public void close() { if (!returned) iter.close(); } }
@Override public void close() { if (next != null) next.close(); } };
public void close() { if (iterator != null) iterator.close(); } }
@Override public void close() { if (next != null) next.close(); } };
public void close() { wrapped.close(); } }
public void close() { wrapped.close(); } }
public void close() { if (!returned) iter.close(); } }
public void close() { if (!returned) iter.close(); } }
@Override public void close() { if (next != null) next.close(); } };
public void close() { if (iterator != null) iterator.close(); } }
public void close() { indexHits.close(); if (next != null) next.close(); } };
public void close() { indexHits.close(); if (next != null) next.close(); } };
public void close() { super.close(); tombSource.close(); }
public void close() { indexHits.close(); if (next != null) next.close(); } };
public void close() { super.close(); tombSource.close(); }
public void close() { indexHits.close(); if (next != null) next.close(); } };
public void close() { indexHits.close(); if (next != null) next.close(); } };
public void close() { indexHits.close(); if (next != null) next.close(); } };
protected UnfilteredRowIterator applyToPartition(UnfilteredRowIterator partition) { if (maybeAbort()) { partition.close(); return null; } return Transformation.apply(partition, this); }
protected UnfilteredRowIterator applyToPartition(UnfilteredRowIterator partition) { if (maybeAbort()) { partition.close(); return null; } return Transformation.apply(partition, this); }