idMapSize++; HeapProgress.progress(counter,heapDumpSegment.startOffset,start,heapDumpSegment.endOffset); allInstanceDumpBounds = instanceDumpBounds.union(objArrayDumpBounds); allInstanceDumpBounds = allInstanceDumpBounds.union(primArrayDumpBounds); HeapProgress.progressFinish();
private static void progress(final long value, final long endOffset, final long startOffset) { BoundedRangeModel model = (BoundedRangeModel) progressThreadLocal.get(); if (model != null) { long val = PROGRESS_MAX*(value - startOffset)/(endOffset - startOffset); setValue(model, (int)val); } }
static void progress(long counter, long startOffset, long value, long endOffset) { // keep this method short so that it can be inlined if (counter % 100000 == 0) { progress(value, endOffset, startOffset); } }
HeapProgress.progressFinish(); gcRootsComputed = true;
static void progress(long value, long endValue) { progress(value,0,value,endValue); }
HeapProgress.progressFinish(); gcRootsComputed = true;
classDumpBounds.addInstanceSize(classDump, tag, start); HeapProgress.progress(counter,allInstanceDumpBounds.startOffset,start,allInstanceDumpBounds.endOffset); HeapProgress.progressFinish(); instancesCountComputed = true;
break; HeapProgress.progress(processedInstances++,allInstances); instance = heap.getInstanceByID(instanceId); if (instance instanceof ObjectArrayInstance) {
static void progressFinish() { BoundedRangeModel model = (BoundedRangeModel) progressThreadLocal.get(); if (model != null) { setValue(model, PROGRESS_MAX); progressThreadLocal.remove(); } }
HeapProgress.progressFinish(); gcRootsComputed = true;
HeapProgress.progress(counter,allInstanceDumpBounds.startOffset,start,allInstanceDumpBounds.endOffset); HeapProgress.progressFinish(); referencesComputed = true;
static void progress(long counter, long startOffset, long value, long endOffset) { // keep this method short so that it can be inlined if (counter % 100000 == 0) { progress(value, endOffset, startOffset); } }
private static void progress(final long value, final long endOffset, final long startOffset) { BoundedRangeModel model = (BoundedRangeModel) progressThreadLocal.get(); if (model != null) { long val = PROGRESS_MAX*(value - startOffset)/(endOffset - startOffset); setValue(model, (int)val); } }
idMapSize++; HeapProgress.progress(counter,heapDumpSegment.startOffset,start,heapDumpSegment.endOffset); allInstanceDumpBounds = instanceDumpBounds.union(objArrayDumpBounds); allInstanceDumpBounds = allInstanceDumpBounds.union(primArrayDumpBounds); HeapProgress.progressFinish();
static void progress(long counter, long startOffset, long value, long endOffset) { // keep this method short so that it can be inlined if (counter % 100000 == 0) { progress(value, endOffset, startOffset); } }
private static void progress(final long value, final long endOffset, final long startOffset) { BoundedRangeModel model = (BoundedRangeModel) progressThreadLocal.get(); if (model != null) { long val = PROGRESS_MAX*(value - startOffset)/(endOffset - startOffset); setValue(model, (int)val); } }
idMapSize++; HeapProgress.progress(counter,heapDumpSegment.startOffset,start,heapDumpSegment.endOffset); allInstanceDumpBounds = instanceDumpBounds.union(objArrayDumpBounds); allInstanceDumpBounds = allInstanceDumpBounds.union(primArrayDumpBounds); HeapProgress.progressFinish();
static void progress(long value, long endValue) { progress(value,0,value,endValue); }
static void progressFinish() { BoundedRangeModel model = (BoundedRangeModel) progressThreadLocal.get(); if (model != null) { setValue(model, PROGRESS_MAX); progressThreadLocal.remove(); } }
classDumpBounds.addInstanceSize(classDump, tag, start); HeapProgress.progress(counter,allInstanceDumpBounds.startOffset,start,allInstanceDumpBounds.endOffset); HeapProgress.progressFinish(); instancesCountComputed = true;