public async Task ReadAsync(TProtocol iprot, CancellationToken cancellationToken)
{
iprot.IncrementRecursionDepth();
try
{
bool isset_row = false;
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);
isset_row = true;
}
else
{
await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken);
}
break;
case 2:
if (field.Type == TType.List)
{
{
Columns = new List <TColumn>();
TList _list8 = await iprot.ReadListBeginAsync(cancellationToken);
for (int _i9 = 0; _i9 < _list8.Count; ++_i9)
{
TColumn _elem10;
_elem10 = new TColumn();
await _elem10.ReadAsync(iprot, cancellationToken);
Columns.Add(_elem10);
}
await iprot.ReadListEndAsync(cancellationToken);
}
}
else
{
await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken);
}
break;
case 3:
if (field.Type == TType.I64)
{
Timestamp = await iprot.ReadI64Async(cancellationToken);
}
else
{
await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken);
}
break;
case 4:
if (field.Type == TType.Struct)
{
TimeRange = new TTimeRange();
await TimeRange.ReadAsync(iprot, cancellationToken);
}
else
{
await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken);
}
break;
case 5:
if (field.Type == TType.I32)
{
MaxVersions = await iprot.ReadI32Async(cancellationToken);
}
else
{
await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken);
}
break;
case 6:
if (field.Type == TType.String)
{
FilterString = await iprot.ReadBinaryAsync(cancellationToken);
}
else
{
await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken);
}
break;
case 7:
if (field.Type == TType.Map)
{
{
Attributes = new Dictionary <byte[], byte[]>();
TMap _map11 = await iprot.ReadMapBeginAsync(cancellationToken);
for (int _i12 = 0; _i12 < _map11.Count; ++_i12)
{
byte[] _key13;
byte[] _val14;
_key13 = await iprot.ReadBinaryAsync(cancellationToken);
_val14 = await iprot.ReadBinaryAsync(cancellationToken);
Attributes[_key13] = _val14;
}
await iprot.ReadMapEndAsync(cancellationToken);
}
}
else
{
await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken);
}
break;
case 8:
if (field.Type == TType.Struct)
{
Authorizations = new TAuthorization();
await Authorizations.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);
if (!isset_row)
{
throw new TProtocolException(TProtocolException.INVALID_DATA);
}
}
finally
{
iprot.DecrementRecursionDepth();
}
}
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)
{
StartRow = await iprot.ReadBinaryAsync(cancellationToken);
}
else
{
await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken);
}
break;
case 2:
if (field.Type == TType.String)
{
StopRow = await iprot.ReadBinaryAsync(cancellationToken);
}
else
{
await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken);
}
break;
case 3:
if (field.Type == TType.List)
{
{
Columns = new List <TColumn>();
TList _list53 = await iprot.ReadListBeginAsync(cancellationToken);
for (int _i54 = 0; _i54 < _list53.Count; ++_i54)
{
TColumn _elem55;
_elem55 = new TColumn();
await _elem55.ReadAsync(iprot, cancellationToken);
Columns.Add(_elem55);
}
await iprot.ReadListEndAsync(cancellationToken);
}
}
else
{
await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken);
}
break;
case 4:
if (field.Type == TType.I32)
{
Caching = await iprot.ReadI32Async(cancellationToken);
}
else
{
await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken);
}
break;
case 5:
if (field.Type == TType.I32)
{
MaxVersions = await iprot.ReadI32Async(cancellationToken);
}
else
{
await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken);
}
break;
case 6:
if (field.Type == TType.Struct)
{
TimeRange = new TTimeRange();
await TimeRange.ReadAsync(iprot, cancellationToken);
}
else
{
await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken);
}
break;
case 7:
if (field.Type == TType.String)
{
FilterString = await iprot.ReadBinaryAsync(cancellationToken);
}
else
{
await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken);
}
break;
case 8:
if (field.Type == TType.I32)
{
BatchSize = await iprot.ReadI32Async(cancellationToken);
}
else
{
await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken);
}
break;
case 9:
if (field.Type == TType.Map)
{
{
Attributes = new Dictionary <byte[], byte[]>();
TMap _map56 = await iprot.ReadMapBeginAsync(cancellationToken);
for (int _i57 = 0; _i57 < _map56.Count; ++_i57)
{
byte[] _key58;
byte[] _val59;
_key58 = await iprot.ReadBinaryAsync(cancellationToken);
_val59 = await iprot.ReadBinaryAsync(cancellationToken);
Attributes[_key58] = _val59;
}
await iprot.ReadMapEndAsync(cancellationToken);
}
}
else
{
await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken);
}
break;
case 10:
if (field.Type == TType.Struct)
{
Authorizations = new TAuthorization();
await Authorizations.ReadAsync(iprot, cancellationToken);
}
else
{
await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken);
}
break;
case 11:
if (field.Type == TType.Bool)
{
Reversed = await iprot.ReadBoolAsync(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 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)
{
{
Columns = new Dictionary <byte[], TCell>();
TMap _map4 = await iprot.ReadMapBeginAsync(cancellationToken);
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)
{
{
SortedColumns = new List <TColumn>();
TList _list8 = await iprot.ReadListBeginAsync(cancellationToken);
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 async Task ReadAsync(TProtocol iprot, CancellationToken cancellationToken)
{
iprot.IncrementRecursionDepth();
try
{
bool isset_row = false;
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);
isset_row = true;
}
else
{
await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken);
}
break;
case 2:
if (field.Type == TType.List)
{
{
Columns = new List <TColumn>();
TList _list26 = await iprot.ReadListBeginAsync(cancellationToken);
for (int _i27 = 0; _i27 < _list26.Count; ++_i27)
{
TColumn _elem28;
_elem28 = new TColumn();
await _elem28.ReadAsync(iprot, cancellationToken);
Columns.Add(_elem28);
}
await iprot.ReadListEndAsync(cancellationToken);
}
}
else
{
await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken);
}
break;
case 3:
if (field.Type == TType.I64)
{
Timestamp = await iprot.ReadI64Async(cancellationToken);
}
else
{
await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken);
}
break;
case 4:
if (field.Type == TType.I32)
{
DeleteType = (TDeleteType)await iprot.ReadI32Async(cancellationToken);
}
else
{
await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken);
}
break;
case 6:
if (field.Type == TType.Map)
{
{
Attributes = new Dictionary <byte[], byte[]>();
TMap _map29 = await iprot.ReadMapBeginAsync(cancellationToken);
for (int _i30 = 0; _i30 < _map29.Count; ++_i30)
{
byte[] _key31;
byte[] _val32;
_key31 = await iprot.ReadBinaryAsync(cancellationToken);
_val32 = await iprot.ReadBinaryAsync(cancellationToken);
Attributes[_key31] = _val32;
}
await iprot.ReadMapEndAsync(cancellationToken);
}
}
else
{
await TProtocolUtil.SkipAsync(iprot, field.Type, cancellationToken);
}
break;
case 7:
if (field.Type == TType.I32)
{
Durability = (TDurability)await iprot.ReadI32Async(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);
if (!isset_row)
{
throw new TProtocolException(TProtocolException.INVALID_DATA);
}
}
finally
{
iprot.DecrementRecursionDepth();
}
}