public int getMaxAvailableMemory() { return getMaxAvailableMemory(false); }
@Override public String toString() { StringBuilder sb = new StringBuilder(); sb.append("lastPoll:").append(lastPoll); sb.append(" pollEvery:").append(pollEvery); sb.append(" freeMem:").append(freeMem); sb.append(" usedSwap:").append(usedSwap); sb.append(" swaps:").append(swaps); sb.append(" maxAvailable:").append(getMaxAvailableMemory(false)); sb.append(" used:").append(getUsedMemory(false)); return sb.toString(); }
public double evaluate(double[] x) { StringBuilder sb = new StringBuilder("Memory Usage: "); sb.append(" used(KB):").append(memMonitor.getUsedMemory(false)); sb.append(" maxAvailable(KB):").append(memMonitor.getMaxAvailableMemory(false)); sb.append(" max(KB):").append(memMonitor.getMaxMemory()); String memString = sb.toString(); log.info(memString); return 0; } }
public int getMaxAvailableMemory() { return getMaxAvailableMemory(false); }
public int getMaxAvailableMemory() { return getMaxAvailableMemory(false); }
public int getMaxAvailableMemory() { return getMaxAvailableMemory(false); }
@Override public String toString() { StringBuilder sb = new StringBuilder(); sb.append("lastPoll:").append(lastPoll); sb.append(" pollEvery:").append(pollEvery); sb.append(" freeMem:").append(freeMem); sb.append(" usedSwap:").append(usedSwap); sb.append(" swaps:").append(swaps); sb.append(" maxAvailable:").append(getMaxAvailableMemory(false)); sb.append(" used:").append(getUsedMemory(false)); return sb.toString(); }
@Override public String toString() { StringBuilder sb = new StringBuilder(); sb.append("lastPoll:").append(lastPoll); sb.append(" pollEvery:").append(pollEvery); sb.append(" freeMem:").append(freeMem); sb.append(" usedSwap:").append(usedSwap); sb.append(" swaps:").append(swaps); sb.append(" maxAvailable:").append(getMaxAvailableMemory(false)); sb.append(" used:").append(getUsedMemory(false)); return sb.toString(); }
@Override public String toString() { StringBuilder sb = new StringBuilder(); sb.append("lastPoll:").append(lastPoll); sb.append(" pollEvery:").append(pollEvery); sb.append(" freeMem:").append(freeMem); sb.append(" usedSwap:").append(usedSwap); sb.append(" swaps:").append(swaps); sb.append(" maxAvailable:").append(getMaxAvailableMemory(false)); sb.append(" used:").append(getUsedMemory(false)); return sb.toString(); }
public double evaluate(double[] x) { StringBuilder sb = new StringBuilder("Memory Usage: "); sb.append(" used(KB):").append(memMonitor.getUsedMemory(false)); sb.append(" maxAvailable(KB):").append(memMonitor.getMaxAvailableMemory(false)); sb.append(" max(KB):").append(memMonitor.getMaxMemory()); String memString = sb.toString(); System.err.println(memString); return 0; } }
public double evaluate(double[] x) { StringBuilder sb = new StringBuilder("Memory Usage: "); sb.append(" used(KB):").append(memMonitor.getUsedMemory(false)); sb.append(" maxAvailable(KB):").append(memMonitor.getMaxAvailableMemory(false)); sb.append(" max(KB):").append(memMonitor.getMaxMemory()); String memString = sb.toString(); System.err.println(memString); return 0; } }
public double evaluate(double[] x) { StringBuilder sb = new StringBuilder("Memory Usage: "); sb.append(" used(KB):").append(memMonitor.getUsedMemory(false)); sb.append(" maxAvailable(KB):").append(memMonitor.getMaxAvailableMemory(false)); sb.append(" max(KB):").append(memMonitor.getMaxMemory()); String memString = sb.toString(); log.info(memString); return 0; } }