/** {@inheritDoc} */ @Override public double getCurrentGcCpuLoad() { return metrics().getCurrentGcCpuLoad() * 100; }
/** {@inheritDoc} */ @Override public double getCurrentGcCpuLoad() { return node.metrics().getCurrentGcCpuLoad() * 100; }
/** * @param neighborhood Cluster neighborhood. * @return GC CPU load. */ private static int gcCpus(Map<String, Collection<ClusterNode>> neighborhood) { int cpus = 0; for (Collection<ClusterNode> nodes : neighborhood.values()) { ClusterNode first = F.first(nodes); // Projection can be empty if all nodes in it failed. if (first != null) cpus += first.metrics().getCurrentGcCpuLoad(); } return cpus; }
buf.putDouble(metrics.getCurrentCpuLoad()); buf.putDouble(metrics.getAverageCpuLoad()); buf.putDouble(metrics.getCurrentGcCpuLoad()); buf.putLong(metrics.getHeapMemoryInitialized()); buf.putLong(metrics.getHeapMemoryUsed());
double gcPct = m.getCurrentGcCpuLoad() * 100;
metricsBean.setCurrentCancelledJobs(metrics.getCurrentCancelledJobs()); metricsBean.setCurrentCpuLoad(metrics.getCurrentCpuLoad()); metricsBean.setCurrentGcCpuLoad(metrics.getCurrentGcCpuLoad()); metricsBean.setCurrentDaemonThreadCount(metrics.getCurrentDaemonThreadCount()); metricsBean.setCurrentIdleTime(metrics.getCurrentIdleTime());
assertEquals(metrics.getCurrentCpuLoad(), resMetrics.get(0).get(31)); assertEquals(metrics.getAverageCpuLoad(), resMetrics.get(0).get(32)); assertEquals(metrics.getCurrentGcCpuLoad(), resMetrics.get(0).get(33)); assertEquals(metrics.getHeapMemoryInitialized(), resMetrics.get(0).get(34)); assertEquals(metrics.getHeapMemoryUsed(), resMetrics.get(0).get(35));
metrics.getCurrentCpuLoad(), metrics.getAverageCpuLoad(), metrics.getCurrentGcCpuLoad(), metrics.getHeapMemoryInitialized(), metrics.getHeapMemoryUsed(),
writer.writeDouble(metrics.getCurrentCpuLoad()); writer.writeDouble(metrics.getAverageCpuLoad()); writer.writeDouble(metrics.getCurrentGcCpuLoad()); writer.writeLong(metrics.getHeapMemoryInitialized());
/** {@inheritDoc} */ @Override public double getCurrentGcCpuLoad() { return metrics().getCurrentGcCpuLoad() * 100; }
/** {@inheritDoc} */ @Override public double getCurrentGcCpuLoad() { return node.metrics().getCurrentGcCpuLoad() * 100; }
/** * @param neighborhood Cluster neighborhood. * @return GC CPU load. */ private static int gcCpus(Map<String, Collection<ClusterNode>> neighborhood) { int cpus = 0; for (Collection<ClusterNode> nodes : neighborhood.values()) { ClusterNode first = F.first(nodes); // Projection can be empty if all nodes in it failed. if (first != null) cpus += first.metrics().getCurrentGcCpuLoad(); } return cpus; }
buf.putDouble(metrics.getCurrentCpuLoad()); buf.putDouble(metrics.getAverageCpuLoad()); buf.putDouble(metrics.getCurrentGcCpuLoad()); buf.putLong(metrics.getHeapMemoryInitialized()); buf.putLong(metrics.getHeapMemoryUsed());
double gcPct = m.getCurrentGcCpuLoad() * 100;
metricsBean.setCurrentCancelledJobs(metrics.getCurrentCancelledJobs()); metricsBean.setCurrentCpuLoad(metrics.getCurrentCpuLoad()); metricsBean.setCurrentGcCpuLoad(metrics.getCurrentGcCpuLoad()); metricsBean.setCurrentDaemonThreadCount(metrics.getCurrentDaemonThreadCount()); metricsBean.setCurrentIdleTime(metrics.getCurrentIdleTime());
metrics.getCurrentCpuLoad(), metrics.getAverageCpuLoad(), metrics.getCurrentGcCpuLoad(), metrics.getHeapMemoryInitialized(), metrics.getHeapMemoryUsed(),
writer.writeDouble(metrics.getCurrentCpuLoad()); writer.writeDouble(metrics.getAverageCpuLoad()); writer.writeDouble(metrics.getCurrentGcCpuLoad()); writer.writeLong(metrics.getHeapMemoryInitialized());