private void clearAllTimeSeries() { ArrayList<TimeSeries> list = new ArrayList<TimeSeries>(); if (cacheUpdateRateSeries != null) { list.add(cacheUpdateRateSeries); cacheUpdateRateSeries = null; } if (cacheHitRateSeries != null) { list.add(cacheHitRateSeries); cacheHitRateSeries = null; } if (cacheHitRatioSeries != null) { list.add(cacheHitRatioSeries); cacheHitRatioSeries = null; } if (cachePutRateSeries != null) { list.add(cachePutRateSeries); cachePutRateSeries = null; } if (cacheMissRateSeries != null) { list.add(cacheMissRateSeries); cacheMissRateSeries = null; } Iterator<TimeSeries> iter = list.iterator(); while (iter.hasNext()) { iter.next().clear(); } }
private void clearAllTimeSeries() { ArrayList<TimeSeries> list = new ArrayList<TimeSeries>(); if (queryExecutionRateSeries != null) { list.add(queryExecutionRateSeries); queryExecutionRateSeries = null; } if (cacheHitRateSeries != null) { list.add(cacheHitRateSeries); cacheHitRateSeries = null; } if (cacheHitRatioSeries != null) { list.add(cacheHitRatioSeries); cacheHitRatioSeries = null; } if (cachePutRateSeries != null) { list.add(cachePutRateSeries); cachePutRateSeries = null; } if (cacheMissRateSeries != null) { list.add(cacheMissRateSeries); cacheMissRateSeries = null; } Iterator<TimeSeries> iter = list.iterator(); while (iter.hasNext()) { iter.next().clear(); } }
private void clearAllTimeSeries() { ArrayList<TimeSeries> list = new ArrayList<TimeSeries>(); if (queryExecutionRateSeries != null) { list.add(queryExecutionRateSeries); queryExecutionRateSeries = null; } if (cacheHitRateSeries != null) { list.add(cacheHitRateSeries); cacheHitRateSeries = null; } if (cacheHitRatioSeries != null) { list.add(cacheHitRatioSeries); cacheHitRatioSeries = null; } if (cachePutRateSeries != null) { list.add(cachePutRateSeries); cachePutRateSeries = null; } if (cacheMissRateSeries != null) { list.add(cacheMissRateSeries); cacheMissRateSeries = null; } Iterator<TimeSeries> iter = list.iterator(); while (iter.hasNext()) { iter.next().clear(); } }
private void clearAllTimeSeries() { ArrayList<TimeSeries> list = new ArrayList<TimeSeries>(); if (queryExecutionRateSeries != null) { list.add(queryExecutionRateSeries); queryExecutionRateSeries = null; } if (cacheHitRateSeries != null) { list.add(cacheHitRateSeries); cacheHitRateSeries = null; } if (cacheHitRatioSeries != null) { list.add(cacheHitRatioSeries); cacheHitRatioSeries = null; } if (cachePutRateSeries != null) { list.add(cachePutRateSeries); cachePutRateSeries = null; } if (cacheMissRateSeries != null) { list.add(cacheMissRateSeries); cacheMissRateSeries = null; } Iterator<TimeSeries> iter = list.iterator(); while (iter.hasNext()) { iter.next().clear(); } }
private void clearAllTimeSeries() { ArrayList<TimeSeries> list = new ArrayList<TimeSeries>(); if (cacheUpdateRateSeries != null) { list.add(cacheUpdateRateSeries); cacheUpdateRateSeries = null; } if (cacheHitRateSeries != null) { list.add(cacheHitRateSeries); cacheHitRateSeries = null; } if (cacheHitRatioSeries != null) { list.add(cacheHitRatioSeries); cacheHitRatioSeries = null; } if (cachePutRateSeries != null) { list.add(cachePutRateSeries); cachePutRateSeries = null; } if (cacheMissRateSeries != null) { list.add(cacheMissRateSeries); cacheMissRateSeries = null; } Iterator<TimeSeries> iter = list.iterator(); while (iter.hasNext()) { iter.next().clear(); } }
iter.next().clear();
/** * Removes all data from the upper plot and sets the {@link TimerData} objects on the plot. * * @param map * The data to set on the plot. */ protected void setCountPlotData(Map<Object, List<E>> map) { for (TimeSeries series : countSeries) { series.clear(); series.setNotify(false); for (Entry<Object, List<E>> entry : map.entrySet()) { if (series.getKey().equals(entry.getKey())) { for (E data : entry.getValue()) { series.addOrUpdate(new Millisecond(data.getTimeStamp()), data.getCount()); } break; } } series.setNotify(true); series.fireSeriesChanged(); } }