/**
* Autogenerated by Thrift Compiler (0.9.2)
*
* DO NOT EDIT UNLESS YOU ARE SURE THAT YOU KNOW WHAT YOU ARE DOING
* @generated
*/
package com.xiaomi.infra.galaxy.sds.thrift;
import libthrift091.scheme.IScheme;
import libthrift091.scheme.SchemeFactory;
import libthrift091.scheme.StandardScheme;
import libthrift091.scheme.TupleScheme;
import libthrift091.protocol.TTupleProtocol;
import libthrift091.protocol.TProtocolException;
import libthrift091.EncodingUtils;
import libthrift091.TException;
import libthrift091.async.AsyncMethodCallback;
import libthrift091.server.AbstractNonblockingServer.*;
import java.util.List;
import java.util.ArrayList;
import java.util.Map;
import java.util.HashMap;
import java.util.EnumMap;
import java.util.Set;
import java.util.HashSet;
import java.util.EnumSet;
import java.util.Collections;
import java.util.BitSet;
import java.nio.ByteBuffer;
import java.util.Arrays;
import javax.annotation.Generated;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
@SuppressWarnings({"cast", "rawtypes", "serial", "unchecked"})
@Generated(value = "Autogenerated by Thrift Compiler (0.9.2)", date = "2016-3-25")
public class DataConsumeResult implements libthrift091.TBase<DataConsumeResult, DataConsumeResult._Fields>, java.io.Serializable, Cloneable, Comparable<DataConsumeResult> {
private static final libthrift091.protocol.TStruct STRUCT_DESC = new libthrift091.protocol.TStruct("DataConsumeResult");
private static final libthrift091.protocol.TField NEXT_CONSUME_OFFSET_FIELD_DESC = new libthrift091.protocol.TField("nextConsumeOffset", libthrift091.protocol.TType.MAP, (short)1);
private static final libthrift091.protocol.TField RECORDS_FIELD_DESC = new libthrift091.protocol.TField("records", libthrift091.protocol.TType.LIST, (short)2);
private static final libthrift091.protocol.TField KEYS_FIELD_DESC = new libthrift091.protocol.TField("keys", libthrift091.protocol.TType.LIST, (short)3);
private static final libthrift091.protocol.TField THROTTLED_FIELD_DESC = new libthrift091.protocol.TField("throttled", libthrift091.protocol.TType.BOOL, (short)4);
private static final Map<Class<? extends IScheme>, SchemeFactory> schemes = new HashMap<Class<? extends IScheme>, SchemeFactory>();
static {
schemes.put(StandardScheme.class, new DataConsumeResultStandardSchemeFactory());
schemes.put(TupleScheme.class, new DataConsumeResultTupleSchemeFactory());
}
/**
* 下一个开始消费的存量数据的偏移,NULL表示达到当前表分片的结束位置
*/
public Map<String,Datum> nextConsumeOffset; // optional
/**
* 消费的存量数据
*/
public List<Map<String,Datum>> records; // optional
/**
* 表的主键属性
*/
public List<String> keys; // optional
/**
* 是否超过表的qps quota
*/
public boolean throttled; // optional
/** The set of fields this struct contains, along with convenience methods for finding and manipulating them. */
public enum _Fields implements libthrift091.TFieldIdEnum {
/**
* 下一个开始消费的存量数据的偏移,NULL表示达到当前表分片的结束位置
*/
NEXT_CONSUME_OFFSET((short)1, "nextConsumeOffset"),
/**
* 消费的存量数据
*/
RECORDS((short)2, "records"),
/**
* 表的主键属性
*/
KEYS((short)3, "keys"),
/**
* 是否超过表的qps quota
*/
THROTTLED((short)4, "throttled");
private static final Map<String, _Fields> byName = new HashMap<String, _Fields>();
static {
for (_Fields field : EnumSet.allOf(_Fields.class)) {
byName.put(field.getFieldName(), field);
}
}
/**
* Find the _Fields constant that matches fieldId, or null if its not found.
*/
public static _Fields findByThriftId(int fieldId) {
switch(fieldId) {
case 1: // NEXT_CONSUME_OFFSET
return NEXT_CONSUME_OFFSET;
case 2: // RECORDS
return RECORDS;
case 3: // KEYS
return KEYS;
case 4: // THROTTLED
return THROTTLED;
default:
return null;
}
}
/**
* Find the _Fields constant that matches fieldId, throwing an exception
* if it is not found.
*/
public static _Fields findByThriftIdOrThrow(int fieldId) {
_Fields fields = findByThriftId(fieldId);
if (fields == null) throw new IllegalArgumentException("Field " + fieldId + " doesn't exist!");
return fields;
}
/**
* Find the _Fields constant that matches name, or null if its not found.
*/
public static _Fields findByName(String name) {
return byName.get(name);
}
private final short _thriftId;
private final String _fieldName;
_Fields(short thriftId, String fieldName) {
_thriftId = thriftId;
_fieldName = fieldName;
}
public short getThriftFieldId() {
return _thriftId;
}
public String getFieldName() {
return _fieldName;
}
}
// isset id assignments
private static final int __THROTTLED_ISSET_ID = 0;
private byte __isset_bitfield = 0;
private static final _Fields optionals[] = {_Fields.NEXT_CONSUME_OFFSET,_Fields.RECORDS,_Fields.KEYS,_Fields.THROTTLED};
public static final Map<_Fields, libthrift091.meta_data.FieldMetaData> metaDataMap;
static {
Map<_Fields, libthrift091.meta_data.FieldMetaData> tmpMap = new EnumMap<_Fields, libthrift091.meta_data.FieldMetaData>(_Fields.class);
tmpMap.put(_Fields.NEXT_CONSUME_OFFSET, new libthrift091.meta_data.FieldMetaData("nextConsumeOffset", libthrift091.TFieldRequirementType.OPTIONAL,
new libthrift091.meta_data.FieldValueMetaData(libthrift091.protocol.TType.MAP , "Dictionary")));
tmpMap.put(_Fields.RECORDS, new libthrift091.meta_data.FieldMetaData("records", libthrift091.TFieldRequirementType.OPTIONAL,
new libthrift091.meta_data.ListMetaData(libthrift091.protocol.TType.LIST,
new libthrift091.meta_data.FieldValueMetaData(libthrift091.protocol.TType.MAP , "Dictionary"))));
tmpMap.put(_Fields.KEYS, new libthrift091.meta_data.FieldMetaData("keys", libthrift091.TFieldRequirementType.OPTIONAL,
new libthrift091.meta_data.ListMetaData(libthrift091.protocol.TType.LIST,
new libthrift091.meta_data.FieldValueMetaData(libthrift091.protocol.TType.STRING))));
tmpMap.put(_Fields.THROTTLED, new libthrift091.meta_data.FieldMetaData("throttled", libthrift091.TFieldRequirementType.OPTIONAL,
new libthrift091.meta_data.FieldValueMetaData(libthrift091.protocol.TType.BOOL)));
metaDataMap = Collections.unmodifiableMap(tmpMap);
libthrift091.meta_data.FieldMetaData.addStructMetaDataMap(DataConsumeResult.class, metaDataMap);
}
public DataConsumeResult() {
}
/**
* Performs a deep copy on <i>other</i>.
*/
public DataConsumeResult(DataConsumeResult other) {
__isset_bitfield = other.__isset_bitfield;
if (other.isSetNextConsumeOffset()) {
this.nextConsumeOffset = other.nextConsumeOffset;
}
if (other.isSetRecords()) {
List<Map<String,Datum>> __this__records = new ArrayList<Map<String,Datum>>(other.records.size());
for (Map<String,Datum> other_element : other.records) {
__this__records.add(other_element);
}
this.records = __this__records;
}
if (other.isSetKeys()) {
List<String> __this__keys = new ArrayList<String>(other.keys);
this.keys = __this__keys;
}
this.throttled = other.throttled;
}
public DataConsumeResult deepCopy() {
return new DataConsumeResult(this);
}
@Override
public void clear() {
this.nextConsumeOffset = null;
this.records = null;
this.keys = null;
setThrottledIsSet(false);
this.throttled = false;
}
public int getNextConsumeOffsetSize() {
return (this.nextConsumeOffset == null) ? 0 : this.nextConsumeOffset.size();
}
public void putToNextConsumeOffset(String key, Datum val) {
if (this.nextConsumeOffset == null) {
this.nextConsumeOffset = new HashMap<String,Datum>();
}
this.nextConsumeOffset.put(key, val);
}
/**
* 下一个开始消费的存量数据的偏移,NULL表示达到当前表分片的结束位置
*/
public Map<String,Datum> getNextConsumeOffset() {
return this.nextConsumeOffset;
}
/**
* 下一个开始消费的存量数据的偏移,NULL表示达到当前表分片的结束位置
*/
public DataConsumeResult setNextConsumeOffset(Map<String,Datum> nextConsumeOffset) {
this.nextConsumeOffset = nextConsumeOffset;
return this;
}
public void unsetNextConsumeOffset() {
this.nextConsumeOffset = null;
}
/** Returns true if field nextConsumeOffset is set (has been assigned a value) and false otherwise */
public boolean isSetNextConsumeOffset() {
return this.nextConsumeOffset != null;
}
public void setNextConsumeOffsetIsSet(boolean value) {
if (!value) {
this.nextConsumeOffset = null;
}
}
public int getRecordsSize() {
return (this.records == null) ? 0 : this.records.size();
}
public java.util.Iterator<Map<String,Datum>> getRecordsIterator() {
return (this.records == null) ? null : this.records.iterator();
}
public void addToRecords(Map<String,Datum> elem) {
if (this.records == null) {
this.records = new ArrayList<Map<String,Datum>>();
}
this.records.add(elem);
}
/**
* 消费的存量数据
*/
public List<Map<String,Datum>> getRecords() {
return this.records;
}
/**
* 消费的存量数据
*/
public DataConsumeResult setRecords(List<Map<String,Datum>> records) {
this.records = records;
return this;
}
public void unsetRecords() {
this.records = null;
}
/** Returns true if field records is set (has been assigned a value) and false otherwise */
public boolean isSetRecords() {
return this.records != null;
}
public void setRecordsIsSet(boolean value) {
if (!value) {
this.records = null;
}
}
public int getKeysSize() {
return (this.keys == null) ? 0 : this.keys.size();
}
public java.util.Iterator<String> getKeysIterator() {
return (this.keys == null) ? null : this.keys.iterator();
}
public void addToKeys(String elem) {
if (this.keys == null) {
this.keys = new ArrayList<String>();
}
this.keys.add(elem);
}
/**
* 表的主键属性
*/
public List<String> getKeys() {
return this.keys;
}
/**
* 表的主键属性
*/
public DataConsumeResult setKeys(List<String> keys) {
this.keys = keys;
return this;
}
public void unsetKeys() {
this.keys = null;
}
/** Returns true if field keys is set (has been assigned a value) and false otherwise */
public boolean isSetKeys() {
return this.keys != null;
}
public void setKeysIsSet(boolean value) {
if (!value) {
this.keys = null;
}
}
/**
* 是否超过表的qps quota
*/
public boolean isThrottled() {
return this.throttled;
}
/**
* 是否超过表的qps quota
*/
public DataConsumeResult setThrottled(boolean throttled) {
this.throttled = throttled;
setThrottledIsSet(true);
return this;
}
public void unsetThrottled() {
__isset_bitfield = EncodingUtils.clearBit(__isset_bitfield, __THROTTLED_ISSET_ID);
}
/** Returns true if field throttled is set (has been assigned a value) and false otherwise */
public boolean isSetThrottled() {
return EncodingUtils.testBit(__isset_bitfield, __THROTTLED_ISSET_ID);
}
public void setThrottledIsSet(boolean value) {
__isset_bitfield = EncodingUtils.setBit(__isset_bitfield, __THROTTLED_ISSET_ID, value);
}
public void setFieldValue(_Fields field, Object value) {
switch (field) {
case NEXT_CONSUME_OFFSET:
if (value == null) {
unsetNextConsumeOffset();
} else {
setNextConsumeOffset((Map<String,Datum>)value);
}
break;
case RECORDS:
if (value == null) {
unsetRecords();
} else {
setRecords((List<Map<String,Datum>>)value);
}
break;
case KEYS:
if (value == null) {
unsetKeys();
} else {
setKeys((List<String>)value);
}
break;
case THROTTLED:
if (value == null) {
unsetThrottled();
} else {
setThrottled((Boolean)value);
}
break;
}
}
public Object getFieldValue(_Fields field) {
switch (field) {
case NEXT_CONSUME_OFFSET:
return getNextConsumeOffset();
case RECORDS:
return getRecords();
case KEYS:
return getKeys();
case THROTTLED:
return Boolean.valueOf(isThrottled());
}
throw new IllegalStateException();
}
/** Returns true if field corresponding to fieldID is set (has been assigned a value) and false otherwise */
public boolean isSet(_Fields field) {
if (field == null) {
throw new IllegalArgumentException();
}
switch (field) {
case NEXT_CONSUME_OFFSET:
return isSetNextConsumeOffset();
case RECORDS:
return isSetRecords();
case KEYS:
return isSetKeys();
case THROTTLED:
return isSetThrottled();
}
throw new IllegalStateException();
}
@Override
public boolean equals(Object that) {
if (that == null)
return false;
if (that instanceof DataConsumeResult)
return this.equals((DataConsumeResult)that);
return false;
}
public boolean equals(DataConsumeResult that) {
if (that == null)
return false;
boolean this_present_nextConsumeOffset = true && this.isSetNextConsumeOffset();
boolean that_present_nextConsumeOffset = true && that.isSetNextConsumeOffset();
if (this_present_nextConsumeOffset || that_present_nextConsumeOffset) {
if (!(this_present_nextConsumeOffset && that_present_nextConsumeOffset))
return false;
if (!this.nextConsumeOffset.equals(that.nextConsumeOffset))
return false;
}
boolean this_present_records = true && this.isSetRecords();
boolean that_present_records = true && that.isSetRecords();
if (this_present_records || that_present_records) {
if (!(this_present_records && that_present_records))
return false;
if (!this.records.equals(that.records))
return false;
}
boolean this_present_keys = true && this.isSetKeys();
boolean that_present_keys = true && that.isSetKeys();
if (this_present_keys || that_present_keys) {
if (!(this_present_keys && that_present_keys))
return false;
if (!this.keys.equals(that.keys))
return false;
}
boolean this_present_throttled = true && this.isSetThrottled();
boolean that_present_throttled = true && that.isSetThrottled();
if (this_present_throttled || that_present_throttled) {
if (!(this_present_throttled && that_present_throttled))
return false;
if (this.throttled != that.throttled)
return false;
}
return true;
}
@Override
public int hashCode() {
List<Object> list = new ArrayList<Object>();
boolean present_nextConsumeOffset = true && (isSetNextConsumeOffset());
list.add(present_nextConsumeOffset);
if (present_nextConsumeOffset)
list.add(nextConsumeOffset);
boolean present_records = true && (isSetRecords());
list.add(present_records);
if (present_records)
list.add(records);
boolean present_keys = true && (isSetKeys());
list.add(present_keys);
if (present_keys)
list.add(keys);
boolean present_throttled = true && (isSetThrottled());
list.add(present_throttled);
if (present_throttled)
list.add(throttled);
return list.hashCode();
}
@Override
public int compareTo(DataConsumeResult other) {
if (!getClass().equals(other.getClass())) {
return getClass().getName().compareTo(other.getClass().getName());
}
int lastComparison = 0;
lastComparison = Boolean.valueOf(isSetNextConsumeOffset()).compareTo(other.isSetNextConsumeOffset());
if (lastComparison != 0) {
return lastComparison;
}
if (isSetNextConsumeOffset()) {
lastComparison = libthrift091.TBaseHelper.compareTo(this.nextConsumeOffset, other.nextConsumeOffset);
if (lastComparison != 0) {
return lastComparison;
}
}
lastComparison = Boolean.valueOf(isSetRecords()).compareTo(other.isSetRecords());
if (lastComparison != 0) {
return lastComparison;
}
if (isSetRecords()) {
lastComparison = libthrift091.TBaseHelper.compareTo(this.records, other.records);
if (lastComparison != 0) {
return lastComparison;
}
}
lastComparison = Boolean.valueOf(isSetKeys()).compareTo(other.isSetKeys());
if (lastComparison != 0) {
return lastComparison;
}
if (isSetKeys()) {
lastComparison = libthrift091.TBaseHelper.compareTo(this.keys, other.keys);
if (lastComparison != 0) {
return lastComparison;
}
}
lastComparison = Boolean.valueOf(isSetThrottled()).compareTo(other.isSetThrottled());
if (lastComparison != 0) {
return lastComparison;
}
if (isSetThrottled()) {
lastComparison = libthrift091.TBaseHelper.compareTo(this.throttled, other.throttled);
if (lastComparison != 0) {
return lastComparison;
}
}
return 0;
}
public _Fields fieldForId(int fieldId) {
return _Fields.findByThriftId(fieldId);
}
public void read(libthrift091.protocol.TProtocol iprot) throws libthrift091.TException {
schemes.get(iprot.getScheme()).getScheme().read(iprot, this);
}
public void write(libthrift091.protocol.TProtocol oprot) throws libthrift091.TException {
schemes.get(oprot.getScheme()).getScheme().write(oprot, this);
}
@Override
public String toString() {
StringBuilder sb = new StringBuilder("DataConsumeResult(");
boolean first = true;
if (isSetNextConsumeOffset()) {
sb.append("nextConsumeOffset:");
if (this.nextConsumeOffset == null) {
sb.append("null");
} else {
sb.append(this.nextConsumeOffset);
}
first = false;
}
if (isSetRecords()) {
if (!first) sb.append(", ");
sb.append("records:");
if (this.records == null) {
sb.append("null");
} else {
sb.append(this.records);
}
first = false;
}
if (isSetKeys()) {
if (!first) sb.append(", ");
sb.append("keys:");
if (this.keys == null) {
sb.append("null");
} else {
sb.append(this.keys);
}
first = false;
}
if (isSetThrottled()) {
if (!first) sb.append(", ");
sb.append("throttled:");
sb.append(this.throttled);
first = false;
}
sb.append(")");
return sb.toString();
}
public void validate() throws libthrift091.TException {
// check for required fields
// check for sub-struct validity
}
private void writeObject(java.io.ObjectOutputStream out) throws java.io.IOException {
try {
write(new libthrift091.protocol.TCompactProtocol(new libthrift091.transport.TIOStreamTransport(out)));
} catch (libthrift091.TException te) {
throw new java.io.IOException(te);
}
}
private void readObject(java.io.ObjectInputStream in) throws java.io.IOException, ClassNotFoundException {
try {
// it doesn't seem like you should have to do this, but java serialization is wacky, and doesn't call the default constructor.
__isset_bitfield = 0;
read(new libthrift091.protocol.TCompactProtocol(new libthrift091.transport.TIOStreamTransport(in)));
} catch (libthrift091.TException te) {
throw new java.io.IOException(te);
}
}
private static class DataConsumeResultStandardSchemeFactory implements SchemeFactory {
public DataConsumeResultStandardScheme getScheme() {
return new DataConsumeResultStandardScheme();
}
}
private static class DataConsumeResultStandardScheme extends StandardScheme<DataConsumeResult> {
public void read(libthrift091.protocol.TProtocol iprot, DataConsumeResult struct) throws libthrift091.TException {
libthrift091.protocol.TField schemeField;
iprot.readStructBegin();
while (true)
{
schemeField = iprot.readFieldBegin();
if (schemeField.type == libthrift091.protocol.TType.STOP) {
break;
}
switch (schemeField.id) {
case 1: // NEXT_CONSUME_OFFSET
if (schemeField.type == libthrift091.protocol.TType.MAP) {
{
libthrift091.protocol.TMap _map372 = iprot.readMapBegin();
struct.nextConsumeOffset = new HashMap<String,Datum>(2*_map372.size);
String _key373;
Datum _val374;
for (int _i375 = 0; _i375 < _map372.size; ++_i375)
{
_key373 = iprot.readString();
_val374 = new Datum();
_val374.read(iprot);
struct.nextConsumeOffset.put(_key373, _val374);
}
iprot.readMapEnd();
}
struct.setNextConsumeOffsetIsSet(true);
} else {
libthrift091.protocol.TProtocolUtil.skip(iprot, schemeField.type);
}
break;
case 2: // RECORDS
if (schemeField.type == libthrift091.protocol.TType.LIST) {
{
libthrift091.protocol.TList _list376 = iprot.readListBegin();
struct.records = new ArrayList<Map<String,Datum>>(_list376.size);
Map<String,Datum> _elem377;
for (int _i378 = 0; _i378 < _list376.size; ++_i378)
{
{
libthrift091.protocol.TMap _map379 = iprot.readMapBegin();
_elem377 = new HashMap<String,Datum>(2*_map379.size);
String _key380;
Datum _val381;
for (int _i382 = 0; _i382 < _map379.size; ++_i382)
{
_key380 = iprot.readString();
_val381 = new Datum();
_val381.read(iprot);
_elem377.put(_key380, _val381);
}
iprot.readMapEnd();
}
struct.records.add(_elem377);
}
iprot.readListEnd();
}
struct.setRecordsIsSet(true);
} else {
libthrift091.protocol.TProtocolUtil.skip(iprot, schemeField.type);
}
break;
case 3: // KEYS
if (schemeField.type == libthrift091.protocol.TType.LIST) {
{
libthrift091.protocol.TList _list383 = iprot.readListBegin();
struct.keys = new ArrayList<String>(_list383.size);
String _elem384;
for (int _i385 = 0; _i385 < _list383.size; ++_i385)
{
_elem384 = iprot.readString();
struct.keys.add(_elem384);
}
iprot.readListEnd();
}
struct.setKeysIsSet(true);
} else {
libthrift091.protocol.TProtocolUtil.skip(iprot, schemeField.type);
}
break;
case 4: // THROTTLED
if (schemeField.type == libthrift091.protocol.TType.BOOL) {
struct.throttled = iprot.readBool();
struct.setThrottledIsSet(true);
} else {
libthrift091.protocol.TProtocolUtil.skip(iprot, schemeField.type);
}
break;
default:
libthrift091.protocol.TProtocolUtil.skip(iprot, schemeField.type);
}
iprot.readFieldEnd();
}
iprot.readStructEnd();
// check for required fields of primitive type, which can't be checked in the validate method
struct.validate();
}
public void write(libthrift091.protocol.TProtocol oprot, DataConsumeResult struct) throws libthrift091.TException {
struct.validate();
oprot.writeStructBegin(STRUCT_DESC);
if (struct.nextConsumeOffset != null) {
if (struct.isSetNextConsumeOffset()) {
oprot.writeFieldBegin(NEXT_CONSUME_OFFSET_FIELD_DESC);
{
oprot.writeMapBegin(new libthrift091.protocol.TMap(libthrift091.protocol.TType.STRING, libthrift091.protocol.TType.STRUCT, struct.nextConsumeOffset.size()));
for (Map.Entry<String, Datum> _iter386 : struct.nextConsumeOffset.entrySet())
{
oprot.writeString(_iter386.getKey());
_iter386.getValue().write(oprot);
}
oprot.writeMapEnd();
}
oprot.writeFieldEnd();
}
}
if (struct.records != null) {
if (struct.isSetRecords()) {
oprot.writeFieldBegin(RECORDS_FIELD_DESC);
{
oprot.writeListBegin(new libthrift091.protocol.TList(libthrift091.protocol.TType.MAP, struct.records.size()));
for (Map<String,Datum> _iter387 : struct.records)
{
{
oprot.writeMapBegin(new libthrift091.protocol.TMap(libthrift091.protocol.TType.STRING, libthrift091.protocol.TType.STRUCT, _iter387.size()));
for (Map.Entry<String, Datum> _iter388 : _iter387.entrySet())
{
oprot.writeString(_iter388.getKey());
_iter388.getValue().write(oprot);
}
oprot.writeMapEnd();
}
}
oprot.writeListEnd();
}
oprot.writeFieldEnd();
}
}
if (struct.keys != null) {
if (struct.isSetKeys()) {
oprot.writeFieldBegin(KEYS_FIELD_DESC);
{
oprot.writeListBegin(new libthrift091.protocol.TList(libthrift091.protocol.TType.STRING, struct.keys.size()));
for (String _iter389 : struct.keys)
{
oprot.writeString(_iter389);
}
oprot.writeListEnd();
}
oprot.writeFieldEnd();
}
}
if (struct.isSetThrottled()) {
oprot.writeFieldBegin(THROTTLED_FIELD_DESC);
oprot.writeBool(struct.throttled);
oprot.writeFieldEnd();
}
oprot.writeFieldStop();
oprot.writeStructEnd();
}
}
private static class DataConsumeResultTupleSchemeFactory implements SchemeFactory {
public DataConsumeResultTupleScheme getScheme() {
return new DataConsumeResultTupleScheme();
}
}
private static class DataConsumeResultTupleScheme extends TupleScheme<DataConsumeResult> {
@Override
public void write(libthrift091.protocol.TProtocol prot, DataConsumeResult struct) throws libthrift091.TException {
TTupleProtocol oprot = (TTupleProtocol) prot;
BitSet optionals = new BitSet();
if (struct.isSetNextConsumeOffset()) {
optionals.set(0);
}
if (struct.isSetRecords()) {
optionals.set(1);
}
if (struct.isSetKeys()) {
optionals.set(2);
}
if (struct.isSetThrottled()) {
optionals.set(3);
}
oprot.writeBitSet(optionals, 4);
if (struct.isSetNextConsumeOffset()) {
{
oprot.writeI32(struct.nextConsumeOffset.size());
for (Map.Entry<String, Datum> _iter390 : struct.nextConsumeOffset.entrySet())
{
oprot.writeString(_iter390.getKey());
_iter390.getValue().write(oprot);
}
}
}
if (struct.isSetRecords()) {
{
oprot.writeI32(struct.records.size());
for (Map<String,Datum> _iter391 : struct.records)
{
{
oprot.writeI32(_iter391.size());
for (Map.Entry<String, Datum> _iter392 : _iter391.entrySet())
{
oprot.writeString(_iter392.getKey());
_iter392.getValue().write(oprot);
}
}
}
}
}
if (struct.isSetKeys()) {
{
oprot.writeI32(struct.keys.size());
for (String _iter393 : struct.keys)
{
oprot.writeString(_iter393);
}
}
}
if (struct.isSetThrottled()) {
oprot.writeBool(struct.throttled);
}
}
@Override
public void read(libthrift091.protocol.TProtocol prot, DataConsumeResult struct) throws libthrift091.TException {
TTupleProtocol iprot = (TTupleProtocol) prot;
BitSet incoming = iprot.readBitSet(4);
if (incoming.get(0)) {
{
libthrift091.protocol.TMap _map394 = new libthrift091.protocol.TMap(libthrift091.protocol.TType.STRING, libthrift091.protocol.TType.STRUCT, iprot.readI32());
struct.nextConsumeOffset = new HashMap<String,Datum>(2*_map394.size);
String _key395;
Datum _val396;
for (int _i397 = 0; _i397 < _map394.size; ++_i397)
{
_key395 = iprot.readString();
_val396 = new Datum();
_val396.read(iprot);
struct.nextConsumeOffset.put(_key395, _val396);
}
}
struct.setNextConsumeOffsetIsSet(true);
}
if (incoming.get(1)) {
{
libthrift091.protocol.TList _list398 = new libthrift091.protocol.TList(libthrift091.protocol.TType.MAP, iprot.readI32());
struct.records = new ArrayList<Map<String,Datum>>(_list398.size);
Map<String,Datum> _elem399;
for (int _i400 = 0; _i400 < _list398.size; ++_i400)
{
{
libthrift091.protocol.TMap _map401 = new libthrift091.protocol.TMap(libthrift091.protocol.TType.STRING, libthrift091.protocol.TType.STRUCT, iprot.readI32());
_elem399 = new HashMap<String,Datum>(2*_map401.size);
String _key402;
Datum _val403;
for (int _i404 = 0; _i404 < _map401.size; ++_i404)
{
_key402 = iprot.readString();
_val403 = new Datum();
_val403.read(iprot);
_elem399.put(_key402, _val403);
}
}
struct.records.add(_elem399);
}
}
struct.setRecordsIsSet(true);
}
if (incoming.get(2)) {
{
libthrift091.protocol.TList _list405 = new libthrift091.protocol.TList(libthrift091.protocol.TType.STRING, iprot.readI32());
struct.keys = new ArrayList<String>(_list405.size);
String _elem406;
for (int _i407 = 0; _i407 < _list405.size; ++_i407)
{
_elem406 = iprot.readString();
struct.keys.add(_elem406);
}
}
struct.setKeysIsSet(true);
}
if (incoming.get(3)) {
struct.throttled = iprot.readBool();
struct.setThrottledIsSet(true);
}
}
}
}