@Override public ExpiringCell localCopy(CFMetaData metadata, MemtableAllocator allocator, OpOrder.Group opGroup) { return allocator.clone(this, metadata, opGroup); }
@Override public Cell localCopy(CFMetaData metadata, MemtableAllocator allocator, OpOrder.Group opGroup) { return allocator.clone(this, metadata, opGroup); }
@Override public CounterCell localCopy(CFMetaData metadata, MemtableAllocator allocator, OpOrder.Group opGroup) { return allocator.clone(this, metadata, opGroup); }
@Override public Cell localCopy(CFMetaData metadata, MemtableAllocator allocator, OpOrder.Group opGroup) { return allocator.clone(this, metadata, opGroup); } }
@Override public DeletedCell localCopy(CFMetaData metadata, MemtableAllocator allocator, OpOrder.Group opGroup) { return allocator.clone(this, metadata, opGroup); }
@Override public CounterCell localCopy(CFMetaData metadata, MemtableAllocator allocator, OpOrder.Group opGroup) { return allocator.clone(this, metadata, opGroup); }
@Override public ExpiringCell localCopy(CFMetaData metadata, MemtableAllocator allocator, OpOrder.Group opGroup) { return allocator.clone(this, metadata, opGroup); }
@Override public DeletedCell localCopy(CFMetaData metadata, MemtableAllocator allocator, OpOrder.Group opGroup) { return allocator.clone(this, metadata, opGroup); }
private static int estimateRowOverhead(final int count) { // calculate row overhead try (final OpOrder.Group group = new OpOrder().start()) { int rowOverhead; MemtableAllocator allocator = MEMORY_POOL.newAllocator(); ConcurrentNavigableMap<PartitionPosition, Object> partitions = new ConcurrentSkipListMap<>(); final Object val = new Object(); for (int i = 0 ; i < count ; i++) partitions.put(allocator.clone(new BufferDecoratedKey(new LongToken(i), ByteBufferUtil.EMPTY_BYTE_BUFFER), group), val); double avgSize = ObjectSizes.measureDeep(partitions) / (double) count; rowOverhead = (int) ((avgSize - Math.floor(avgSize)) < 0.05 ? Math.floor(avgSize) : Math.ceil(avgSize)); rowOverhead -= ObjectSizes.measureDeep(new LongToken(0)); rowOverhead += AtomicBTreePartition.EMPTY_SIZE; allocator.setDiscarding(); allocator.setDiscarded(); return rowOverhead; } }
private static int estimateRowOverhead(final int count) { // calculate row overhead try (final OpOrder.Group group = new OpOrder().start()) { int rowOverhead; MemtableAllocator allocator = MEMORY_POOL.newAllocator(); ConcurrentNavigableMap<PartitionPosition, Object> partitions = new ConcurrentSkipListMap<>(); final Object val = new Object(); for (int i = 0 ; i < count ; i++) partitions.put(allocator.clone(new BufferDecoratedKey(new LongToken(i), ByteBufferUtil.EMPTY_BYTE_BUFFER), group), val); double avgSize = ObjectSizes.measureDeep(partitions) / (double) count; rowOverhead = (int) ((avgSize - Math.floor(avgSize)) < 0.05 ? Math.floor(avgSize) : Math.ceil(avgSize)); rowOverhead -= ObjectSizes.measureDeep(new LongToken(0)); rowOverhead += AtomicBTreePartition.EMPTY_SIZE; allocator.setDiscarding(); allocator.setDiscarded(); return rowOverhead; } }
private static int estimateRowOverhead(final int count) { // calculate row overhead try (final OpOrder.Group group = new OpOrder().start()) { int rowOverhead; MemtableAllocator allocator = MEMORY_POOL.newAllocator(); ConcurrentNavigableMap<PartitionPosition, Object> partitions = new ConcurrentSkipListMap<>(); final Object val = new Object(); for (int i = 0 ; i < count ; i++) partitions.put(allocator.clone(new BufferDecoratedKey(new LongToken(i), ByteBufferUtil.EMPTY_BYTE_BUFFER), group), val); double avgSize = ObjectSizes.measureDeep(partitions) / (double) count; rowOverhead = (int) ((avgSize - Math.floor(avgSize)) < 0.05 ? Math.floor(avgSize) : Math.ceil(avgSize)); rowOverhead -= ObjectSizes.measureDeep(new LongToken(0)); rowOverhead += AtomicBTreePartition.EMPTY_SIZE; allocator.setDiscarding(); allocator.setDiscarded(); return rowOverhead; } }
private static int estimateRowOverhead(final int count) { // calculate row overhead final OpOrder.Group group = new OpOrder().start(); int rowOverhead; MemtableAllocator allocator = MEMORY_POOL.newAllocator(); ConcurrentNavigableMap<RowPosition, Object> rows = new ConcurrentSkipListMap<>(); final Object val = new Object(); for (int i = 0 ; i < count ; i++) rows.put(allocator.clone(new BufferDecoratedKey(new LongToken((long) i), ByteBufferUtil.EMPTY_BYTE_BUFFER), group), val); double avgSize = ObjectSizes.measureDeep(rows) / (double) count; rowOverhead = (int) ((avgSize - Math.floor(avgSize)) < 0.05 ? Math.floor(avgSize) : Math.ceil(avgSize)); rowOverhead -= ObjectSizes.measureDeep(new LongToken((long) 0)); rowOverhead += AtomicBTreeColumns.EMPTY_SIZE; allocator.setDiscarding(); allocator.setDiscarded(); return rowOverhead; } }
private static int estimateRowOverhead(final int count) { // calculate row overhead try (final OpOrder.Group group = new OpOrder().start()) { int rowOverhead; MemtableAllocator allocator = MEMORY_POOL.newAllocator(); ConcurrentNavigableMap<PartitionPosition, Object> partitions = new ConcurrentSkipListMap<>(); final Object val = new Object(); for (int i = 0 ; i < count ; i++) partitions.put(allocator.clone(new BufferDecoratedKey(new LongToken(i), ByteBufferUtil.EMPTY_BYTE_BUFFER), group), val); double avgSize = ObjectSizes.measureDeep(partitions) / (double) count; rowOverhead = (int) ((avgSize - Math.floor(avgSize)) < 0.05 ? Math.floor(avgSize) : Math.ceil(avgSize)); rowOverhead -= ObjectSizes.measureDeep(new LongToken(0)); rowOverhead += AtomicBTreePartition.EMPTY_SIZE; allocator.setDiscarding(); allocator.setDiscarded(); return rowOverhead; } }
if (previous == null) final DecoratedKey cloneKey = allocator.clone(update.partitionKey(), opGroup); AtomicBTreePartition empty = new AtomicBTreePartition(cfs.metadata, cloneKey, allocator);
if (previous == null) final DecoratedKey cloneKey = allocator.clone(update.partitionKey(), opGroup); AtomicBTreePartition empty = new AtomicBTreePartition(cfs.metadata, cloneKey, allocator);
if (previous == null) final DecoratedKey cloneKey = allocator.clone(update.partitionKey(), opGroup); AtomicBTreePartition empty = new AtomicBTreePartition(cfs.metadata, cloneKey, allocator);
if (previous == null) final DecoratedKey cloneKey = allocator.clone(update.partitionKey(), opGroup); AtomicBTreePartition empty = new AtomicBTreePartition(cfs.metadata, cloneKey, allocator);
final DecoratedKey cloneKey = allocator.clone(key, opGroup);