protected void finish() { allocator.onHeap().adjust(heapSize, writeOp); } }
protected void finish() { allocator.onHeap().adjust(heapSize, writeOp); } }
protected void finish() { allocator.onHeap().adjust(heapSize, writeOp); } }
protected void finish() { allocator.onHeap().adjust(heapSize, writeOp); } }
protected void finish() { allocator.onHeap().adjust(heapSize, writeOp); reclaimer.commit(); } }
public String toString() { return String.format("Memtable-%s@%s(%s serialized bytes, %s ops, %.0f%%/%.0f%% of on/off-heap limit)", cfs.name, hashCode(), FBUtilities.prettyPrintMemory(liveDataSize.get()), currentOperations, 100 * allocator.onHeap().ownershipRatio(), 100 * allocator.offHeap().ownershipRatio()); }
public String toString() { return String.format("Memtable-%s@%s(%s serialized bytes, %s ops, %.0f%%/%.0f%% of on/off-heap limit)", cfs.name, hashCode(), FBUtilities.prettyPrintMemory(liveDataSize.get()), currentOperations, 100 * allocator.onHeap().ownershipRatio(), 100 * allocator.offHeap().ownershipRatio()); }
public String toString() { return String.format("Memtable-%s@%s(%s serialized bytes, %s ops, %.0f%%/%.0f%% of on/off-heap limit)", cfs.name, hashCode(), FBUtilities.prettyPrintMemory(liveDataSize.get()), currentOperations, 100 * allocator.onHeap().ownershipRatio(), 100 * allocator.offHeap().ownershipRatio()); }
public String toString() { return String.format("Memtable-%s@%s(%s serialized bytes, %s ops, %.0f%%/%.0f%% of on/off-heap limit)", cfs.name, hashCode(), FBUtilities.prettyPrintMemory(liveDataSize.get()), currentOperations, 100 * allocator.onHeap().ownershipRatio(), 100 * allocator.offHeap().ownershipRatio()); }
public String toString() { return String.format("Memtable-%s@%s(%s serialized bytes, %s ops, %.0f%%/%.0f%% of on/off-heap limit)", cfs.name, hashCode(), FBUtilities.prettyPrintMemory(liveDataSize.get()), currentOperations, 100 * allocator.onHeap().ownershipRatio(), 100 * allocator.offHeap().ownershipRatio()); }
public Long getValue() { return cfs.getTracker().getView().getCurrentMemtable().getAllocator().onHeap().owns(); } });
public void adjustMemtableSize(long additionalSpace, OpOrder.Group opGroup) { baseCfs.getTracker().getView().getCurrentMemtable().getAllocator().onHeap().allocate(additionalSpace, opGroup); } };
public Long getValue() { return cfs.getTracker().getView().getCurrentMemtable().getAllocator().onHeap().owns(); } });
public void adjustMemtableSize(long additionalSpace, OpOrder.Group opGroup) { baseCfs.getTracker().getView().getCurrentMemtable().getAllocator().onHeap().allocate(additionalSpace, opGroup); } };
public Long getValue() { return cfs.getTracker().getView().getCurrentMemtable().getAllocator().onHeap().owns(); } });
public void adjustMemtableSize(long additionalSpace, OpOrder.Group opGroup) { baseCfs.getTracker().getView().getCurrentMemtable().getAllocator().onHeap().allocate(additionalSpace, opGroup); } };
public Long getValue() { long size = 0; for (ColumnFamilyStore cfs2 : cfs.concatWithIndexes()) size += cfs2.getTracker().getView().getCurrentMemtable().getAllocator().onHeap().owns(); return size; } });
public Long getValue() { long size = 0; for (ColumnFamilyStore cfs2 : cfs.concatWithIndexes()) size += cfs2.getTracker().getView().getCurrentMemtable().getAllocator().onHeap().owns(); return size; } });
public Long value() { long size = 0; for (ColumnFamilyStore cfs2 : cfs.concatWithIndexes()) size += cfs2.getDataTracker().getView().getCurrentMemtable().getAllocator().onHeap().owns(); return size; } });
public Long getValue() { long size = 0; for (ColumnFamilyStore cfs2 : cfs.concatWithIndexes()) size += cfs2.getTracker().getView().getCurrentMemtable().getAllocator().onHeap().owns(); return size; } });