public void Read (TProtocol iprot)
{
TField field;
iprot.ReadStructBegin();
while (true)
{
field = iprot.ReadFieldBegin();
if (field.Type == TType.Stop) {
break;
}
switch (field.ID)
{
case 1:
if (field.Type == TType.String) {
Keyspace = iprot.ReadString();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 2:
if (field.Type == TType.String) {
Name = iprot.ReadString();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 3:
if (field.Type == TType.String) {
Column_type = iprot.ReadString();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 5:
if (field.Type == TType.String) {
Comparator_type = iprot.ReadString();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 6:
if (field.Type == TType.String) {
Subcomparator_type = iprot.ReadString();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 8:
if (field.Type == TType.String) {
Comment = iprot.ReadString();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 12:
if (field.Type == TType.Double) {
Read_repair_chance = iprot.ReadDouble();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 13:
if (field.Type == TType.List) {
{
Column_metadata = new List<ColumnDef>();
TList _list46 = iprot.ReadListBegin();
for( int _i47 = 0; _i47 < _list46.Count; ++_i47)
{
ColumnDef _elem48 = new ColumnDef();
_elem48 = new ColumnDef();
_elem48.Read(iprot);
Column_metadata.Add(_elem48);
}
iprot.ReadListEnd();
}
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 14:
if (field.Type == TType.I32) {
Gc_grace_seconds = iprot.ReadI32();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 15:
if (field.Type == TType.String) {
Default_validation_class = iprot.ReadString();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 16:
if (field.Type == TType.I32) {
Id = iprot.ReadI32();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 17:
if (field.Type == TType.I32) {
Min_compaction_threshold = iprot.ReadI32();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 18:
if (field.Type == TType.I32) {
Max_compaction_threshold = iprot.ReadI32();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 24:
if (field.Type == TType.Bool) {
Replicate_on_write = iprot.ReadBool();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 26:
if (field.Type == TType.String) {
Key_validation_class = iprot.ReadString();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 28:
if (field.Type == TType.String) {
Key_alias = iprot.ReadBinary();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 29:
if (field.Type == TType.String) {
Compaction_strategy = iprot.ReadString();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 30:
if (field.Type == TType.Map) {
{
Compaction_strategy_options = new Dictionary<string, string>();
TMap _map49 = iprot.ReadMapBegin();
for( int _i50 = 0; _i50 < _map49.Count; ++_i50)
{
string _key51;
string _val52;
_key51 = iprot.ReadString();
_val52 = iprot.ReadString();
Compaction_strategy_options[_key51] = _val52;
}
iprot.ReadMapEnd();
}
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 32:
if (field.Type == TType.Map) {
{
Compression_options = new Dictionary<string, string>();
TMap _map53 = iprot.ReadMapBegin();
for( int _i54 = 0; _i54 < _map53.Count; ++_i54)
{
string _key55;
string _val56;
_key55 = iprot.ReadString();
_val56 = iprot.ReadString();
Compression_options[_key55] = _val56;
}
iprot.ReadMapEnd();
}
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 33:
if (field.Type == TType.Double) {
Bloom_filter_fp_chance = iprot.ReadDouble();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 34:
if (field.Type == TType.String) {
Caching = iprot.ReadString();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 37:
if (field.Type == TType.Double) {
Dclocal_read_repair_chance = iprot.ReadDouble();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 9:
if (field.Type == TType.Double) {
Row_cache_size = iprot.ReadDouble();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 11:
if (field.Type == TType.Double) {
Key_cache_size = iprot.ReadDouble();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 19:
if (field.Type == TType.I32) {
Row_cache_save_period_in_seconds = iprot.ReadI32();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 20:
if (field.Type == TType.I32) {
Key_cache_save_period_in_seconds = iprot.ReadI32();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 21:
if (field.Type == TType.I32) {
Memtable_flush_after_mins = iprot.ReadI32();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 22:
if (field.Type == TType.I32) {
Memtable_throughput_in_mb = iprot.ReadI32();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 23:
if (field.Type == TType.Double) {
Memtable_operations_in_millions = iprot.ReadDouble();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 25:
if (field.Type == TType.Double) {
Merge_shards_chance = iprot.ReadDouble();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 27:
if (field.Type == TType.String) {
Row_cache_provider = iprot.ReadString();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 31:
if (field.Type == TType.I32) {
Row_cache_keys_to_save = iprot.ReadI32();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
default:
TProtocolUtil.Skip(iprot, field.Type);
break;
}
iprot.ReadFieldEnd();
}
iprot.ReadStructEnd();
}
public static void Skip(TProtocol prot, TType type)
{
switch (type)
{
case TType.Bool:
prot.ReadBool();
break;
case TType.Byte:
prot.ReadByte();
break;
case TType.I16:
prot.ReadI16();
break;
case TType.I32:
prot.ReadI32();
break;
case TType.I64:
prot.ReadI64();
break;
case TType.Double:
prot.ReadDouble();
break;
case TType.String:
// Don't try to decode the string, just skip it.
prot.ReadBinary();
break;
case TType.Struct:
prot.ReadStructBegin();
while (true)
{
TField field = prot.ReadFieldBegin();
if (field.Type == TType.Stop)
{
break;
}
Skip(prot, field.Type);
prot.ReadFieldEnd();
}
prot.ReadStructEnd();
break;
case TType.Map:
TMap map = prot.ReadMapBegin();
for (int i = 0; i < map.Count; i++)
{
Skip(prot, map.KeyType);
Skip(prot, map.ValueType);
}
prot.ReadMapEnd();
break;
case TType.Set:
TSet set = prot.ReadSetBegin();
for (int i = 0; i < set.Count; i++)
{
Skip(prot, set.ElementType);
}
prot.ReadSetEnd();
break;
case TType.List:
TList list = prot.ReadListBegin();
for (int i = 0; i < list.Count; i++)
{
Skip(prot, list.ElementType);
}
prot.ReadListEnd();
break;
}
}
public void Read (TProtocol iprot)
{
bool isset_keyspace = false;
bool isset_name = false;
TField field;
iprot.ReadStructBegin();
while (true)
{
field = iprot.ReadFieldBegin();
if (field.Type == TType.Stop) {
break;
}
switch (field.ID)
{
case 1:
if (field.Type == TType.String) {
Keyspace = iprot.ReadString();
isset_keyspace = true;
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 2:
if (field.Type == TType.String) {
Name = iprot.ReadString();
isset_name = true;
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 3:
if (field.Type == TType.String) {
Column_type = iprot.ReadString();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 5:
if (field.Type == TType.String) {
Comparator_type = iprot.ReadString();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 6:
if (field.Type == TType.String) {
Subcomparator_type = iprot.ReadString();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 8:
if (field.Type == TType.String) {
Comment = iprot.ReadString();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 12:
if (field.Type == TType.Double) {
Read_repair_chance = iprot.ReadDouble();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 13:
if (field.Type == TType.List) {
{
Column_metadata = new List<ColumnDef>();
TList _list55 = iprot.ReadListBegin();
for( int _i56 = 0; _i56 < _list55.Count; ++_i56)
{
ColumnDef _elem57 = new ColumnDef();
_elem57 = new ColumnDef();
_elem57.Read(iprot);
Column_metadata.Add(_elem57);
}
iprot.ReadListEnd();
}
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 14:
if (field.Type == TType.I32) {
Gc_grace_seconds = iprot.ReadI32();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 15:
if (field.Type == TType.String) {
Default_validation_class = iprot.ReadString();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 16:
if (field.Type == TType.I32) {
Id = iprot.ReadI32();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 17:
if (field.Type == TType.I32) {
Min_compaction_threshold = iprot.ReadI32();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 18:
if (field.Type == TType.I32) {
Max_compaction_threshold = iprot.ReadI32();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 24:
if (field.Type == TType.Bool) {
Replicate_on_write = iprot.ReadBool();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 26:
if (field.Type == TType.String) {
Key_validation_class = iprot.ReadString();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 28:
if (field.Type == TType.String) {
Key_alias = iprot.ReadBinary();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 29:
if (field.Type == TType.String) {
Compaction_strategy = iprot.ReadString();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 30:
if (field.Type == TType.Map) {
{
Compaction_strategy_options = new Dictionary<string, string>();
TMap _map58 = iprot.ReadMapBegin();
for( int _i59 = 0; _i59 < _map58.Count; ++_i59)
{
string _key60;
string _val61;
_key60 = iprot.ReadString();
_val61 = iprot.ReadString();
Compaction_strategy_options[_key60] = _val61;
}
iprot.ReadMapEnd();
}
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 32:
if (field.Type == TType.Map) {
{
Compression_options = new Dictionary<string, string>();
TMap _map62 = iprot.ReadMapBegin();
for( int _i63 = 0; _i63 < _map62.Count; ++_i63)
{
string _key64;
string _val65;
_key64 = iprot.ReadString();
_val65 = iprot.ReadString();
Compression_options[_key64] = _val65;
}
iprot.ReadMapEnd();
}
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 33:
if (field.Type == TType.Double) {
Bloom_filter_fp_chance = iprot.ReadDouble();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 34:
if (field.Type == TType.String) {
Caching = iprot.ReadString();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 37:
if (field.Type == TType.Double) {
Dclocal_read_repair_chance = iprot.ReadDouble();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 38:
if (field.Type == TType.Bool) {
Populate_io_cache_on_flush = iprot.ReadBool();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 39:
if (field.Type == TType.I32) {
Memtable_flush_period_in_ms = iprot.ReadI32();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 40:
if (field.Type == TType.I32) {
Default_time_to_live = iprot.ReadI32();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 41:
if (field.Type == TType.I32) {
Index_interval = iprot.ReadI32();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 42:
if (field.Type == TType.String) {
Speculative_retry = iprot.ReadString();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 43:
if (field.Type == TType.List) {
{
Triggers = new List<TriggerDef>();
TList _list66 = iprot.ReadListBegin();
for( int _i67 = 0; _i67 < _list66.Count; ++_i67)
{
TriggerDef _elem68 = new TriggerDef();
_elem68 = new TriggerDef();
_elem68.Read(iprot);
Triggers.Add(_elem68);
}
iprot.ReadListEnd();
}
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 9:
if (field.Type == TType.Double) {
Row_cache_size = iprot.ReadDouble();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 11:
if (field.Type == TType.Double) {
Key_cache_size = iprot.ReadDouble();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 19:
if (field.Type == TType.I32) {
Row_cache_save_period_in_seconds = iprot.ReadI32();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 20:
if (field.Type == TType.I32) {
Key_cache_save_period_in_seconds = iprot.ReadI32();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 21:
if (field.Type == TType.I32) {
Memtable_flush_after_mins = iprot.ReadI32();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 22:
if (field.Type == TType.I32) {
Memtable_throughput_in_mb = iprot.ReadI32();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 23:
if (field.Type == TType.Double) {
Memtable_operations_in_millions = iprot.ReadDouble();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 25:
if (field.Type == TType.Double) {
Merge_shards_chance = iprot.ReadDouble();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 27:
if (field.Type == TType.String) {
Row_cache_provider = iprot.ReadString();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
case 31:
if (field.Type == TType.I32) {
Row_cache_keys_to_save = iprot.ReadI32();
} else {
TProtocolUtil.Skip(iprot, field.Type);
}
break;
default:
TProtocolUtil.Skip(iprot, field.Type);
break;
}
iprot.ReadFieldEnd();
}
iprot.ReadStructEnd();
if (!isset_keyspace)
throw new TProtocolException(TProtocolException.INVALID_DATA);
if (!isset_name)
throw new TProtocolException(TProtocolException.INVALID_DATA);
}