Java tutorial
/** * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (the * "License"); you may not use this file except in compliance * with the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * Autogenerated by Thrift Compiler (0.9.3) * * DO NOT EDIT UNLESS YOU ARE SURE THAT YOU KNOW WHAT YOU ARE DOING * @generated */ package backtype.storm.generated; import org.apache.thrift.scheme.IScheme; import org.apache.thrift.scheme.SchemeFactory; import org.apache.thrift.scheme.StandardScheme; import org.apache.thrift.scheme.TupleScheme; import org.apache.thrift.protocol.TTupleProtocol; import org.apache.thrift.protocol.TProtocolException; import org.apache.thrift.EncodingUtils; import org.apache.thrift.TException; import org.apache.thrift.async.AsyncMethodCallback; import org.apache.thrift.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 (0.9.3)") public class TopologyPageInfo implements org.apache.thrift.TBase<TopologyPageInfo, TopologyPageInfo._Fields>, java.io.Serializable, Cloneable, Comparable<TopologyPageInfo> { private static final org.apache.thrift.protocol.TStruct STRUCT_DESC = new org.apache.thrift.protocol.TStruct( "TopologyPageInfo"); private static final org.apache.thrift.protocol.TField ID_FIELD_DESC = new org.apache.thrift.protocol.TField( "id", org.apache.thrift.protocol.TType.STRING, (short) 1); private static final org.apache.thrift.protocol.TField NAME_FIELD_DESC = new org.apache.thrift.protocol.TField( "name", org.apache.thrift.protocol.TType.STRING, (short) 2); private static final org.apache.thrift.protocol.TField UPTIME_SECS_FIELD_DESC = new org.apache.thrift.protocol.TField( "uptime_secs", org.apache.thrift.protocol.TType.I32, (short) 3); private static final org.apache.thrift.protocol.TField STATUS_FIELD_DESC = new org.apache.thrift.protocol.TField( "status", org.apache.thrift.protocol.TType.STRING, (short) 4); private static final org.apache.thrift.protocol.TField NUM_TASKS_FIELD_DESC = new org.apache.thrift.protocol.TField( "num_tasks", org.apache.thrift.protocol.TType.I32, (short) 5); private static final org.apache.thrift.protocol.TField NUM_WORKERS_FIELD_DESC = new org.apache.thrift.protocol.TField( "num_workers", org.apache.thrift.protocol.TType.I32, (short) 6); private static final org.apache.thrift.protocol.TField NUM_EXECUTORS_FIELD_DESC = new org.apache.thrift.protocol.TField( "num_executors", org.apache.thrift.protocol.TType.I32, (short) 7); private static final org.apache.thrift.protocol.TField TOPOLOGY_CONF_FIELD_DESC = new org.apache.thrift.protocol.TField( "topology_conf", org.apache.thrift.protocol.TType.STRING, (short) 8); private static final org.apache.thrift.protocol.TField ID_TO_SPOUT_AGG_STATS_FIELD_DESC = new org.apache.thrift.protocol.TField( "id_to_spout_agg_stats", org.apache.thrift.protocol.TType.MAP, (short) 9); private static final org.apache.thrift.protocol.TField ID_TO_BOLT_AGG_STATS_FIELD_DESC = new org.apache.thrift.protocol.TField( "id_to_bolt_agg_stats", org.apache.thrift.protocol.TType.MAP, (short) 10); private static final org.apache.thrift.protocol.TField SCHED_STATUS_FIELD_DESC = new org.apache.thrift.protocol.TField( "sched_status", org.apache.thrift.protocol.TType.STRING, (short) 11); private static final org.apache.thrift.protocol.TField TOPOLOGY_STATS_FIELD_DESC = new org.apache.thrift.protocol.TField( "topology_stats", org.apache.thrift.protocol.TType.STRUCT, (short) 12); private static final org.apache.thrift.protocol.TField OWNER_FIELD_DESC = new org.apache.thrift.protocol.TField( "owner", org.apache.thrift.protocol.TType.STRING, (short) 13); private static final org.apache.thrift.protocol.TField DEBUG_OPTIONS_FIELD_DESC = new org.apache.thrift.protocol.TField( "debug_options", org.apache.thrift.protocol.TType.STRUCT, (short) 14); private static final org.apache.thrift.protocol.TField REPLICATION_COUNT_FIELD_DESC = new org.apache.thrift.protocol.TField( "replication_count", org.apache.thrift.protocol.TType.I32, (short) 15); private static final org.apache.thrift.protocol.TField REQUESTED_MEMONHEAP_FIELD_DESC = new org.apache.thrift.protocol.TField( "requested_memonheap", org.apache.thrift.protocol.TType.DOUBLE, (short) 521); private static final org.apache.thrift.protocol.TField REQUESTED_MEMOFFHEAP_FIELD_DESC = new org.apache.thrift.protocol.TField( "requested_memoffheap", org.apache.thrift.protocol.TType.DOUBLE, (short) 522); private static final org.apache.thrift.protocol.TField REQUESTED_CPU_FIELD_DESC = new org.apache.thrift.protocol.TField( "requested_cpu", org.apache.thrift.protocol.TType.DOUBLE, (short) 523); private static final org.apache.thrift.protocol.TField ASSIGNED_MEMONHEAP_FIELD_DESC = new org.apache.thrift.protocol.TField( "assigned_memonheap", org.apache.thrift.protocol.TType.DOUBLE, (short) 524); private static final org.apache.thrift.protocol.TField ASSIGNED_MEMOFFHEAP_FIELD_DESC = new org.apache.thrift.protocol.TField( "assigned_memoffheap", org.apache.thrift.protocol.TType.DOUBLE, (short) 525); private static final org.apache.thrift.protocol.TField ASSIGNED_CPU_FIELD_DESC = new org.apache.thrift.protocol.TField( "assigned_cpu", org.apache.thrift.protocol.TType.DOUBLE, (short) 526); private static final Map<Class<? extends IScheme>, SchemeFactory> schemes = new HashMap<Class<? extends IScheme>, SchemeFactory>(); static { schemes.put(StandardScheme.class, new TopologyPageInfoStandardSchemeFactory()); schemes.put(TupleScheme.class, new TopologyPageInfoTupleSchemeFactory()); } private String id; // required private String name; // optional private int uptime_secs; // optional private String status; // optional private int num_tasks; // optional private int num_workers; // optional private int num_executors; // optional private String topology_conf; // optional private Map<String, ComponentAggregateStats> id_to_spout_agg_stats; // optional private Map<String, ComponentAggregateStats> id_to_bolt_agg_stats; // optional private String sched_status; // optional private TopologyStats topology_stats; // optional private String owner; // optional private DebugOptions debug_options; // optional private int replication_count; // optional private double requested_memonheap; // optional private double requested_memoffheap; // optional private double requested_cpu; // optional private double assigned_memonheap; // optional private double assigned_memoffheap; // optional private double assigned_cpu; // optional /** The set of fields this struct contains, along with convenience methods for finding and manipulating them. */ public enum _Fields implements org.apache.thrift.TFieldIdEnum { ID((short) 1, "id"), NAME((short) 2, "name"), UPTIME_SECS((short) 3, "uptime_secs"), STATUS((short) 4, "status"), NUM_TASKS((short) 5, "num_tasks"), NUM_WORKERS((short) 6, "num_workers"), NUM_EXECUTORS( (short) 7, "num_executors"), TOPOLOGY_CONF((short) 8, "topology_conf"), ID_TO_SPOUT_AGG_STATS( (short) 9, "id_to_spout_agg_stats"), ID_TO_BOLT_AGG_STATS((short) 10, "id_to_bolt_agg_stats"), SCHED_STATUS((short) 11, "sched_status"), TOPOLOGY_STATS((short) 12, "topology_stats"), OWNER((short) 13, "owner"), DEBUG_OPTIONS((short) 14, "debug_options"), REPLICATION_COUNT( (short) 15, "replication_count"), REQUESTED_MEMONHEAP( (short) 521, "requested_memonheap"), REQUESTED_MEMOFFHEAP( (short) 522, "requested_memoffheap"), REQUESTED_CPU( (short) 523, "requested_cpu"), ASSIGNED_MEMONHEAP( (short) 524, "assigned_memonheap"), ASSIGNED_MEMOFFHEAP( (short) 525, "assigned_memoffheap"), ASSIGNED_CPU( (short) 526, "assigned_cpu"); 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: // ID return ID; case 2: // NAME return NAME; case 3: // UPTIME_SECS return UPTIME_SECS; case 4: // STATUS return STATUS; case 5: // NUM_TASKS return NUM_TASKS; case 6: // NUM_WORKERS return NUM_WORKERS; case 7: // NUM_EXECUTORS return NUM_EXECUTORS; case 8: // TOPOLOGY_CONF return TOPOLOGY_CONF; case 9: // ID_TO_SPOUT_AGG_STATS return ID_TO_SPOUT_AGG_STATS; case 10: // ID_TO_BOLT_AGG_STATS return ID_TO_BOLT_AGG_STATS; case 11: // SCHED_STATUS return SCHED_STATUS; case 12: // TOPOLOGY_STATS return TOPOLOGY_STATS; case 13: // OWNER return OWNER; case 14: // DEBUG_OPTIONS return DEBUG_OPTIONS; case 15: // REPLICATION_COUNT return REPLICATION_COUNT; case 521: // REQUESTED_MEMONHEAP return REQUESTED_MEMONHEAP; case 522: // REQUESTED_MEMOFFHEAP return REQUESTED_MEMOFFHEAP; case 523: // REQUESTED_CPU return REQUESTED_CPU; case 524: // ASSIGNED_MEMONHEAP return ASSIGNED_MEMONHEAP; case 525: // ASSIGNED_MEMOFFHEAP return ASSIGNED_MEMOFFHEAP; case 526: // ASSIGNED_CPU return ASSIGNED_CPU; 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 __UPTIME_SECS_ISSET_ID = 0; private static final int __NUM_TASKS_ISSET_ID = 1; private static final int __NUM_WORKERS_ISSET_ID = 2; private static final int __NUM_EXECUTORS_ISSET_ID = 3; private static final int __REPLICATION_COUNT_ISSET_ID = 4; private static final int __REQUESTED_MEMONHEAP_ISSET_ID = 5; private static final int __REQUESTED_MEMOFFHEAP_ISSET_ID = 6; private static final int __REQUESTED_CPU_ISSET_ID = 7; private static final int __ASSIGNED_MEMONHEAP_ISSET_ID = 8; private static final int __ASSIGNED_MEMOFFHEAP_ISSET_ID = 9; private static final int __ASSIGNED_CPU_ISSET_ID = 10; private short __isset_bitfield = 0; private static final _Fields optionals[] = { _Fields.NAME, _Fields.UPTIME_SECS, _Fields.STATUS, _Fields.NUM_TASKS, _Fields.NUM_WORKERS, _Fields.NUM_EXECUTORS, _Fields.TOPOLOGY_CONF, _Fields.ID_TO_SPOUT_AGG_STATS, _Fields.ID_TO_BOLT_AGG_STATS, _Fields.SCHED_STATUS, _Fields.TOPOLOGY_STATS, _Fields.OWNER, _Fields.DEBUG_OPTIONS, _Fields.REPLICATION_COUNT, _Fields.REQUESTED_MEMONHEAP, _Fields.REQUESTED_MEMOFFHEAP, _Fields.REQUESTED_CPU, _Fields.ASSIGNED_MEMONHEAP, _Fields.ASSIGNED_MEMOFFHEAP, _Fields.ASSIGNED_CPU }; public static final Map<_Fields, org.apache.thrift.meta_data.FieldMetaData> metaDataMap; static { Map<_Fields, org.apache.thrift.meta_data.FieldMetaData> tmpMap = new EnumMap<_Fields, org.apache.thrift.meta_data.FieldMetaData>( _Fields.class); tmpMap.put(_Fields.ID, new org.apache.thrift.meta_data.FieldMetaData("id", org.apache.thrift.TFieldRequirementType.REQUIRED, new org.apache.thrift.meta_data.FieldValueMetaData(org.apache.thrift.protocol.TType.STRING))); tmpMap.put(_Fields.NAME, new org.apache.thrift.meta_data.FieldMetaData("name", org.apache.thrift.TFieldRequirementType.OPTIONAL, new org.apache.thrift.meta_data.FieldValueMetaData(org.apache.thrift.protocol.TType.STRING))); tmpMap.put(_Fields.UPTIME_SECS, new org.apache.thrift.meta_data.FieldMetaData("uptime_secs", org.apache.thrift.TFieldRequirementType.OPTIONAL, new org.apache.thrift.meta_data.FieldValueMetaData(org.apache.thrift.protocol.TType.I32))); tmpMap.put(_Fields.STATUS, new org.apache.thrift.meta_data.FieldMetaData("status", org.apache.thrift.TFieldRequirementType.OPTIONAL, new org.apache.thrift.meta_data.FieldValueMetaData(org.apache.thrift.protocol.TType.STRING))); tmpMap.put(_Fields.NUM_TASKS, new org.apache.thrift.meta_data.FieldMetaData("num_tasks", org.apache.thrift.TFieldRequirementType.OPTIONAL, new org.apache.thrift.meta_data.FieldValueMetaData(org.apache.thrift.protocol.TType.I32))); tmpMap.put(_Fields.NUM_WORKERS, new org.apache.thrift.meta_data.FieldMetaData("num_workers", org.apache.thrift.TFieldRequirementType.OPTIONAL, new org.apache.thrift.meta_data.FieldValueMetaData(org.apache.thrift.protocol.TType.I32))); tmpMap.put(_Fields.NUM_EXECUTORS, new org.apache.thrift.meta_data.FieldMetaData("num_executors", org.apache.thrift.TFieldRequirementType.OPTIONAL, new org.apache.thrift.meta_data.FieldValueMetaData(org.apache.thrift.protocol.TType.I32))); tmpMap.put(_Fields.TOPOLOGY_CONF, new org.apache.thrift.meta_data.FieldMetaData("topology_conf", org.apache.thrift.TFieldRequirementType.OPTIONAL, new org.apache.thrift.meta_data.FieldValueMetaData(org.apache.thrift.protocol.TType.STRING))); tmpMap.put(_Fields.ID_TO_SPOUT_AGG_STATS, new org.apache.thrift.meta_data.FieldMetaData( "id_to_spout_agg_stats", org.apache.thrift.TFieldRequirementType.OPTIONAL, new org.apache.thrift.meta_data.MapMetaData(org.apache.thrift.protocol.TType.MAP, new org.apache.thrift.meta_data.FieldValueMetaData(org.apache.thrift.protocol.TType.STRING), new org.apache.thrift.meta_data.StructMetaData(org.apache.thrift.protocol.TType.STRUCT, ComponentAggregateStats.class)))); tmpMap.put(_Fields.ID_TO_BOLT_AGG_STATS, new org.apache.thrift.meta_data.FieldMetaData( "id_to_bolt_agg_stats", org.apache.thrift.TFieldRequirementType.OPTIONAL, new org.apache.thrift.meta_data.MapMetaData(org.apache.thrift.protocol.TType.MAP, new org.apache.thrift.meta_data.FieldValueMetaData(org.apache.thrift.protocol.TType.STRING), new org.apache.thrift.meta_data.StructMetaData(org.apache.thrift.protocol.TType.STRUCT, ComponentAggregateStats.class)))); tmpMap.put(_Fields.SCHED_STATUS, new org.apache.thrift.meta_data.FieldMetaData("sched_status", org.apache.thrift.TFieldRequirementType.OPTIONAL, new org.apache.thrift.meta_data.FieldValueMetaData(org.apache.thrift.protocol.TType.STRING))); tmpMap.put(_Fields.TOPOLOGY_STATS, new org.apache.thrift.meta_data.FieldMetaData("topology_stats", org.apache.thrift.TFieldRequirementType.OPTIONAL, new org.apache.thrift.meta_data.StructMetaData(org.apache.thrift.protocol.TType.STRUCT, TopologyStats.class))); tmpMap.put(_Fields.OWNER, new org.apache.thrift.meta_data.FieldMetaData("owner", org.apache.thrift.TFieldRequirementType.OPTIONAL, new org.apache.thrift.meta_data.FieldValueMetaData(org.apache.thrift.protocol.TType.STRING))); tmpMap.put(_Fields.DEBUG_OPTIONS, new org.apache.thrift.meta_data.FieldMetaData("debug_options", org.apache.thrift.TFieldRequirementType.OPTIONAL, new org.apache.thrift.meta_data.StructMetaData(org.apache.thrift.protocol.TType.STRUCT, DebugOptions.class))); tmpMap.put(_Fields.REPLICATION_COUNT, new org.apache.thrift.meta_data.FieldMetaData("replication_count", org.apache.thrift.TFieldRequirementType.OPTIONAL, new org.apache.thrift.meta_data.FieldValueMetaData(org.apache.thrift.protocol.TType.I32))); tmpMap.put(_Fields.REQUESTED_MEMONHEAP, new org.apache.thrift.meta_data.FieldMetaData("requested_memonheap", org.apache.thrift.TFieldRequirementType.OPTIONAL, new org.apache.thrift.meta_data.FieldValueMetaData(org.apache.thrift.protocol.TType.DOUBLE))); tmpMap.put(_Fields.REQUESTED_MEMOFFHEAP, new org.apache.thrift.meta_data.FieldMetaData( "requested_memoffheap", org.apache.thrift.TFieldRequirementType.OPTIONAL, new org.apache.thrift.meta_data.FieldValueMetaData(org.apache.thrift.protocol.TType.DOUBLE))); tmpMap.put(_Fields.REQUESTED_CPU, new org.apache.thrift.meta_data.FieldMetaData("requested_cpu", org.apache.thrift.TFieldRequirementType.OPTIONAL, new org.apache.thrift.meta_data.FieldValueMetaData(org.apache.thrift.protocol.TType.DOUBLE))); tmpMap.put(_Fields.ASSIGNED_MEMONHEAP, new org.apache.thrift.meta_data.FieldMetaData("assigned_memonheap", org.apache.thrift.TFieldRequirementType.OPTIONAL, new org.apache.thrift.meta_data.FieldValueMetaData(org.apache.thrift.protocol.TType.DOUBLE))); tmpMap.put(_Fields.ASSIGNED_MEMOFFHEAP, new org.apache.thrift.meta_data.FieldMetaData("assigned_memoffheap", org.apache.thrift.TFieldRequirementType.OPTIONAL, new org.apache.thrift.meta_data.FieldValueMetaData(org.apache.thrift.protocol.TType.DOUBLE))); tmpMap.put(_Fields.ASSIGNED_CPU, new org.apache.thrift.meta_data.FieldMetaData("assigned_cpu", org.apache.thrift.TFieldRequirementType.OPTIONAL, new org.apache.thrift.meta_data.FieldValueMetaData(org.apache.thrift.protocol.TType.DOUBLE))); metaDataMap = Collections.unmodifiableMap(tmpMap); org.apache.thrift.meta_data.FieldMetaData.addStructMetaDataMap(TopologyPageInfo.class, metaDataMap); } public TopologyPageInfo() { } public TopologyPageInfo(String id) { this(); this.id = id; } /** * Performs a deep copy on <i>other</i>. */ public TopologyPageInfo(TopologyPageInfo other) { __isset_bitfield = other.__isset_bitfield; if (other.is_set_id()) { this.id = other.id; } if (other.is_set_name()) { this.name = other.name; } this.uptime_secs = other.uptime_secs; if (other.is_set_status()) { this.status = other.status; } this.num_tasks = other.num_tasks; this.num_workers = other.num_workers; this.num_executors = other.num_executors; if (other.is_set_topology_conf()) { this.topology_conf = other.topology_conf; } if (other.is_set_id_to_spout_agg_stats()) { Map<String, ComponentAggregateStats> __this__id_to_spout_agg_stats = new HashMap<String, ComponentAggregateStats>( other.id_to_spout_agg_stats.size()); for (Map.Entry<String, ComponentAggregateStats> other_element : other.id_to_spout_agg_stats .entrySet()) { String other_element_key = other_element.getKey(); ComponentAggregateStats other_element_value = other_element.getValue(); String __this__id_to_spout_agg_stats_copy_key = other_element_key; ComponentAggregateStats __this__id_to_spout_agg_stats_copy_value = new ComponentAggregateStats( other_element_value); __this__id_to_spout_agg_stats.put(__this__id_to_spout_agg_stats_copy_key, __this__id_to_spout_agg_stats_copy_value); } this.id_to_spout_agg_stats = __this__id_to_spout_agg_stats; } if (other.is_set_id_to_bolt_agg_stats()) { Map<String, ComponentAggregateStats> __this__id_to_bolt_agg_stats = new HashMap<String, ComponentAggregateStats>( other.id_to_bolt_agg_stats.size()); for (Map.Entry<String, ComponentAggregateStats> other_element : other.id_to_bolt_agg_stats.entrySet()) { String other_element_key = other_element.getKey(); ComponentAggregateStats other_element_value = other_element.getValue(); String __this__id_to_bolt_agg_stats_copy_key = other_element_key; ComponentAggregateStats __this__id_to_bolt_agg_stats_copy_value = new ComponentAggregateStats( other_element_value); __this__id_to_bolt_agg_stats.put(__this__id_to_bolt_agg_stats_copy_key, __this__id_to_bolt_agg_stats_copy_value); } this.id_to_bolt_agg_stats = __this__id_to_bolt_agg_stats; } if (other.is_set_sched_status()) { this.sched_status = other.sched_status; } if (other.is_set_topology_stats()) { this.topology_stats = new TopologyStats(other.topology_stats); } if (other.is_set_owner()) { this.owner = other.owner; } if (other.is_set_debug_options()) { this.debug_options = new DebugOptions(other.debug_options); } this.replication_count = other.replication_count; this.requested_memonheap = other.requested_memonheap; this.requested_memoffheap = other.requested_memoffheap; this.requested_cpu = other.requested_cpu; this.assigned_memonheap = other.assigned_memonheap; this.assigned_memoffheap = other.assigned_memoffheap; this.assigned_cpu = other.assigned_cpu; } public TopologyPageInfo deepCopy() { return new TopologyPageInfo(this); } @Override public void clear() { this.id = null; this.name = null; set_uptime_secs_isSet(false); this.uptime_secs = 0; this.status = null; set_num_tasks_isSet(false); this.num_tasks = 0; set_num_workers_isSet(false); this.num_workers = 0; set_num_executors_isSet(false); this.num_executors = 0; this.topology_conf = null; this.id_to_spout_agg_stats = null; this.id_to_bolt_agg_stats = null; this.sched_status = null; this.topology_stats = null; this.owner = null; this.debug_options = null; set_replication_count_isSet(false); this.replication_count = 0; set_requested_memonheap_isSet(false); this.requested_memonheap = 0.0; set_requested_memoffheap_isSet(false); this.requested_memoffheap = 0.0; set_requested_cpu_isSet(false); this.requested_cpu = 0.0; set_assigned_memonheap_isSet(false); this.assigned_memonheap = 0.0; set_assigned_memoffheap_isSet(false); this.assigned_memoffheap = 0.0; set_assigned_cpu_isSet(false); this.assigned_cpu = 0.0; } public String get_id() { return this.id; } public void set_id(String id) { this.id = id; } public void unset_id() { this.id = null; } /** Returns true if field id is set (has been assigned a value) and false otherwise */ public boolean is_set_id() { return this.id != null; } public void set_id_isSet(boolean value) { if (!value) { this.id = null; } } public String get_name() { return this.name; } public void set_name(String name) { this.name = name; } public void unset_name() { this.name = null; } /** Returns true if field name is set (has been assigned a value) and false otherwise */ public boolean is_set_name() { return this.name != null; } public void set_name_isSet(boolean value) { if (!value) { this.name = null; } } public int get_uptime_secs() { return this.uptime_secs; } public void set_uptime_secs(int uptime_secs) { this.uptime_secs = uptime_secs; set_uptime_secs_isSet(true); } public void unset_uptime_secs() { __isset_bitfield = EncodingUtils.clearBit(__isset_bitfield, __UPTIME_SECS_ISSET_ID); } /** Returns true if field uptime_secs is set (has been assigned a value) and false otherwise */ public boolean is_set_uptime_secs() { return EncodingUtils.testBit(__isset_bitfield, __UPTIME_SECS_ISSET_ID); } public void set_uptime_secs_isSet(boolean value) { __isset_bitfield = EncodingUtils.setBit(__isset_bitfield, __UPTIME_SECS_ISSET_ID, value); } public String get_status() { return this.status; } public void set_status(String status) { this.status = status; } public void unset_status() { this.status = null; } /** Returns true if field status is set (has been assigned a value) and false otherwise */ public boolean is_set_status() { return this.status != null; } public void set_status_isSet(boolean value) { if (!value) { this.status = null; } } public int get_num_tasks() { return this.num_tasks; } public void set_num_tasks(int num_tasks) { this.num_tasks = num_tasks; set_num_tasks_isSet(true); } public void unset_num_tasks() { __isset_bitfield = EncodingUtils.clearBit(__isset_bitfield, __NUM_TASKS_ISSET_ID); } /** Returns true if field num_tasks is set (has been assigned a value) and false otherwise */ public boolean is_set_num_tasks() { return EncodingUtils.testBit(__isset_bitfield, __NUM_TASKS_ISSET_ID); } public void set_num_tasks_isSet(boolean value) { __isset_bitfield = EncodingUtils.setBit(__isset_bitfield, __NUM_TASKS_ISSET_ID, value); } public int get_num_workers() { return this.num_workers; } public void set_num_workers(int num_workers) { this.num_workers = num_workers; set_num_workers_isSet(true); } public void unset_num_workers() { __isset_bitfield = EncodingUtils.clearBit(__isset_bitfield, __NUM_WORKERS_ISSET_ID); } /** Returns true if field num_workers is set (has been assigned a value) and false otherwise */ public boolean is_set_num_workers() { return EncodingUtils.testBit(__isset_bitfield, __NUM_WORKERS_ISSET_ID); } public void set_num_workers_isSet(boolean value) { __isset_bitfield = EncodingUtils.setBit(__isset_bitfield, __NUM_WORKERS_ISSET_ID, value); } public int get_num_executors() { return this.num_executors; } public void set_num_executors(int num_executors) { this.num_executors = num_executors; set_num_executors_isSet(true); } public void unset_num_executors() { __isset_bitfield = EncodingUtils.clearBit(__isset_bitfield, __NUM_EXECUTORS_ISSET_ID); } /** Returns true if field num_executors is set (has been assigned a value) and false otherwise */ public boolean is_set_num_executors() { return EncodingUtils.testBit(__isset_bitfield, __NUM_EXECUTORS_ISSET_ID); } public void set_num_executors_isSet(boolean value) { __isset_bitfield = EncodingUtils.setBit(__isset_bitfield, __NUM_EXECUTORS_ISSET_ID, value); } public String get_topology_conf() { return this.topology_conf; } public void set_topology_conf(String topology_conf) { this.topology_conf = topology_conf; } public void unset_topology_conf() { this.topology_conf = null; } /** Returns true if field topology_conf is set (has been assigned a value) and false otherwise */ public boolean is_set_topology_conf() { return this.topology_conf != null; } public void set_topology_conf_isSet(boolean value) { if (!value) { this.topology_conf = null; } } public int get_id_to_spout_agg_stats_size() { return (this.id_to_spout_agg_stats == null) ? 0 : this.id_to_spout_agg_stats.size(); } public void put_to_id_to_spout_agg_stats(String key, ComponentAggregateStats val) { if (this.id_to_spout_agg_stats == null) { this.id_to_spout_agg_stats = new HashMap<String, ComponentAggregateStats>(); } this.id_to_spout_agg_stats.put(key, val); } public Map<String, ComponentAggregateStats> get_id_to_spout_agg_stats() { return this.id_to_spout_agg_stats; } public void set_id_to_spout_agg_stats(Map<String, ComponentAggregateStats> id_to_spout_agg_stats) { this.id_to_spout_agg_stats = id_to_spout_agg_stats; } public void unset_id_to_spout_agg_stats() { this.id_to_spout_agg_stats = null; } /** Returns true if field id_to_spout_agg_stats is set (has been assigned a value) and false otherwise */ public boolean is_set_id_to_spout_agg_stats() { return this.id_to_spout_agg_stats != null; } public void set_id_to_spout_agg_stats_isSet(boolean value) { if (!value) { this.id_to_spout_agg_stats = null; } } public int get_id_to_bolt_agg_stats_size() { return (this.id_to_bolt_agg_stats == null) ? 0 : this.id_to_bolt_agg_stats.size(); } public void put_to_id_to_bolt_agg_stats(String key, ComponentAggregateStats val) { if (this.id_to_bolt_agg_stats == null) { this.id_to_bolt_agg_stats = new HashMap<String, ComponentAggregateStats>(); } this.id_to_bolt_agg_stats.put(key, val); } public Map<String, ComponentAggregateStats> get_id_to_bolt_agg_stats() { return this.id_to_bolt_agg_stats; } public void set_id_to_bolt_agg_stats(Map<String, ComponentAggregateStats> id_to_bolt_agg_stats) { this.id_to_bolt_agg_stats = id_to_bolt_agg_stats; } public void unset_id_to_bolt_agg_stats() { this.id_to_bolt_agg_stats = null; } /** Returns true if field id_to_bolt_agg_stats is set (has been assigned a value) and false otherwise */ public boolean is_set_id_to_bolt_agg_stats() { return this.id_to_bolt_agg_stats != null; } public void set_id_to_bolt_agg_stats_isSet(boolean value) { if (!value) { this.id_to_bolt_agg_stats = null; } } public String get_sched_status() { return this.sched_status; } public void set_sched_status(String sched_status) { this.sched_status = sched_status; } public void unset_sched_status() { this.sched_status = null; } /** Returns true if field sched_status is set (has been assigned a value) and false otherwise */ public boolean is_set_sched_status() { return this.sched_status != null; } public void set_sched_status_isSet(boolean value) { if (!value) { this.sched_status = null; } } public TopologyStats get_topology_stats() { return this.topology_stats; } public void set_topology_stats(TopologyStats topology_stats) { this.topology_stats = topology_stats; } public void unset_topology_stats() { this.topology_stats = null; } /** Returns true if field topology_stats is set (has been assigned a value) and false otherwise */ public boolean is_set_topology_stats() { return this.topology_stats != null; } public void set_topology_stats_isSet(boolean value) { if (!value) { this.topology_stats = null; } } public String get_owner() { return this.owner; } public void set_owner(String owner) { this.owner = owner; } public void unset_owner() { this.owner = null; } /** Returns true if field owner is set (has been assigned a value) and false otherwise */ public boolean is_set_owner() { return this.owner != null; } public void set_owner_isSet(boolean value) { if (!value) { this.owner = null; } } public DebugOptions get_debug_options() { return this.debug_options; } public void set_debug_options(DebugOptions debug_options) { this.debug_options = debug_options; } public void unset_debug_options() { this.debug_options = null; } /** Returns true if field debug_options is set (has been assigned a value) and false otherwise */ public boolean is_set_debug_options() { return this.debug_options != null; } public void set_debug_options_isSet(boolean value) { if (!value) { this.debug_options = null; } } public int get_replication_count() { return this.replication_count; } public void set_replication_count(int replication_count) { this.replication_count = replication_count; set_replication_count_isSet(true); } public void unset_replication_count() { __isset_bitfield = EncodingUtils.clearBit(__isset_bitfield, __REPLICATION_COUNT_ISSET_ID); } /** Returns true if field replication_count is set (has been assigned a value) and false otherwise */ public boolean is_set_replication_count() { return EncodingUtils.testBit(__isset_bitfield, __REPLICATION_COUNT_ISSET_ID); } public void set_replication_count_isSet(boolean value) { __isset_bitfield = EncodingUtils.setBit(__isset_bitfield, __REPLICATION_COUNT_ISSET_ID, value); } public double get_requested_memonheap() { return this.requested_memonheap; } public void set_requested_memonheap(double requested_memonheap) { this.requested_memonheap = requested_memonheap; set_requested_memonheap_isSet(true); } public void unset_requested_memonheap() { __isset_bitfield = EncodingUtils.clearBit(__isset_bitfield, __REQUESTED_MEMONHEAP_ISSET_ID); } /** Returns true if field requested_memonheap is set (has been assigned a value) and false otherwise */ public boolean is_set_requested_memonheap() { return EncodingUtils.testBit(__isset_bitfield, __REQUESTED_MEMONHEAP_ISSET_ID); } public void set_requested_memonheap_isSet(boolean value) { __isset_bitfield = EncodingUtils.setBit(__isset_bitfield, __REQUESTED_MEMONHEAP_ISSET_ID, value); } public double get_requested_memoffheap() { return this.requested_memoffheap; } public void set_requested_memoffheap(double requested_memoffheap) { this.requested_memoffheap = requested_memoffheap; set_requested_memoffheap_isSet(true); } public void unset_requested_memoffheap() { __isset_bitfield = EncodingUtils.clearBit(__isset_bitfield, __REQUESTED_MEMOFFHEAP_ISSET_ID); } /** Returns true if field requested_memoffheap is set (has been assigned a value) and false otherwise */ public boolean is_set_requested_memoffheap() { return EncodingUtils.testBit(__isset_bitfield, __REQUESTED_MEMOFFHEAP_ISSET_ID); } public void set_requested_memoffheap_isSet(boolean value) { __isset_bitfield = EncodingUtils.setBit(__isset_bitfield, __REQUESTED_MEMOFFHEAP_ISSET_ID, value); } public double get_requested_cpu() { return this.requested_cpu; } public void set_requested_cpu(double requested_cpu) { this.requested_cpu = requested_cpu; set_requested_cpu_isSet(true); } public void unset_requested_cpu() { __isset_bitfield = EncodingUtils.clearBit(__isset_bitfield, __REQUESTED_CPU_ISSET_ID); } /** Returns true if field requested_cpu is set (has been assigned a value) and false otherwise */ public boolean is_set_requested_cpu() { return EncodingUtils.testBit(__isset_bitfield, __REQUESTED_CPU_ISSET_ID); } public void set_requested_cpu_isSet(boolean value) { __isset_bitfield = EncodingUtils.setBit(__isset_bitfield, __REQUESTED_CPU_ISSET_ID, value); } public double get_assigned_memonheap() { return this.assigned_memonheap; } public void set_assigned_memonheap(double assigned_memonheap) { this.assigned_memonheap = assigned_memonheap; set_assigned_memonheap_isSet(true); } public void unset_assigned_memonheap() { __isset_bitfield = EncodingUtils.clearBit(__isset_bitfield, __ASSIGNED_MEMONHEAP_ISSET_ID); } /** Returns true if field assigned_memonheap is set (has been assigned a value) and false otherwise */ public boolean is_set_assigned_memonheap() { return EncodingUtils.testBit(__isset_bitfield, __ASSIGNED_MEMONHEAP_ISSET_ID); } public void set_assigned_memonheap_isSet(boolean value) { __isset_bitfield = EncodingUtils.setBit(__isset_bitfield, __ASSIGNED_MEMONHEAP_ISSET_ID, value); } public double get_assigned_memoffheap() { return this.assigned_memoffheap; } public void set_assigned_memoffheap(double assigned_memoffheap) { this.assigned_memoffheap = assigned_memoffheap; set_assigned_memoffheap_isSet(true); } public void unset_assigned_memoffheap() { __isset_bitfield = EncodingUtils.clearBit(__isset_bitfield, __ASSIGNED_MEMOFFHEAP_ISSET_ID); } /** Returns true if field assigned_memoffheap is set (has been assigned a value) and false otherwise */ public boolean is_set_assigned_memoffheap() { return EncodingUtils.testBit(__isset_bitfield, __ASSIGNED_MEMOFFHEAP_ISSET_ID); } public void set_assigned_memoffheap_isSet(boolean value) { __isset_bitfield = EncodingUtils.setBit(__isset_bitfield, __ASSIGNED_MEMOFFHEAP_ISSET_ID, value); } public double get_assigned_cpu() { return this.assigned_cpu; } public void set_assigned_cpu(double assigned_cpu) { this.assigned_cpu = assigned_cpu; set_assigned_cpu_isSet(true); } public void unset_assigned_cpu() { __isset_bitfield = EncodingUtils.clearBit(__isset_bitfield, __ASSIGNED_CPU_ISSET_ID); } /** Returns true if field assigned_cpu is set (has been assigned a value) and false otherwise */ public boolean is_set_assigned_cpu() { return EncodingUtils.testBit(__isset_bitfield, __ASSIGNED_CPU_ISSET_ID); } public void set_assigned_cpu_isSet(boolean value) { __isset_bitfield = EncodingUtils.setBit(__isset_bitfield, __ASSIGNED_CPU_ISSET_ID, value); } public void setFieldValue(_Fields field, Object value) { switch (field) { case ID: if (value == null) { unset_id(); } else { set_id((String) value); } break; case NAME: if (value == null) { unset_name(); } else { set_name((String) value); } break; case UPTIME_SECS: if (value == null) { unset_uptime_secs(); } else { set_uptime_secs((Integer) value); } break; case STATUS: if (value == null) { unset_status(); } else { set_status((String) value); } break; case NUM_TASKS: if (value == null) { unset_num_tasks(); } else { set_num_tasks((Integer) value); } break; case NUM_WORKERS: if (value == null) { unset_num_workers(); } else { set_num_workers((Integer) value); } break; case NUM_EXECUTORS: if (value == null) { unset_num_executors(); } else { set_num_executors((Integer) value); } break; case TOPOLOGY_CONF: if (value == null) { unset_topology_conf(); } else { set_topology_conf((String) value); } break; case ID_TO_SPOUT_AGG_STATS: if (value == null) { unset_id_to_spout_agg_stats(); } else { set_id_to_spout_agg_stats((Map<String, ComponentAggregateStats>) value); } break; case ID_TO_BOLT_AGG_STATS: if (value == null) { unset_id_to_bolt_agg_stats(); } else { set_id_to_bolt_agg_stats((Map<String, ComponentAggregateStats>) value); } break; case SCHED_STATUS: if (value == null) { unset_sched_status(); } else { set_sched_status((String) value); } break; case TOPOLOGY_STATS: if (value == null) { unset_topology_stats(); } else { set_topology_stats((TopologyStats) value); } break; case OWNER: if (value == null) { unset_owner(); } else { set_owner((String) value); } break; case DEBUG_OPTIONS: if (value == null) { unset_debug_options(); } else { set_debug_options((DebugOptions) value); } break; case REPLICATION_COUNT: if (value == null) { unset_replication_count(); } else { set_replication_count((Integer) value); } break; case REQUESTED_MEMONHEAP: if (value == null) { unset_requested_memonheap(); } else { set_requested_memonheap((Double) value); } break; case REQUESTED_MEMOFFHEAP: if (value == null) { unset_requested_memoffheap(); } else { set_requested_memoffheap((Double) value); } break; case REQUESTED_CPU: if (value == null) { unset_requested_cpu(); } else { set_requested_cpu((Double) value); } break; case ASSIGNED_MEMONHEAP: if (value == null) { unset_assigned_memonheap(); } else { set_assigned_memonheap((Double) value); } break; case ASSIGNED_MEMOFFHEAP: if (value == null) { unset_assigned_memoffheap(); } else { set_assigned_memoffheap((Double) value); } break; case ASSIGNED_CPU: if (value == null) { unset_assigned_cpu(); } else { set_assigned_cpu((Double) value); } break; } } public Object getFieldValue(_Fields field) { switch (field) { case ID: return get_id(); case NAME: return get_name(); case UPTIME_SECS: return get_uptime_secs(); case STATUS: return get_status(); case NUM_TASKS: return get_num_tasks(); case NUM_WORKERS: return get_num_workers(); case NUM_EXECUTORS: return get_num_executors(); case TOPOLOGY_CONF: return get_topology_conf(); case ID_TO_SPOUT_AGG_STATS: return get_id_to_spout_agg_stats(); case ID_TO_BOLT_AGG_STATS: return get_id_to_bolt_agg_stats(); case SCHED_STATUS: return get_sched_status(); case TOPOLOGY_STATS: return get_topology_stats(); case OWNER: return get_owner(); case DEBUG_OPTIONS: return get_debug_options(); case REPLICATION_COUNT: return get_replication_count(); case REQUESTED_MEMONHEAP: return get_requested_memonheap(); case REQUESTED_MEMOFFHEAP: return get_requested_memoffheap(); case REQUESTED_CPU: return get_requested_cpu(); case ASSIGNED_MEMONHEAP: return get_assigned_memonheap(); case ASSIGNED_MEMOFFHEAP: return get_assigned_memoffheap(); case ASSIGNED_CPU: return get_assigned_cpu(); } 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 ID: return is_set_id(); case NAME: return is_set_name(); case UPTIME_SECS: return is_set_uptime_secs(); case STATUS: return is_set_status(); case NUM_TASKS: return is_set_num_tasks(); case NUM_WORKERS: return is_set_num_workers(); case NUM_EXECUTORS: return is_set_num_executors(); case TOPOLOGY_CONF: return is_set_topology_conf(); case ID_TO_SPOUT_AGG_STATS: return is_set_id_to_spout_agg_stats(); case ID_TO_BOLT_AGG_STATS: return is_set_id_to_bolt_agg_stats(); case SCHED_STATUS: return is_set_sched_status(); case TOPOLOGY_STATS: return is_set_topology_stats(); case OWNER: return is_set_owner(); case DEBUG_OPTIONS: return is_set_debug_options(); case REPLICATION_COUNT: return is_set_replication_count(); case REQUESTED_MEMONHEAP: return is_set_requested_memonheap(); case REQUESTED_MEMOFFHEAP: return is_set_requested_memoffheap(); case REQUESTED_CPU: return is_set_requested_cpu(); case ASSIGNED_MEMONHEAP: return is_set_assigned_memonheap(); case ASSIGNED_MEMOFFHEAP: return is_set_assigned_memoffheap(); case ASSIGNED_CPU: return is_set_assigned_cpu(); } throw new IllegalStateException(); } @Override public boolean equals(Object that) { if (that == null) return false; if (that instanceof TopologyPageInfo) return this.equals((TopologyPageInfo) that); return false; } public boolean equals(TopologyPageInfo that) { if (that == null) return false; boolean this_present_id = true && this.is_set_id(); boolean that_present_id = true && that.is_set_id(); if (this_present_id || that_present_id) { if (!(this_present_id && that_present_id)) return false; if (!this.id.equals(that.id)) return false; } boolean this_present_name = true && this.is_set_name(); boolean that_present_name = true && that.is_set_name(); if (this_present_name || that_present_name) { if (!(this_present_name && that_present_name)) return false; if (!this.name.equals(that.name)) return false; } boolean this_present_uptime_secs = true && this.is_set_uptime_secs(); boolean that_present_uptime_secs = true && that.is_set_uptime_secs(); if (this_present_uptime_secs || that_present_uptime_secs) { if (!(this_present_uptime_secs && that_present_uptime_secs)) return false; if (this.uptime_secs != that.uptime_secs) return false; } boolean this_present_status = true && this.is_set_status(); boolean that_present_status = true && that.is_set_status(); if (this_present_status || that_present_status) { if (!(this_present_status && that_present_status)) return false; if (!this.status.equals(that.status)) return false; } boolean this_present_num_tasks = true && this.is_set_num_tasks(); boolean that_present_num_tasks = true && that.is_set_num_tasks(); if (this_present_num_tasks || that_present_num_tasks) { if (!(this_present_num_tasks && that_present_num_tasks)) return false; if (this.num_tasks != that.num_tasks) return false; } boolean this_present_num_workers = true && this.is_set_num_workers(); boolean that_present_num_workers = true && that.is_set_num_workers(); if (this_present_num_workers || that_present_num_workers) { if (!(this_present_num_workers && that_present_num_workers)) return false; if (this.num_workers != that.num_workers) return false; } boolean this_present_num_executors = true && this.is_set_num_executors(); boolean that_present_num_executors = true && that.is_set_num_executors(); if (this_present_num_executors || that_present_num_executors) { if (!(this_present_num_executors && that_present_num_executors)) return false; if (this.num_executors != that.num_executors) return false; } boolean this_present_topology_conf = true && this.is_set_topology_conf(); boolean that_present_topology_conf = true && that.is_set_topology_conf(); if (this_present_topology_conf || that_present_topology_conf) { if (!(this_present_topology_conf && that_present_topology_conf)) return false; if (!this.topology_conf.equals(that.topology_conf)) return false; } boolean this_present_id_to_spout_agg_stats = true && this.is_set_id_to_spout_agg_stats(); boolean that_present_id_to_spout_agg_stats = true && that.is_set_id_to_spout_agg_stats(); if (this_present_id_to_spout_agg_stats || that_present_id_to_spout_agg_stats) { if (!(this_present_id_to_spout_agg_stats && that_present_id_to_spout_agg_stats)) return false; if (!this.id_to_spout_agg_stats.equals(that.id_to_spout_agg_stats)) return false; } boolean this_present_id_to_bolt_agg_stats = true && this.is_set_id_to_bolt_agg_stats(); boolean that_present_id_to_bolt_agg_stats = true && that.is_set_id_to_bolt_agg_stats(); if (this_present_id_to_bolt_agg_stats || that_present_id_to_bolt_agg_stats) { if (!(this_present_id_to_bolt_agg_stats && that_present_id_to_bolt_agg_stats)) return false; if (!this.id_to_bolt_agg_stats.equals(that.id_to_bolt_agg_stats)) return false; } boolean this_present_sched_status = true && this.is_set_sched_status(); boolean that_present_sched_status = true && that.is_set_sched_status(); if (this_present_sched_status || that_present_sched_status) { if (!(this_present_sched_status && that_present_sched_status)) return false; if (!this.sched_status.equals(that.sched_status)) return false; } boolean this_present_topology_stats = true && this.is_set_topology_stats(); boolean that_present_topology_stats = true && that.is_set_topology_stats(); if (this_present_topology_stats || that_present_topology_stats) { if (!(this_present_topology_stats && that_present_topology_stats)) return false; if (!this.topology_stats.equals(that.topology_stats)) return false; } boolean this_present_owner = true && this.is_set_owner(); boolean that_present_owner = true && that.is_set_owner(); if (this_present_owner || that_present_owner) { if (!(this_present_owner && that_present_owner)) return false; if (!this.owner.equals(that.owner)) return false; } boolean this_present_debug_options = true && this.is_set_debug_options(); boolean that_present_debug_options = true && that.is_set_debug_options(); if (this_present_debug_options || that_present_debug_options) { if (!(this_present_debug_options && that_present_debug_options)) return false; if (!this.debug_options.equals(that.debug_options)) return false; } boolean this_present_replication_count = true && this.is_set_replication_count(); boolean that_present_replication_count = true && that.is_set_replication_count(); if (this_present_replication_count || that_present_replication_count) { if (!(this_present_replication_count && that_present_replication_count)) return false; if (this.replication_count != that.replication_count) return false; } boolean this_present_requested_memonheap = true && this.is_set_requested_memonheap(); boolean that_present_requested_memonheap = true && that.is_set_requested_memonheap(); if (this_present_requested_memonheap || that_present_requested_memonheap) { if (!(this_present_requested_memonheap && that_present_requested_memonheap)) return false; if (this.requested_memonheap != that.requested_memonheap) return false; } boolean this_present_requested_memoffheap = true && this.is_set_requested_memoffheap(); boolean that_present_requested_memoffheap = true && that.is_set_requested_memoffheap(); if (this_present_requested_memoffheap || that_present_requested_memoffheap) { if (!(this_present_requested_memoffheap && that_present_requested_memoffheap)) return false; if (this.requested_memoffheap != that.requested_memoffheap) return false; } boolean this_present_requested_cpu = true && this.is_set_requested_cpu(); boolean that_present_requested_cpu = true && that.is_set_requested_cpu(); if (this_present_requested_cpu || that_present_requested_cpu) { if (!(this_present_requested_cpu && that_present_requested_cpu)) return false; if (this.requested_cpu != that.requested_cpu) return false; } boolean this_present_assigned_memonheap = true && this.is_set_assigned_memonheap(); boolean that_present_assigned_memonheap = true && that.is_set_assigned_memonheap(); if (this_present_assigned_memonheap || that_present_assigned_memonheap) { if (!(this_present_assigned_memonheap && that_present_assigned_memonheap)) return false; if (this.assigned_memonheap != that.assigned_memonheap) return false; } boolean this_present_assigned_memoffheap = true && this.is_set_assigned_memoffheap(); boolean that_present_assigned_memoffheap = true && that.is_set_assigned_memoffheap(); if (this_present_assigned_memoffheap || that_present_assigned_memoffheap) { if (!(this_present_assigned_memoffheap && that_present_assigned_memoffheap)) return false; if (this.assigned_memoffheap != that.assigned_memoffheap) return false; } boolean this_present_assigned_cpu = true && this.is_set_assigned_cpu(); boolean that_present_assigned_cpu = true && that.is_set_assigned_cpu(); if (this_present_assigned_cpu || that_present_assigned_cpu) { if (!(this_present_assigned_cpu && that_present_assigned_cpu)) return false; if (this.assigned_cpu != that.assigned_cpu) return false; } return true; } @Override public int hashCode() { List<Object> list = new ArrayList<Object>(); boolean present_id = true && (is_set_id()); list.add(present_id); if (present_id) list.add(id); boolean present_name = true && (is_set_name()); list.add(present_name); if (present_name) list.add(name); boolean present_uptime_secs = true && (is_set_uptime_secs()); list.add(present_uptime_secs); if (present_uptime_secs) list.add(uptime_secs); boolean present_status = true && (is_set_status()); list.add(present_status); if (present_status) list.add(status); boolean present_num_tasks = true && (is_set_num_tasks()); list.add(present_num_tasks); if (present_num_tasks) list.add(num_tasks); boolean present_num_workers = true && (is_set_num_workers()); list.add(present_num_workers); if (present_num_workers) list.add(num_workers); boolean present_num_executors = true && (is_set_num_executors()); list.add(present_num_executors); if (present_num_executors) list.add(num_executors); boolean present_topology_conf = true && (is_set_topology_conf()); list.add(present_topology_conf); if (present_topology_conf) list.add(topology_conf); boolean present_id_to_spout_agg_stats = true && (is_set_id_to_spout_agg_stats()); list.add(present_id_to_spout_agg_stats); if (present_id_to_spout_agg_stats) list.add(id_to_spout_agg_stats); boolean present_id_to_bolt_agg_stats = true && (is_set_id_to_bolt_agg_stats()); list.add(present_id_to_bolt_agg_stats); if (present_id_to_bolt_agg_stats) list.add(id_to_bolt_agg_stats); boolean present_sched_status = true && (is_set_sched_status()); list.add(present_sched_status); if (present_sched_status) list.add(sched_status); boolean present_topology_stats = true && (is_set_topology_stats()); list.add(present_topology_stats); if (present_topology_stats) list.add(topology_stats); boolean present_owner = true && (is_set_owner()); list.add(present_owner); if (present_owner) list.add(owner); boolean present_debug_options = true && (is_set_debug_options()); list.add(present_debug_options); if (present_debug_options) list.add(debug_options); boolean present_replication_count = true && (is_set_replication_count()); list.add(present_replication_count); if (present_replication_count) list.add(replication_count); boolean present_requested_memonheap = true && (is_set_requested_memonheap()); list.add(present_requested_memonheap); if (present_requested_memonheap) list.add(requested_memonheap); boolean present_requested_memoffheap = true && (is_set_requested_memoffheap()); list.add(present_requested_memoffheap); if (present_requested_memoffheap) list.add(requested_memoffheap); boolean present_requested_cpu = true && (is_set_requested_cpu()); list.add(present_requested_cpu); if (present_requested_cpu) list.add(requested_cpu); boolean present_assigned_memonheap = true && (is_set_assigned_memonheap()); list.add(present_assigned_memonheap); if (present_assigned_memonheap) list.add(assigned_memonheap); boolean present_assigned_memoffheap = true && (is_set_assigned_memoffheap()); list.add(present_assigned_memoffheap); if (present_assigned_memoffheap) list.add(assigned_memoffheap); boolean present_assigned_cpu = true && (is_set_assigned_cpu()); list.add(present_assigned_cpu); if (present_assigned_cpu) list.add(assigned_cpu); return list.hashCode(); } @Override public int compareTo(TopologyPageInfo other) { if (!getClass().equals(other.getClass())) { return getClass().getName().compareTo(other.getClass().getName()); } int lastComparison = 0; lastComparison = Boolean.valueOf(is_set_id()).compareTo(other.is_set_id()); if (lastComparison != 0) { return lastComparison; } if (is_set_id()) { lastComparison = org.apache.thrift.TBaseHelper.compareTo(this.id, other.id); if (lastComparison != 0) { return lastComparison; } } lastComparison = Boolean.valueOf(is_set_name()).compareTo(other.is_set_name()); if (lastComparison != 0) { return lastComparison; } if (is_set_name()) { lastComparison = org.apache.thrift.TBaseHelper.compareTo(this.name, other.name); if (lastComparison != 0) { return lastComparison; } } lastComparison = Boolean.valueOf(is_set_uptime_secs()).compareTo(other.is_set_uptime_secs()); if (lastComparison != 0) { return lastComparison; } if (is_set_uptime_secs()) { lastComparison = org.apache.thrift.TBaseHelper.compareTo(this.uptime_secs, other.uptime_secs); if (lastComparison != 0) { return lastComparison; } } lastComparison = Boolean.valueOf(is_set_status()).compareTo(other.is_set_status()); if (lastComparison != 0) { return lastComparison; } if (is_set_status()) { lastComparison = org.apache.thrift.TBaseHelper.compareTo(this.status, other.status); if (lastComparison != 0) { return lastComparison; } } lastComparison = Boolean.valueOf(is_set_num_tasks()).compareTo(other.is_set_num_tasks()); if (lastComparison != 0) { return lastComparison; } if (is_set_num_tasks()) { lastComparison = org.apache.thrift.TBaseHelper.compareTo(this.num_tasks, other.num_tasks); if (lastComparison != 0) { return lastComparison; } } lastComparison = Boolean.valueOf(is_set_num_workers()).compareTo(other.is_set_num_workers()); if (lastComparison != 0) { return lastComparison; } if (is_set_num_workers()) { lastComparison = org.apache.thrift.TBaseHelper.compareTo(this.num_workers, other.num_workers); if (lastComparison != 0) { return lastComparison; } } lastComparison = Boolean.valueOf(is_set_num_executors()).compareTo(other.is_set_num_executors()); if (lastComparison != 0) { return lastComparison; } if (is_set_num_executors()) { lastComparison = org.apache.thrift.TBaseHelper.compareTo(this.num_executors, other.num_executors); if (lastComparison != 0) { return lastComparison; } } lastComparison = Boolean.valueOf(is_set_topology_conf()).compareTo(other.is_set_topology_conf()); if (lastComparison != 0) { return lastComparison; } if (is_set_topology_conf()) { lastComparison = org.apache.thrift.TBaseHelper.compareTo(this.topology_conf, other.topology_conf); if (lastComparison != 0) { return lastComparison; } } lastComparison = Boolean.valueOf(is_set_id_to_spout_agg_stats()) .compareTo(other.is_set_id_to_spout_agg_stats()); if (lastComparison != 0) { return lastComparison; } if (is_set_id_to_spout_agg_stats()) { lastComparison = org.apache.thrift.TBaseHelper.compareTo(this.id_to_spout_agg_stats, other.id_to_spout_agg_stats); if (lastComparison != 0) { return lastComparison; } } lastComparison = Boolean.valueOf(is_set_id_to_bolt_agg_stats()) .compareTo(other.is_set_id_to_bolt_agg_stats()); if (lastComparison != 0) { return lastComparison; } if (is_set_id_to_bolt_agg_stats()) { lastComparison = org.apache.thrift.TBaseHelper.compareTo(this.id_to_bolt_agg_stats, other.id_to_bolt_agg_stats); if (lastComparison != 0) { return lastComparison; } } lastComparison = Boolean.valueOf(is_set_sched_status()).compareTo(other.is_set_sched_status()); if (lastComparison != 0) { return lastComparison; } if (is_set_sched_status()) { lastComparison = org.apache.thrift.TBaseHelper.compareTo(this.sched_status, other.sched_status); if (lastComparison != 0) { return lastComparison; } } lastComparison = Boolean.valueOf(is_set_topology_stats()).compareTo(other.is_set_topology_stats()); if (lastComparison != 0) { return lastComparison; } if (is_set_topology_stats()) { lastComparison = org.apache.thrift.TBaseHelper.compareTo(this.topology_stats, other.topology_stats); if (lastComparison != 0) { return lastComparison; } } lastComparison = Boolean.valueOf(is_set_owner()).compareTo(other.is_set_owner()); if (lastComparison != 0) { return lastComparison; } if (is_set_owner()) { lastComparison = org.apache.thrift.TBaseHelper.compareTo(this.owner, other.owner); if (lastComparison != 0) { return lastComparison; } } lastComparison = Boolean.valueOf(is_set_debug_options()).compareTo(other.is_set_debug_options()); if (lastComparison != 0) { return lastComparison; } if (is_set_debug_options()) { lastComparison = org.apache.thrift.TBaseHelper.compareTo(this.debug_options, other.debug_options); if (lastComparison != 0) { return lastComparison; } } lastComparison = Boolean.valueOf(is_set_replication_count()).compareTo(other.is_set_replication_count()); if (lastComparison != 0) { return lastComparison; } if (is_set_replication_count()) { lastComparison = org.apache.thrift.TBaseHelper.compareTo(this.replication_count, other.replication_count); if (lastComparison != 0) { return lastComparison; } } lastComparison = Boolean.valueOf(is_set_requested_memonheap()) .compareTo(other.is_set_requested_memonheap()); if (lastComparison != 0) { return lastComparison; } if (is_set_requested_memonheap()) { lastComparison = org.apache.thrift.TBaseHelper.compareTo(this.requested_memonheap, other.requested_memonheap); if (lastComparison != 0) { return lastComparison; } } lastComparison = Boolean.valueOf(is_set_requested_memoffheap()) .compareTo(other.is_set_requested_memoffheap()); if (lastComparison != 0) { return lastComparison; } if (is_set_requested_memoffheap()) { lastComparison = org.apache.thrift.TBaseHelper.compareTo(this.requested_memoffheap, other.requested_memoffheap); if (lastComparison != 0) { return lastComparison; } } lastComparison = Boolean.valueOf(is_set_requested_cpu()).compareTo(other.is_set_requested_cpu()); if (lastComparison != 0) { return lastComparison; } if (is_set_requested_cpu()) { lastComparison = org.apache.thrift.TBaseHelper.compareTo(this.requested_cpu, other.requested_cpu); if (lastComparison != 0) { return lastComparison; } } lastComparison = Boolean.valueOf(is_set_assigned_memonheap()).compareTo(other.is_set_assigned_memonheap()); if (lastComparison != 0) { return lastComparison; } if (is_set_assigned_memonheap()) { lastComparison = org.apache.thrift.TBaseHelper.compareTo(this.assigned_memonheap, other.assigned_memonheap); if (lastComparison != 0) { return lastComparison; } } lastComparison = Boolean.valueOf(is_set_assigned_memoffheap()) .compareTo(other.is_set_assigned_memoffheap()); if (lastComparison != 0) { return lastComparison; } if (is_set_assigned_memoffheap()) { lastComparison = org.apache.thrift.TBaseHelper.compareTo(this.assigned_memoffheap, other.assigned_memoffheap); if (lastComparison != 0) { return lastComparison; } } lastComparison = Boolean.valueOf(is_set_assigned_cpu()).compareTo(other.is_set_assigned_cpu()); if (lastComparison != 0) { return lastComparison; } if (is_set_assigned_cpu()) { lastComparison = org.apache.thrift.TBaseHelper.compareTo(this.assigned_cpu, other.assigned_cpu); if (lastComparison != 0) { return lastComparison; } } return 0; } public _Fields fieldForId(int fieldId) { return _Fields.findByThriftId(fieldId); } public void read(org.apache.thrift.protocol.TProtocol iprot) throws org.apache.thrift.TException { schemes.get(iprot.getScheme()).getScheme().read(iprot, this); } public void write(org.apache.thrift.protocol.TProtocol oprot) throws org.apache.thrift.TException { schemes.get(oprot.getScheme()).getScheme().write(oprot, this); } @Override public String toString() { StringBuilder sb = new StringBuilder("TopologyPageInfo("); boolean first = true; sb.append("id:"); if (this.id == null) { sb.append("null"); } else { sb.append(this.id); } first = false; if (is_set_name()) { if (!first) sb.append(", "); sb.append("name:"); if (this.name == null) { sb.append("null"); } else { sb.append(this.name); } first = false; } if (is_set_uptime_secs()) { if (!first) sb.append(", "); sb.append("uptime_secs:"); sb.append(this.uptime_secs); first = false; } if (is_set_status()) { if (!first) sb.append(", "); sb.append("status:"); if (this.status == null) { sb.append("null"); } else { sb.append(this.status); } first = false; } if (is_set_num_tasks()) { if (!first) sb.append(", "); sb.append("num_tasks:"); sb.append(this.num_tasks); first = false; } if (is_set_num_workers()) { if (!first) sb.append(", "); sb.append("num_workers:"); sb.append(this.num_workers); first = false; } if (is_set_num_executors()) { if (!first) sb.append(", "); sb.append("num_executors:"); sb.append(this.num_executors); first = false; } if (is_set_topology_conf()) { if (!first) sb.append(", "); sb.append("topology_conf:"); if (this.topology_conf == null) { sb.append("null"); } else { sb.append(this.topology_conf); } first = false; } if (is_set_id_to_spout_agg_stats()) { if (!first) sb.append(", "); sb.append("id_to_spout_agg_stats:"); if (this.id_to_spout_agg_stats == null) { sb.append("null"); } else { sb.append(this.id_to_spout_agg_stats); } first = false; } if (is_set_id_to_bolt_agg_stats()) { if (!first) sb.append(", "); sb.append("id_to_bolt_agg_stats:"); if (this.id_to_bolt_agg_stats == null) { sb.append("null"); } else { sb.append(this.id_to_bolt_agg_stats); } first = false; } if (is_set_sched_status()) { if (!first) sb.append(", "); sb.append("sched_status:"); if (this.sched_status == null) { sb.append("null"); } else { sb.append(this.sched_status); } first = false; } if (is_set_topology_stats()) { if (!first) sb.append(", "); sb.append("topology_stats:"); if (this.topology_stats == null) { sb.append("null"); } else { sb.append(this.topology_stats); } first = false; } if (is_set_owner()) { if (!first) sb.append(", "); sb.append("owner:"); if (this.owner == null) { sb.append("null"); } else { sb.append(this.owner); } first = false; } if (is_set_debug_options()) { if (!first) sb.append(", "); sb.append("debug_options:"); if (this.debug_options == null) { sb.append("null"); } else { sb.append(this.debug_options); } first = false; } if (is_set_replication_count()) { if (!first) sb.append(", "); sb.append("replication_count:"); sb.append(this.replication_count); first = false; } if (is_set_requested_memonheap()) { if (!first) sb.append(", "); sb.append("requested_memonheap:"); sb.append(this.requested_memonheap); first = false; } if (is_set_requested_memoffheap()) { if (!first) sb.append(", "); sb.append("requested_memoffheap:"); sb.append(this.requested_memoffheap); first = false; } if (is_set_requested_cpu()) { if (!first) sb.append(", "); sb.append("requested_cpu:"); sb.append(this.requested_cpu); first = false; } if (is_set_assigned_memonheap()) { if (!first) sb.append(", "); sb.append("assigned_memonheap:"); sb.append(this.assigned_memonheap); first = false; } if (is_set_assigned_memoffheap()) { if (!first) sb.append(", "); sb.append("assigned_memoffheap:"); sb.append(this.assigned_memoffheap); first = false; } if (is_set_assigned_cpu()) { if (!first) sb.append(", "); sb.append("assigned_cpu:"); sb.append(this.assigned_cpu); first = false; } sb.append(")"); return sb.toString(); } public void validate() throws org.apache.thrift.TException { // check for required fields if (!is_set_id()) { throw new org.apache.thrift.protocol.TProtocolException( "Required field 'id' is unset! Struct:" + toString()); } // check for sub-struct validity if (topology_stats != null) { topology_stats.validate(); } if (debug_options != null) { debug_options.validate(); } } private void writeObject(java.io.ObjectOutputStream out) throws java.io.IOException { try { write(new org.apache.thrift.protocol.TCompactProtocol( new org.apache.thrift.transport.TIOStreamTransport(out))); } catch (org.apache.thrift.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 org.apache.thrift.protocol.TCompactProtocol( new org.apache.thrift.transport.TIOStreamTransport(in))); } catch (org.apache.thrift.TException te) { throw new java.io.IOException(te); } } private static class TopologyPageInfoStandardSchemeFactory implements SchemeFactory { public TopologyPageInfoStandardScheme getScheme() { return new TopologyPageInfoStandardScheme(); } } private static class TopologyPageInfoStandardScheme extends StandardScheme<TopologyPageInfo> { public void read(org.apache.thrift.protocol.TProtocol iprot, TopologyPageInfo struct) throws org.apache.thrift.TException { org.apache.thrift.protocol.TField schemeField; iprot.readStructBegin(); while (true) { schemeField = iprot.readFieldBegin(); if (schemeField.type == org.apache.thrift.protocol.TType.STOP) { break; } switch (schemeField.id) { case 1: // ID if (schemeField.type == org.apache.thrift.protocol.TType.STRING) { struct.id = iprot.readString(); struct.set_id_isSet(true); } else { org.apache.thrift.protocol.TProtocolUtil.skip(iprot, schemeField.type); } break; case 2: // NAME if (schemeField.type == org.apache.thrift.protocol.TType.STRING) { struct.name = iprot.readString(); struct.set_name_isSet(true); } else { org.apache.thrift.protocol.TProtocolUtil.skip(iprot, schemeField.type); } break; case 3: // UPTIME_SECS if (schemeField.type == org.apache.thrift.protocol.TType.I32) { struct.uptime_secs = iprot.readI32(); struct.set_uptime_secs_isSet(true); } else { org.apache.thrift.protocol.TProtocolUtil.skip(iprot, schemeField.type); } break; case 4: // STATUS if (schemeField.type == org.apache.thrift.protocol.TType.STRING) { struct.status = iprot.readString(); struct.set_status_isSet(true); } else { org.apache.thrift.protocol.TProtocolUtil.skip(iprot, schemeField.type); } break; case 5: // NUM_TASKS if (schemeField.type == org.apache.thrift.protocol.TType.I32) { struct.num_tasks = iprot.readI32(); struct.set_num_tasks_isSet(true); } else { org.apache.thrift.protocol.TProtocolUtil.skip(iprot, schemeField.type); } break; case 6: // NUM_WORKERS if (schemeField.type == org.apache.thrift.protocol.TType.I32) { struct.num_workers = iprot.readI32(); struct.set_num_workers_isSet(true); } else { org.apache.thrift.protocol.TProtocolUtil.skip(iprot, schemeField.type); } break; case 7: // NUM_EXECUTORS if (schemeField.type == org.apache.thrift.protocol.TType.I32) { struct.num_executors = iprot.readI32(); struct.set_num_executors_isSet(true); } else { org.apache.thrift.protocol.TProtocolUtil.skip(iprot, schemeField.type); } break; case 8: // TOPOLOGY_CONF if (schemeField.type == org.apache.thrift.protocol.TType.STRING) { struct.topology_conf = iprot.readString(); struct.set_topology_conf_isSet(true); } else { org.apache.thrift.protocol.TProtocolUtil.skip(iprot, schemeField.type); } break; case 9: // ID_TO_SPOUT_AGG_STATS if (schemeField.type == org.apache.thrift.protocol.TType.MAP) { { org.apache.thrift.protocol.TMap _map402 = iprot.readMapBegin(); struct.id_to_spout_agg_stats = new HashMap<String, ComponentAggregateStats>( 2 * _map402.size); String _key403; ComponentAggregateStats _val404; for (int _i405 = 0; _i405 < _map402.size; ++_i405) { _key403 = iprot.readString(); _val404 = new ComponentAggregateStats(); _val404.read(iprot); struct.id_to_spout_agg_stats.put(_key403, _val404); } iprot.readMapEnd(); } struct.set_id_to_spout_agg_stats_isSet(true); } else { org.apache.thrift.protocol.TProtocolUtil.skip(iprot, schemeField.type); } break; case 10: // ID_TO_BOLT_AGG_STATS if (schemeField.type == org.apache.thrift.protocol.TType.MAP) { { org.apache.thrift.protocol.TMap _map406 = iprot.readMapBegin(); struct.id_to_bolt_agg_stats = new HashMap<String, ComponentAggregateStats>( 2 * _map406.size); String _key407; ComponentAggregateStats _val408; for (int _i409 = 0; _i409 < _map406.size; ++_i409) { _key407 = iprot.readString(); _val408 = new ComponentAggregateStats(); _val408.read(iprot); struct.id_to_bolt_agg_stats.put(_key407, _val408); } iprot.readMapEnd(); } struct.set_id_to_bolt_agg_stats_isSet(true); } else { org.apache.thrift.protocol.TProtocolUtil.skip(iprot, schemeField.type); } break; case 11: // SCHED_STATUS if (schemeField.type == org.apache.thrift.protocol.TType.STRING) { struct.sched_status = iprot.readString(); struct.set_sched_status_isSet(true); } else { org.apache.thrift.protocol.TProtocolUtil.skip(iprot, schemeField.type); } break; case 12: // TOPOLOGY_STATS if (schemeField.type == org.apache.thrift.protocol.TType.STRUCT) { struct.topology_stats = new TopologyStats(); struct.topology_stats.read(iprot); struct.set_topology_stats_isSet(true); } else { org.apache.thrift.protocol.TProtocolUtil.skip(iprot, schemeField.type); } break; case 13: // OWNER if (schemeField.type == org.apache.thrift.protocol.TType.STRING) { struct.owner = iprot.readString(); struct.set_owner_isSet(true); } else { org.apache.thrift.protocol.TProtocolUtil.skip(iprot, schemeField.type); } break; case 14: // DEBUG_OPTIONS if (schemeField.type == org.apache.thrift.protocol.TType.STRUCT) { struct.debug_options = new DebugOptions(); struct.debug_options.read(iprot); struct.set_debug_options_isSet(true); } else { org.apache.thrift.protocol.TProtocolUtil.skip(iprot, schemeField.type); } break; case 15: // REPLICATION_COUNT if (schemeField.type == org.apache.thrift.protocol.TType.I32) { struct.replication_count = iprot.readI32(); struct.set_replication_count_isSet(true); } else { org.apache.thrift.protocol.TProtocolUtil.skip(iprot, schemeField.type); } break; case 521: // REQUESTED_MEMONHEAP if (schemeField.type == org.apache.thrift.protocol.TType.DOUBLE) { struct.requested_memonheap = iprot.readDouble(); struct.set_requested_memonheap_isSet(true); } else { org.apache.thrift.protocol.TProtocolUtil.skip(iprot, schemeField.type); } break; case 522: // REQUESTED_MEMOFFHEAP if (schemeField.type == org.apache.thrift.protocol.TType.DOUBLE) { struct.requested_memoffheap = iprot.readDouble(); struct.set_requested_memoffheap_isSet(true); } else { org.apache.thrift.protocol.TProtocolUtil.skip(iprot, schemeField.type); } break; case 523: // REQUESTED_CPU if (schemeField.type == org.apache.thrift.protocol.TType.DOUBLE) { struct.requested_cpu = iprot.readDouble(); struct.set_requested_cpu_isSet(true); } else { org.apache.thrift.protocol.TProtocolUtil.skip(iprot, schemeField.type); } break; case 524: // ASSIGNED_MEMONHEAP if (schemeField.type == org.apache.thrift.protocol.TType.DOUBLE) { struct.assigned_memonheap = iprot.readDouble(); struct.set_assigned_memonheap_isSet(true); } else { org.apache.thrift.protocol.TProtocolUtil.skip(iprot, schemeField.type); } break; case 525: // ASSIGNED_MEMOFFHEAP if (schemeField.type == org.apache.thrift.protocol.TType.DOUBLE) { struct.assigned_memoffheap = iprot.readDouble(); struct.set_assigned_memoffheap_isSet(true); } else { org.apache.thrift.protocol.TProtocolUtil.skip(iprot, schemeField.type); } break; case 526: // ASSIGNED_CPU if (schemeField.type == org.apache.thrift.protocol.TType.DOUBLE) { struct.assigned_cpu = iprot.readDouble(); struct.set_assigned_cpu_isSet(true); } else { org.apache.thrift.protocol.TProtocolUtil.skip(iprot, schemeField.type); } break; default: org.apache.thrift.protocol.TProtocolUtil.skip(iprot, schemeField.type); } iprot.readFieldEnd(); } iprot.readStructEnd(); struct.validate(); } public void write(org.apache.thrift.protocol.TProtocol oprot, TopologyPageInfo struct) throws org.apache.thrift.TException { struct.validate(); oprot.writeStructBegin(STRUCT_DESC); if (struct.id != null) { oprot.writeFieldBegin(ID_FIELD_DESC); oprot.writeString(struct.id); oprot.writeFieldEnd(); } if (struct.name != null) { if (struct.is_set_name()) { oprot.writeFieldBegin(NAME_FIELD_DESC); oprot.writeString(struct.name); oprot.writeFieldEnd(); } } if (struct.is_set_uptime_secs()) { oprot.writeFieldBegin(UPTIME_SECS_FIELD_DESC); oprot.writeI32(struct.uptime_secs); oprot.writeFieldEnd(); } if (struct.status != null) { if (struct.is_set_status()) { oprot.writeFieldBegin(STATUS_FIELD_DESC); oprot.writeString(struct.status); oprot.writeFieldEnd(); } } if (struct.is_set_num_tasks()) { oprot.writeFieldBegin(NUM_TASKS_FIELD_DESC); oprot.writeI32(struct.num_tasks); oprot.writeFieldEnd(); } if (struct.is_set_num_workers()) { oprot.writeFieldBegin(NUM_WORKERS_FIELD_DESC); oprot.writeI32(struct.num_workers); oprot.writeFieldEnd(); } if (struct.is_set_num_executors()) { oprot.writeFieldBegin(NUM_EXECUTORS_FIELD_DESC); oprot.writeI32(struct.num_executors); oprot.writeFieldEnd(); } if (struct.topology_conf != null) { if (struct.is_set_topology_conf()) { oprot.writeFieldBegin(TOPOLOGY_CONF_FIELD_DESC); oprot.writeString(struct.topology_conf); oprot.writeFieldEnd(); } } if (struct.id_to_spout_agg_stats != null) { if (struct.is_set_id_to_spout_agg_stats()) { oprot.writeFieldBegin(ID_TO_SPOUT_AGG_STATS_FIELD_DESC); { oprot.writeMapBegin(new org.apache.thrift.protocol.TMap( org.apache.thrift.protocol.TType.STRING, org.apache.thrift.protocol.TType.STRUCT, struct.id_to_spout_agg_stats.size())); for (Map.Entry<String, ComponentAggregateStats> _iter410 : struct.id_to_spout_agg_stats .entrySet()) { oprot.writeString(_iter410.getKey()); _iter410.getValue().write(oprot); } oprot.writeMapEnd(); } oprot.writeFieldEnd(); } } if (struct.id_to_bolt_agg_stats != null) { if (struct.is_set_id_to_bolt_agg_stats()) { oprot.writeFieldBegin(ID_TO_BOLT_AGG_STATS_FIELD_DESC); { oprot.writeMapBegin(new org.apache.thrift.protocol.TMap( org.apache.thrift.protocol.TType.STRING, org.apache.thrift.protocol.TType.STRUCT, struct.id_to_bolt_agg_stats.size())); for (Map.Entry<String, ComponentAggregateStats> _iter411 : struct.id_to_bolt_agg_stats .entrySet()) { oprot.writeString(_iter411.getKey()); _iter411.getValue().write(oprot); } oprot.writeMapEnd(); } oprot.writeFieldEnd(); } } if (struct.sched_status != null) { if (struct.is_set_sched_status()) { oprot.writeFieldBegin(SCHED_STATUS_FIELD_DESC); oprot.writeString(struct.sched_status); oprot.writeFieldEnd(); } } if (struct.topology_stats != null) { if (struct.is_set_topology_stats()) { oprot.writeFieldBegin(TOPOLOGY_STATS_FIELD_DESC); struct.topology_stats.write(oprot); oprot.writeFieldEnd(); } } if (struct.owner != null) { if (struct.is_set_owner()) { oprot.writeFieldBegin(OWNER_FIELD_DESC); oprot.writeString(struct.owner); oprot.writeFieldEnd(); } } if (struct.debug_options != null) { if (struct.is_set_debug_options()) { oprot.writeFieldBegin(DEBUG_OPTIONS_FIELD_DESC); struct.debug_options.write(oprot); oprot.writeFieldEnd(); } } if (struct.is_set_replication_count()) { oprot.writeFieldBegin(REPLICATION_COUNT_FIELD_DESC); oprot.writeI32(struct.replication_count); oprot.writeFieldEnd(); } if (struct.is_set_requested_memonheap()) { oprot.writeFieldBegin(REQUESTED_MEMONHEAP_FIELD_DESC); oprot.writeDouble(struct.requested_memonheap); oprot.writeFieldEnd(); } if (struct.is_set_requested_memoffheap()) { oprot.writeFieldBegin(REQUESTED_MEMOFFHEAP_FIELD_DESC); oprot.writeDouble(struct.requested_memoffheap); oprot.writeFieldEnd(); } if (struct.is_set_requested_cpu()) { oprot.writeFieldBegin(REQUESTED_CPU_FIELD_DESC); oprot.writeDouble(struct.requested_cpu); oprot.writeFieldEnd(); } if (struct.is_set_assigned_memonheap()) { oprot.writeFieldBegin(ASSIGNED_MEMONHEAP_FIELD_DESC); oprot.writeDouble(struct.assigned_memonheap); oprot.writeFieldEnd(); } if (struct.is_set_assigned_memoffheap()) { oprot.writeFieldBegin(ASSIGNED_MEMOFFHEAP_FIELD_DESC); oprot.writeDouble(struct.assigned_memoffheap); oprot.writeFieldEnd(); } if (struct.is_set_assigned_cpu()) { oprot.writeFieldBegin(ASSIGNED_CPU_FIELD_DESC); oprot.writeDouble(struct.assigned_cpu); oprot.writeFieldEnd(); } oprot.writeFieldStop(); oprot.writeStructEnd(); } } private static class TopologyPageInfoTupleSchemeFactory implements SchemeFactory { public TopologyPageInfoTupleScheme getScheme() { return new TopologyPageInfoTupleScheme(); } } private static class TopologyPageInfoTupleScheme extends TupleScheme<TopologyPageInfo> { @Override public void write(org.apache.thrift.protocol.TProtocol prot, TopologyPageInfo struct) throws org.apache.thrift.TException { TTupleProtocol oprot = (TTupleProtocol) prot; oprot.writeString(struct.id); BitSet optionals = new BitSet(); if (struct.is_set_name()) { optionals.set(0); } if (struct.is_set_uptime_secs()) { optionals.set(1); } if (struct.is_set_status()) { optionals.set(2); } if (struct.is_set_num_tasks()) { optionals.set(3); } if (struct.is_set_num_workers()) { optionals.set(4); } if (struct.is_set_num_executors()) { optionals.set(5); } if (struct.is_set_topology_conf()) { optionals.set(6); } if (struct.is_set_id_to_spout_agg_stats()) { optionals.set(7); } if (struct.is_set_id_to_bolt_agg_stats()) { optionals.set(8); } if (struct.is_set_sched_status()) { optionals.set(9); } if (struct.is_set_topology_stats()) { optionals.set(10); } if (struct.is_set_owner()) { optionals.set(11); } if (struct.is_set_debug_options()) { optionals.set(12); } if (struct.is_set_replication_count()) { optionals.set(13); } if (struct.is_set_requested_memonheap()) { optionals.set(14); } if (struct.is_set_requested_memoffheap()) { optionals.set(15); } if (struct.is_set_requested_cpu()) { optionals.set(16); } if (struct.is_set_assigned_memonheap()) { optionals.set(17); } if (struct.is_set_assigned_memoffheap()) { optionals.set(18); } if (struct.is_set_assigned_cpu()) { optionals.set(19); } oprot.writeBitSet(optionals, 20); if (struct.is_set_name()) { oprot.writeString(struct.name); } if (struct.is_set_uptime_secs()) { oprot.writeI32(struct.uptime_secs); } if (struct.is_set_status()) { oprot.writeString(struct.status); } if (struct.is_set_num_tasks()) { oprot.writeI32(struct.num_tasks); } if (struct.is_set_num_workers()) { oprot.writeI32(struct.num_workers); } if (struct.is_set_num_executors()) { oprot.writeI32(struct.num_executors); } if (struct.is_set_topology_conf()) { oprot.writeString(struct.topology_conf); } if (struct.is_set_id_to_spout_agg_stats()) { { oprot.writeI32(struct.id_to_spout_agg_stats.size()); for (Map.Entry<String, ComponentAggregateStats> _iter412 : struct.id_to_spout_agg_stats .entrySet()) { oprot.writeString(_iter412.getKey()); _iter412.getValue().write(oprot); } } } if (struct.is_set_id_to_bolt_agg_stats()) { { oprot.writeI32(struct.id_to_bolt_agg_stats.size()); for (Map.Entry<String, ComponentAggregateStats> _iter413 : struct.id_to_bolt_agg_stats .entrySet()) { oprot.writeString(_iter413.getKey()); _iter413.getValue().write(oprot); } } } if (struct.is_set_sched_status()) { oprot.writeString(struct.sched_status); } if (struct.is_set_topology_stats()) { struct.topology_stats.write(oprot); } if (struct.is_set_owner()) { oprot.writeString(struct.owner); } if (struct.is_set_debug_options()) { struct.debug_options.write(oprot); } if (struct.is_set_replication_count()) { oprot.writeI32(struct.replication_count); } if (struct.is_set_requested_memonheap()) { oprot.writeDouble(struct.requested_memonheap); } if (struct.is_set_requested_memoffheap()) { oprot.writeDouble(struct.requested_memoffheap); } if (struct.is_set_requested_cpu()) { oprot.writeDouble(struct.requested_cpu); } if (struct.is_set_assigned_memonheap()) { oprot.writeDouble(struct.assigned_memonheap); } if (struct.is_set_assigned_memoffheap()) { oprot.writeDouble(struct.assigned_memoffheap); } if (struct.is_set_assigned_cpu()) { oprot.writeDouble(struct.assigned_cpu); } } @Override public void read(org.apache.thrift.protocol.TProtocol prot, TopologyPageInfo struct) throws org.apache.thrift.TException { TTupleProtocol iprot = (TTupleProtocol) prot; struct.id = iprot.readString(); struct.set_id_isSet(true); BitSet incoming = iprot.readBitSet(20); if (incoming.get(0)) { struct.name = iprot.readString(); struct.set_name_isSet(true); } if (incoming.get(1)) { struct.uptime_secs = iprot.readI32(); struct.set_uptime_secs_isSet(true); } if (incoming.get(2)) { struct.status = iprot.readString(); struct.set_status_isSet(true); } if (incoming.get(3)) { struct.num_tasks = iprot.readI32(); struct.set_num_tasks_isSet(true); } if (incoming.get(4)) { struct.num_workers = iprot.readI32(); struct.set_num_workers_isSet(true); } if (incoming.get(5)) { struct.num_executors = iprot.readI32(); struct.set_num_executors_isSet(true); } if (incoming.get(6)) { struct.topology_conf = iprot.readString(); struct.set_topology_conf_isSet(true); } if (incoming.get(7)) { { org.apache.thrift.protocol.TMap _map414 = new org.apache.thrift.protocol.TMap( org.apache.thrift.protocol.TType.STRING, org.apache.thrift.protocol.TType.STRUCT, iprot.readI32()); struct.id_to_spout_agg_stats = new HashMap<String, ComponentAggregateStats>(2 * _map414.size); String _key415; ComponentAggregateStats _val416; for (int _i417 = 0; _i417 < _map414.size; ++_i417) { _key415 = iprot.readString(); _val416 = new ComponentAggregateStats(); _val416.read(iprot); struct.id_to_spout_agg_stats.put(_key415, _val416); } } struct.set_id_to_spout_agg_stats_isSet(true); } if (incoming.get(8)) { { org.apache.thrift.protocol.TMap _map418 = new org.apache.thrift.protocol.TMap( org.apache.thrift.protocol.TType.STRING, org.apache.thrift.protocol.TType.STRUCT, iprot.readI32()); struct.id_to_bolt_agg_stats = new HashMap<String, ComponentAggregateStats>(2 * _map418.size); String _key419; ComponentAggregateStats _val420; for (int _i421 = 0; _i421 < _map418.size; ++_i421) { _key419 = iprot.readString(); _val420 = new ComponentAggregateStats(); _val420.read(iprot); struct.id_to_bolt_agg_stats.put(_key419, _val420); } } struct.set_id_to_bolt_agg_stats_isSet(true); } if (incoming.get(9)) { struct.sched_status = iprot.readString(); struct.set_sched_status_isSet(true); } if (incoming.get(10)) { struct.topology_stats = new TopologyStats(); struct.topology_stats.read(iprot); struct.set_topology_stats_isSet(true); } if (incoming.get(11)) { struct.owner = iprot.readString(); struct.set_owner_isSet(true); } if (incoming.get(12)) { struct.debug_options = new DebugOptions(); struct.debug_options.read(iprot); struct.set_debug_options_isSet(true); } if (incoming.get(13)) { struct.replication_count = iprot.readI32(); struct.set_replication_count_isSet(true); } if (incoming.get(14)) { struct.requested_memonheap = iprot.readDouble(); struct.set_requested_memonheap_isSet(true); } if (incoming.get(15)) { struct.requested_memoffheap = iprot.readDouble(); struct.set_requested_memoffheap_isSet(true); } if (incoming.get(16)) { struct.requested_cpu = iprot.readDouble(); struct.set_requested_cpu_isSet(true); } if (incoming.get(17)) { struct.assigned_memonheap = iprot.readDouble(); struct.set_assigned_memonheap_isSet(true); } if (incoming.get(18)) { struct.assigned_memoffheap = iprot.readDouble(); struct.set_assigned_memoffheap_isSet(true); } if (incoming.get(19)) { struct.assigned_cpu = iprot.readDouble(); struct.set_assigned_cpu_isSet(true); } } } }