/** {@inheritDoc} */ @Override public long getHeapMemoryInitialized() { return metrics().getHeapMemoryInitialized(); }
/** {@inheritDoc} */ @Override public long getHeapMemoryInitialized() { return node.metrics().getHeapMemoryInitialized(); }
/** * Gets total heap size in GB rounded to specified precision. * * @param nodes Nodes. * @param precision Precision. * @return Total heap size in GB. */ public static double heapSize(Iterable<ClusterNode> nodes, int precision) { // In bytes. double heap = 0.0; for (ClusterNode n : nodesPerJvm(nodes)) { ClusterMetrics m = n.metrics(); heap += Math.max(m.getHeapMemoryInitialized(), m.getHeapMemoryMaximum()); } return roundedHeapSize(heap, precision); }
buf.putDouble(metrics.getAverageCpuLoad()); buf.putDouble(metrics.getCurrentGcCpuLoad()); buf.putLong(metrics.getHeapMemoryInitialized()); buf.putLong(metrics.getHeapMemoryUsed()); buf.putLong(metrics.getHeapMemoryCommitted());
metricsBean.setCurrentWaitingJobs(metrics.getCurrentWaitingJobs()); metricsBean.setHeapMemoryCommitted(metrics.getHeapMemoryCommitted()); metricsBean.setHeapMemoryInitialized(metrics.getHeapMemoryInitialized()); metricsBean.setHeapMemoryMaximum(metrics.getHeapMemoryMaximum()); metricsBean.setHeapMemoryUsed(metrics.getHeapMemoryUsed());
heapInit += m.getHeapMemoryInitialized();
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)); assertEquals(metrics.getHeapMemoryCommitted(), resMetrics.get(0).get(36));
metrics.getAverageCpuLoad(), metrics.getCurrentGcCpuLoad(), metrics.getHeapMemoryInitialized(), metrics.getHeapMemoryUsed(), metrics.getHeapMemoryCommitted(),
writer.writeDouble(metrics.getAverageCpuLoad()); writer.writeDouble(metrics.getCurrentGcCpuLoad()); writer.writeLong(metrics.getHeapMemoryInitialized());
obj.getCurrentDaemonThreadCount() == obj1.getCurrentDaemonThreadCount() && obj.getHeapMemoryCommitted() == obj1.getHeapMemoryCommitted() && obj.getHeapMemoryInitialized() == obj1.getHeapMemoryInitialized() && obj.getHeapMemoryMaximum() == obj1.getHeapMemoryMaximum() && obj.getHeapMemoryUsed() == obj1.getHeapMemoryUsed() &&
/** {@inheritDoc} */ @Override public long getHeapMemoryInitialized() { return metrics().getHeapMemoryInitialized(); }
/** {@inheritDoc} */ @Override public long getHeapMemoryInitialized() { return node.metrics().getHeapMemoryInitialized(); }
/** * Gets total heap size in GB rounded to specified precision. * * @param nodes Nodes. * @param precision Precision. * @return Total heap size in GB. */ public static double heapSize(Iterable<ClusterNode> nodes, int precision) { // In bytes. double heap = 0.0; for (ClusterNode n : nodesPerJvm(nodes)) { ClusterMetrics m = n.metrics(); heap += Math.max(m.getHeapMemoryInitialized(), m.getHeapMemoryMaximum()); } return roundedHeapSize(heap, precision); }
buf.putDouble(metrics.getAverageCpuLoad()); buf.putDouble(metrics.getCurrentGcCpuLoad()); buf.putLong(metrics.getHeapMemoryInitialized()); buf.putLong(metrics.getHeapMemoryUsed()); buf.putLong(metrics.getHeapMemoryCommitted());
metricsBean.setCurrentWaitingJobs(metrics.getCurrentWaitingJobs()); metricsBean.setHeapMemoryCommitted(metrics.getHeapMemoryCommitted()); metricsBean.setHeapMemoryInitialized(metrics.getHeapMemoryInitialized()); metricsBean.setHeapMemoryMaximum(metrics.getHeapMemoryMaximum()); metricsBean.setHeapMemoryUsed(metrics.getHeapMemoryUsed());
heapInit += m.getHeapMemoryInitialized();
metrics.getAverageCpuLoad(), metrics.getCurrentGcCpuLoad(), metrics.getHeapMemoryInitialized(), metrics.getHeapMemoryUsed(), metrics.getHeapMemoryCommitted(),
writer.writeDouble(metrics.getAverageCpuLoad()); writer.writeDouble(metrics.getCurrentGcCpuLoad()); writer.writeLong(metrics.getHeapMemoryInitialized());