Esempio n. 1
0
  /**
   * Should only be called by ColumnFamilyStore.apply via Keyspace.apply, which supplies the
   * appropriate OpOrdering.
   *
   * <p>replayPosition should only be null if this is a secondary index, in which case it is
   * *expected* to be null
   */
  long put(PartitionUpdate update, UpdateTransaction indexer, OpOrder.Group opGroup) {
    AtomicBTreePartition previous = partitions.get(update.partitionKey());

    long initialSize = 0;
    if (previous == null) {
      final DecoratedKey cloneKey = allocator.clone(update.partitionKey(), opGroup);
      AtomicBTreePartition empty = new AtomicBTreePartition(cfs.metadata, cloneKey, allocator);
      // We'll add the columns later. This avoids wasting works if we get beaten in the putIfAbsent
      previous = partitions.putIfAbsent(cloneKey, empty);
      if (previous == null) {
        previous = empty;
        // allocate the row overhead after the fact; this saves over allocating and having to free
        // after, but
        // means we can overshoot our declared limit.
        int overhead = (int) (cloneKey.getToken().getHeapSize() + ROW_OVERHEAD_HEAP_SIZE);
        allocator.onHeap().allocate(overhead, opGroup);
        initialSize = 8;
      } else {
        allocator.reclaimer().reclaimImmediately(cloneKey);
      }
    }

    long[] pair = previous.addAllWithSizeDelta(update, opGroup, indexer);
    minTimestamp = Math.min(minTimestamp, previous.stats().minTimestamp);
    liveDataSize.addAndGet(initialSize + pair[0]);
    columnsCollector.update(update.columns());
    statsCollector.update(update.stats());
    currentOperations.addAndGet(update.operationCount());
    return pair[1];
  }
Esempio n. 2
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 private int findMinLocalDeletionTime(
     Iterator<Map.Entry<PartitionPosition, AtomicBTreePartition>> iterator) {
   int minLocalDeletionTime = Integer.MAX_VALUE;
   while (iterator.hasNext()) {
     Map.Entry<PartitionPosition, AtomicBTreePartition> entry = iterator.next();
     minLocalDeletionTime =
         Math.min(minLocalDeletionTime, entry.getValue().stats().minLocalDeletionTime);
   }
   return minLocalDeletionTime;
 }
Esempio n. 3
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 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;
   }
 }