/** * Returns true if the system runs low on memory.<p> * * @return true if the system runs low on memory */ public boolean lowMemory() { return ((m_maxUsagePercent > 0) && (m_memoryCurrent.getUsage() > m_maxUsagePercent)); }
/** * Returns true if the system runs low on memory.<p> * * @return true if the system runs low on memory */ public boolean lowMemory() { return ((m_maxUsagePercent > 0) && (m_memoryCurrent.getUsage() > m_maxUsagePercent)); }
LOG.warn(Messages.get().getBundle().key( Messages.LOG_MM_WARNING_MEM_CONSUME_2, new Long(m_memoryCurrent.getUsage()), new Integer(m_maxUsagePercent))); } else { new Long(m_memoryCurrent.getFreeMemory()), new Long(m_memoryCurrent.getUsedMemory()), new Long(m_memoryCurrent.getUsage()), new Integer(m_maxUsagePercent)})); } else { new Long(m_memoryCurrent.getFreeMemory()), new Long(m_memoryCurrent.getUsedMemory()), new Long(m_memoryCurrent.getUsage()), new Integer(m_maxUsagePercent), new Long(totalSize), new Long(m_memoryAverage.getFreeMemory()), new Long(m_memoryAverage.getUsedMemory()), new Long(m_memoryAverage.getUsage()), new Integer(m_memoryAverage.getCount())}));
Messages.get().getBundle().key( Messages.LOG_MM_WARNING_MEM_CONSUME_2, new Long(m_memoryCurrent.getUsage()), new Integer(m_maxUsagePercent))); } else { new Long(m_memoryCurrent.getFreeMemory()), new Long(m_memoryCurrent.getUsedMemory()), new Long(m_memoryCurrent.getUsage()), new Integer(m_maxUsagePercent)})); } else { new Long(m_memoryCurrent.getFreeMemory()), new Long(m_memoryCurrent.getUsedMemory()), new Long(m_memoryCurrent.getUsage()), new Integer(m_maxUsagePercent), new Long(totalSize), new Long(m_memoryAverage.getFreeMemory()), new Long(m_memoryAverage.getUsedMemory()), new Long(m_memoryAverage.getUsage()), new Integer(m_memoryAverage.getCount())}));
+ m_memoryCurrent.getUsedMemory() + " mb (" + m_memoryCurrent.getUsage() + "%)\n" + "Memory currently unused : "