public ValidationMetadata deserialize(Descriptor.Version version, DataInput in) throws IOException { return new ValidationMetadata(in.readUTF(), in.readDouble()); } }
public ValidationMetadata deserialize(Version version, DataInputPlus in) throws IOException { return new ValidationMetadata(in.readUTF(), in.readDouble()); } }
public ValidationMetadata deserialize(Version version, DataInputPlus in) throws IOException { return new ValidationMetadata(in.readUTF(), in.readDouble()); } }
public ValidationMetadata deserialize(Version version, DataInputPlus in) throws IOException { return new ValidationMetadata(in.readUTF(), in.readDouble()); } }
public ValidationMetadata deserialize(Version version, DataInputPlus in) throws IOException { return new ValidationMetadata(in.readUTF(), in.readDouble()); } }
public Map<MetadataType, MetadataComponent> finalizeMetadata(String partitioner, double bloomFilterFPChance, long repairedAt) { Map<MetadataType, MetadataComponent> components = Maps.newHashMap(); components.put(MetadataType.VALIDATION, new ValidationMetadata(partitioner, bloomFilterFPChance)); components.put(MetadataType.STATS, new StatsMetadata(estimatedRowSize, estimatedColumnCount, replayPosition, minTimestamp, maxTimestamp, maxLocalDeletionTime, compressionRatio, estimatedTombstoneDropTime, sstableLevel, ImmutableList.copyOf(minColumnNames), ImmutableList.copyOf(maxColumnNames), hasLegacyCounterShards, repairedAt)); components.put(MetadataType.COMPACTION, new CompactionMetadata(ancestors, cardinality)); return components; } }
new ValidationMetadata(partitioner, bloomFilterFPChance)); if (types.contains(MetadataType.STATS)) components.put(MetadataType.STATS,
public Map<MetadataType, MetadataComponent> finalizeMetadata(String partitioner, double bloomFilterFPChance, long repairedAt, SerializationHeader header) { Map<MetadataType, MetadataComponent> components = new EnumMap<>(MetadataType.class); components.put(MetadataType.VALIDATION, new ValidationMetadata(partitioner, bloomFilterFPChance)); components.put(MetadataType.STATS, new StatsMetadata(estimatedPartitionSize, estimatedCellPerPartitionCount, commitLogIntervals, timestampTracker.min(), timestampTracker.max(), localDeletionTimeTracker.min(), localDeletionTimeTracker.max(), ttlTracker.min(), ttlTracker.max(), compressionRatio, estimatedTombstoneDropTime.build(), sstableLevel, makeList(minClusteringValues), makeList(maxClusteringValues), hasLegacyCounterShards, repairedAt, totalColumnsSet, totalRows)); components.put(MetadataType.COMPACTION, new CompactionMetadata(cardinality)); components.put(MetadataType.HEADER, header.toComponent()); return components; }
public Map<MetadataType, MetadataComponent> finalizeMetadata(String partitioner, double bloomFilterFPChance, long repairedAt, SerializationHeader header) { Map<MetadataType, MetadataComponent> components = new EnumMap<>(MetadataType.class); components.put(MetadataType.VALIDATION, new ValidationMetadata(partitioner, bloomFilterFPChance)); components.put(MetadataType.STATS, new StatsMetadata(estimatedPartitionSize, estimatedCellPerPartitionCount, commitLogIntervals, timestampTracker.min(), timestampTracker.max(), localDeletionTimeTracker.min(), localDeletionTimeTracker.max(), ttlTracker.min(), ttlTracker.max(), compressionRatio, estimatedTombstoneDropTime.build(), sstableLevel, makeList(minClusteringValues), makeList(maxClusteringValues), hasLegacyCounterShards, repairedAt, totalColumnsSet, totalRows)); components.put(MetadataType.COMPACTION, new CompactionMetadata(cardinality)); components.put(MetadataType.HEADER, header.toComponent()); return components; }
public Map<MetadataType, MetadataComponent> finalizeMetadata(String partitioner, double bloomFilterFPChance, long repairedAt, SerializationHeader header) { Map<MetadataType, MetadataComponent> components = new EnumMap<>(MetadataType.class); components.put(MetadataType.VALIDATION, new ValidationMetadata(partitioner, bloomFilterFPChance)); components.put(MetadataType.STATS, new StatsMetadata(estimatedPartitionSize, estimatedCellPerPartitionCount, commitLogIntervals, timestampTracker.min(), timestampTracker.max(), localDeletionTimeTracker.min(), localDeletionTimeTracker.max(), ttlTracker.min(), ttlTracker.max(), compressionRatio, estimatedTombstoneDropTime, sstableLevel, makeList(minClusteringValues), makeList(maxClusteringValues), hasLegacyCounterShards, repairedAt, totalColumnsSet, totalRows)); components.put(MetadataType.COMPACTION, new CompactionMetadata(cardinality)); components.put(MetadataType.HEADER, header.toComponent()); return components; }
public Map<MetadataType, MetadataComponent> finalizeMetadata(String partitioner, double bloomFilterFPChance, long repairedAt, SerializationHeader header) { Map<MetadataType, MetadataComponent> components = new EnumMap<>(MetadataType.class); components.put(MetadataType.VALIDATION, new ValidationMetadata(partitioner, bloomFilterFPChance)); components.put(MetadataType.STATS, new StatsMetadata(estimatedPartitionSize, estimatedCellPerPartitionCount, commitLogIntervals, timestampTracker.min(), timestampTracker.max(), localDeletionTimeTracker.min(), localDeletionTimeTracker.max(), ttlTracker.min(), ttlTracker.max(), compressionRatio, estimatedTombstoneDropTime.build(), sstableLevel, makeList(minClusteringValues), makeList(maxClusteringValues), hasLegacyCounterShards, repairedAt, totalColumnsSet, totalRows)); components.put(MetadataType.COMPACTION, new CompactionMetadata(cardinality)); components.put(MetadataType.HEADER, header.toComponent()); return components; }
new ValidationMetadata(partitioner, bloomFilterFPChance)); if (types.contains(MetadataType.STATS)) components.put(MetadataType.STATS,
new ValidationMetadata(partitioner, bloomFilterFPChance)); if (types.contains(MetadataType.STATS)) components.put(MetadataType.STATS,
new ValidationMetadata(partitioner, bloomFilterFPChance)); if (types.contains(MetadataType.STATS)) components.put(MetadataType.STATS,