken); } await iprot.ReadStructEndAsync(cancellationToken); } finally { iprot.DecrementRecursionDepth(); } }
public void Read(TProtocol iprot) { TField field; TStruct struc = iprot.ReadStructBegin(); while (true) { field = iprot.ReadFieldBegin(); if (field.Type == TType.Stop) { break; } switch (field.ID) { case 1: if (field.Type == TType.String) { this.row = iprot.ReadBinary(); this.__isset.row = true; } else { TProtocolUtil.Skip(iprot, field.Type); } break; case 2: if (field.Type == TType.Map) { { this.columns = new Dictionary<byte[], TCell>(); TMap _map4 = iprot.ReadMapBegin(); for( int _i5 = 0; _i5 < _map4.Count; ++_i5) { byte[] _key6; TCell _val7; _key6 = iprot.ReadBinary(); _val7 = new TCell(); _val7.Read(iprot); this.columns[_key6] = _val7; } iprot.ReadMapEnd(); } this.__isset.columns = true; } else { TProtocolUtil.Skip(iprot, field.Type); } break; default: TProtocolUtil.Skip(iprot, field.Type); break; } iprot.ReadFieldEnd(); } iprot.ReadStructEnd(); }
public async Task ReadAsync(TProtocol iprot, CancellationToken cancellationToken) { iprot.IncrementRecursionDepth(); try { TField field; await iprot.ReadStructBeginAsync(cancellationToken); while (true) { field = await iprot.ReadFieldBeginAsync(cancellationToken); if (field.Type == TType.Stop) { break; } switch (field.ID) { case 1: if (field.Type == TType.String) { Row = await iprot.ReadBinaryAsync(cancellationToken); } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 2: if (field.Type == TType.Map) { { TMap _map4 = await iprot.ReadMapBeginAsync(cancellationToken); Columns = new Dictionary <byte[], TCell>(_map4.Count); for (int _i5 = 0; _i5 < _map4.Count; ++_i5) { byte[] _key6; TCell _val7; _key6 = await iprot.ReadBinaryAsync(cancellationToken); _val7 = new TCell(); await _val7.ReadAsync(iprot, cancellationToken); Columns[_key6] = _val7; } await iprot.ReadMapEndAsync(cancellationToken); } } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; case 3: if (field.Type == TType.List) { { TList _list8 = await iprot.ReadListBeginAsync(cancellationToken); SortedColumns = new List <TColumn>(_list8.Count); for (int _i9 = 0; _i9 < _list8.Count; ++_i9) { TColumn _elem10; _elem10 = new TColumn(); await _elem10.ReadAsync(iprot, cancellationToken); SortedColumns.Add(_elem10); } await iprot.ReadListEndAsync(cancellationToken); } } else { await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); } break; default: await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken); break; } await iprot.ReadFieldEndAsync(cancellationToken); } await iprot.ReadStructEndAsync(cancellationToken); } finally { iprot.DecrementRecursionDepth(); } }
public void Read(TProtocol iprot) { TField field; TStruct struc = iprot.ReadStructBegin(); while (true) { field = iprot.ReadFieldBegin(); if (field.Type == TType.Stop) { break; } switch (field.ID) { case 0: if (field.Type == TType.Struct) { this.success = new TCell(); this.success.Read(iprot); this.__isset.success = true; } else { TProtocolUtil.Skip(iprot, field.Type); } break; case 1: if (field.Type == TType.Struct) { this.io = new IOError(); this.io.Read(iprot); this.__isset.io = true; } else { TProtocolUtil.Skip(iprot, field.Type); } break; case 2: if (field.Type == TType.Struct) { this.nf = new NotFound(); this.nf.Read(iprot); this.__isset.nf = true; } else { TProtocolUtil.Skip(iprot, field.Type); } break; default: TProtocolUtil.Skip(iprot, field.Type); break; } iprot.ReadFieldEnd(); } iprot.ReadStructEnd(); }
public void Read(TProtocol iprot) { TField field; TStruct struc = iprot.ReadStructBegin(); while (true) { field = iprot.ReadFieldBegin(); if (field.Type == TType.Stop) { break; } switch (field.ID) { case 0: if (field.Type == TType.List) { { this.success = new List<TCell>(); TList _list26 = iprot.ReadListBegin(); for( int _i27 = 0; _i27 < _list26.Count; ++_i27) { TCell _elem28 = new TCell(); _elem28 = new TCell(); _elem28.Read(iprot); this.success.Add(_elem28); } iprot.ReadListEnd(); } this.__isset.success = true; } else { TProtocolUtil.Skip(iprot, field.Type); } break; case 1: if (field.Type == TType.Struct) { this.io = new IOError(); this.io.Read(iprot); this.__isset.io = true; } else { TProtocolUtil.Skip(iprot, field.Type); } break; case 2: if (field.Type == TType.Struct) { this.nf = new NotFound(); this.nf.Read(iprot); this.__isset.nf = true; } else { TProtocolUtil.Skip(iprot, field.Type); } break; default: TProtocolUtil.Skip(iprot, field.Type); break; } iprot.ReadFieldEnd(); } iprot.ReadStructEnd(); }