public TopologySummary deepCopy() { return new TopologySummary(this); }
/** * Performs a deep copy on <i>other</i>. */ public ClusterSummary(ClusterSummary other) { if (other.is_set_supervisors()) { java.util.List<SupervisorSummary> __this__supervisors = new java.util.ArrayList<SupervisorSummary>(other.supervisors.size()); for (SupervisorSummary other_element : other.supervisors) { __this__supervisors.add(new SupervisorSummary(other_element)); } this.supervisors = __this__supervisors; } if (other.is_set_topologies()) { java.util.List<TopologySummary> __this__topologies = new java.util.ArrayList<TopologySummary>(other.topologies.size()); for (TopologySummary other_element : other.topologies) { __this__topologies.add(new TopologySummary(other_element)); } this.topologies = __this__topologies; } if (other.is_set_nimbuses()) { java.util.List<NimbusSummary> __this__nimbuses = new java.util.ArrayList<NimbusSummary>(other.nimbuses.size()); for (NimbusSummary other_element : other.nimbuses) { __this__nimbuses.add(new NimbusSummary(other_element)); } this.nimbuses = __this__nimbuses; } }
for (int _i156 = 0; _i156 < _list154.size; ++_i156) _elem155 = new TopologySummary(); _elem155.read(iprot); struct.topologies.add(_elem155);
TopologySummary summary = new TopologySummary(topoId, base.get_name(), numTasks, numExecutors, numWorkers, Time.deltaSecs(base.get_launch_time_secs()), extractStatusStr(base)); try {
for (int _i141 = 0; _i141 < _list139.size; ++_i141) _elem140 = new TopologySummary(); _elem140.read(iprot); struct.topologies.add(_elem140);
public TopologySummary deepCopy() { return new TopologySummary(this); }
/** * Performs a deep copy on <i>other</i>. */ public ClusterSummary(ClusterSummary other) { __isset_bitfield = other.__isset_bitfield; if (other.is_set_supervisors()) { List<SupervisorSummary> __this__supervisors = new ArrayList<SupervisorSummary>(other.supervisors.size()); for (SupervisorSummary other_element : other.supervisors) { __this__supervisors.add(new SupervisorSummary(other_element)); } this.supervisors = __this__supervisors; } this.nimbus_uptime_secs = other.nimbus_uptime_secs; if (other.is_set_topologies()) { List<TopologySummary> __this__topologies = new ArrayList<TopologySummary>(other.topologies.size()); for (TopologySummary other_element : other.topologies) { __this__topologies.add(new TopologySummary(other_element)); } this.topologies = __this__topologies; } if (other.is_set_nimbuses()) { List<NimbusSummary> __this__nimbuses = new ArrayList<NimbusSummary>(other.nimbuses.size()); for (NimbusSummary other_element : other.nimbuses) { __this__nimbuses.add(new NimbusSummary(other_element)); } this.nimbuses = __this__nimbuses; } }
for (int _i128 = 0; _i128 < _list126.size; ++_i128) _elem127 = new TopologySummary(); _elem127.read(iprot); struct.topologies.add(_elem127);
for (int _i113 = 0; _i113 < _list111.size; ++_i113) _elem112 = new TopologySummary(); _elem112.read(iprot); struct.topologies.add(_elem112);