private List<CassandraPartition> getCassandraPartitions(
      CassandraTable table, TupleDomain<ColumnHandle> tupleDomain) {
    if (tupleDomain.isNone()) {
      return ImmutableList.of();
    }

    Set<List<Comparable<?>>> partitionKeysSet = getPartitionKeysSet(table, tupleDomain);

    // empty filter means, all partitions
    if (partitionKeysSet.isEmpty()) {
      return schemaProvider.getAllPartitions(table);
    }

    ImmutableList.Builder<ListenableFuture<List<CassandraPartition>>> getPartitionResults =
        ImmutableList.builder();
    for (List<Comparable<?>> partitionKeys : partitionKeysSet) {
      getPartitionResults.add(
          executor.submit(() -> schemaProvider.getPartitions(table, partitionKeys)));
    }

    ImmutableList.Builder<CassandraPartition> partitions = ImmutableList.builder();
    for (ListenableFuture<List<CassandraPartition>> result : getPartitionResults.build()) {
      try {
        partitions.addAll(result.get());
      } catch (InterruptedException e) {
        Thread.currentThread().interrupt();
        throw Throwables.propagate(e);
      } catch (ExecutionException e) {
        throw new PrestoException(EXTERNAL, "Error fetching cassandra partitions", e);
      }
    }

    return partitions.build();
  }
  @Override
  public ConnectorSplitSource getPartitionSplits(
      ConnectorSession session,
      ConnectorTableHandle tableHandle,
      List<ConnectorPartition> partitions) {
    checkNotNull(tableHandle, "tableHandle is null");
    CassandraTableHandle cassandraTableHandle =
        checkType(tableHandle, CassandraTableHandle.class, "tableHandle");

    checkNotNull(partitions, "partitions is null");
    if (partitions.isEmpty()) {
      return new FixedSplitSource(connectorId, ImmutableList.<ConnectorSplit>of());
    }

    // if this is an unpartitioned table, split into equal ranges
    if (partitions.size() == 1) {
      ConnectorPartition partition = partitions.get(0);
      CassandraPartition cassandraPartition =
          checkType(partition, CassandraPartition.class, "partition");

      if (cassandraPartition.isUnpartitioned()
          || cassandraPartition.isIndexedColumnPredicatePushdown()) {
        CassandraTable table = schemaProvider.getTable(cassandraTableHandle);
        List<ConnectorSplit> splits =
            getSplitsByTokenRange(table, cassandraPartition.getPartitionId());
        return new FixedSplitSource(connectorId, splits);
      }
    }

    return new FixedSplitSource(
        connectorId, getSplitsForPartitions(cassandraTableHandle, partitions));
  }
  @Override
  public ConnectorPartitionResult getPartitions(
      ConnectorSession session,
      ConnectorTableHandle tableHandle,
      TupleDomain<ColumnHandle> tupleDomain) {
    CassandraTableHandle cassandraTableHandle =
        checkType(tableHandle, CassandraTableHandle.class, "tableHandle");
    checkNotNull(tupleDomain, "tupleDomain is null");
    CassandraTable table = schemaProvider.getTable(cassandraTableHandle);
    List<CassandraColumnHandle> partitionKeys = table.getPartitionKeyColumns();

    // fetch the partitions
    List<CassandraPartition> allPartitions = getCassandraPartitions(table, tupleDomain);
    log.debug(
        "%s.%s #partitions: %d",
        cassandraTableHandle.getSchemaName(),
        cassandraTableHandle.getTableName(),
        allPartitions.size());

    // do a final pass to filter based on fields that could not be used to build the prefix
    List<ConnectorPartition> partitions =
        allPartitions
            .stream()
            .filter(partition -> tupleDomain.overlaps(partition.getTupleDomain()))
            .collect(toList());

    // All partition key domains will be fully evaluated, so we don't need to include those
    TupleDomain<ColumnHandle> remainingTupleDomain = TupleDomain.none();
    if (!tupleDomain.isNone()) {
      if (partitions.size() == 1 && ((CassandraPartition) partitions.get(0)).isUnpartitioned()) {
        remainingTupleDomain = tupleDomain;
      } else {
        @SuppressWarnings({"rawtypes", "unchecked"})
        List<ColumnHandle> partitionColumns = (List) partitionKeys;
        remainingTupleDomain =
            TupleDomain.withColumnDomains(
                Maps.filterKeys(tupleDomain.getDomains(), not(in(partitionColumns))));
      }
    }

    // push down indexed column fixed value predicates only for unpartitioned partition which uses
    // token range query
    if (partitions.size() == 1 && ((CassandraPartition) partitions.get(0)).isUnpartitioned()) {
      Map<ColumnHandle, Domain> domains = tupleDomain.getDomains();
      List<ColumnHandle> indexedColumns = new ArrayList<>();
      // compose partitionId by using indexed column
      StringBuilder sb = new StringBuilder();
      for (Map.Entry<ColumnHandle, Domain> entry : domains.entrySet()) {
        CassandraColumnHandle column = (CassandraColumnHandle) entry.getKey();
        Domain domain = entry.getValue();
        if (column.isIndexed() && domain.isSingleValue()) {
          sb.append(CassandraCqlUtils.validColumnName(column.getName()))
              .append(" = ")
              .append(
                  CassandraCqlUtils.cqlValue(
                      toCQLCompatibleString(entry.getValue().getSingleValue()),
                      column.getCassandraType()));
          indexedColumns.add(column);
          // Only one indexed column predicate can be pushed down.
          break;
        }
      }
      if (sb.length() > 0) {
        CassandraPartition partition = (CassandraPartition) partitions.get(0);
        TupleDomain<ColumnHandle> filterIndexedColumn =
            TupleDomain.withColumnDomains(
                Maps.filterKeys(remainingTupleDomain.getDomains(), not(in(indexedColumns))));
        partitions = new ArrayList<>();
        partitions.add(
            new CassandraPartition(partition.getKey(), sb.toString(), filterIndexedColumn, true));
        return new ConnectorPartitionResult(partitions, filterIndexedColumn);
      }
    }
    return new ConnectorPartitionResult(partitions, remainingTupleDomain);
  }