public IKeyOrder<ISPO> getKeyOrder() { if (src != null) { return src.getKeyOrder(); } return keyOrder; }
public IKeyOrder<ISPO> getKeyOrder() { if (src != null) { return src.getKeyOrder(); } return keyOrder; }
@Override public IKeyOrder<ISPO> getKeyOrder() { return _src.getKeyOrder(); }
public IKeyOrder<ISPO> getKeyOrder() { return delegate.getKeyOrder(); }
public IKeyOrder<ISPO> getKeyOrder() { return src.getKeyOrder(); }
@Override public IKeyOrder<ISPO> getKeyOrder() { return _src.getKeyOrder(); }
@Override final public IKeyOrder<E> getKeyOrder() { return src.getKeyOrder(); }
@Override public IKeyOrder<E> getKeyOrder() { return src.getKeyOrder(); }
@Override final public IKeyOrder<E> getKeyOrder() { return src.getKeyOrder(); }
@Override public IKeyOrder<E> getKeyOrder() { return src.getKeyOrder(); }
public ISPO[] nextChunk(IKeyOrder<ISPO> keyOrder) { if (keyOrder == null) throw new IllegalArgumentException(); ISPO[] stmts = nextChunk(); if (src.getKeyOrder() != keyOrder) { // sort into the required order. Arrays.sort(stmts, 0, stmts.length, keyOrder.getComparator()); } return stmts; }
public ISPO[] nextChunk(IKeyOrder<ISPO> keyOrder) { if (keyOrder == null) throw new IllegalArgumentException(); ISPO[] stmts = nextChunk(); if (src.getKeyOrder() != keyOrder) { // sort into the required order. Arrays.sort(stmts, 0, stmts.length, keyOrder.getComparator()); } return stmts; }
public ISPO[] nextChunk(IKeyOrder<ISPO> keyOrder) { if (keyOrder == null) throw new IllegalArgumentException(); ISPO[] stmts = nextChunk(); if (src.getKeyOrder() != keyOrder) { // sort into the required order. Arrays.sort(stmts, 0, stmts.length, keyOrder.getComparator()); } return stmts; }
public ISPO[] nextChunk(IKeyOrder<ISPO> keyOrder) { if (keyOrder == null) throw new IllegalArgumentException(); ISPO[] stmts = nextChunk(); if (src.getKeyOrder() != keyOrder) { // sort into the required order. Arrays.sort(stmts, 0, stmts.length, keyOrder.getComparator()); } return stmts; }
public ISPO[] nextChunk(IKeyOrder<ISPO> keyOrder) { if (keyOrder == null) throw new IllegalArgumentException(); ISPO[] stmts = nextChunk(); if (src.getKeyOrder() != keyOrder) { // sort into the required order. Arrays.sort(stmts, 0, stmts.length, keyOrder.getComparator()); } return stmts; }
public ISPO[] nextChunk(IKeyOrder<ISPO> keyOrder) { if (keyOrder == null) throw new IllegalArgumentException(); ISPO[] stmts = nextChunk(); if (src.getKeyOrder() != keyOrder) { // sort into the required order. Arrays.sort(stmts, 0, stmts.length, keyOrder.getComparator()); } return stmts; }
public ISPO[] nextChunk(IKeyOrder<ISPO> keyOrder) { if (keyOrder == null) throw new IllegalArgumentException(); ISPO[] stmts = nextChunk(); if (src.getKeyOrder() != keyOrder) { // sort into the required order. Arrays.sort(stmts, 0, stmts.length, keyOrder.getComparator()); } return stmts; }
public ISPO[] nextChunk(IKeyOrder<ISPO> keyOrder) { if (keyOrder == null) throw new IllegalArgumentException(); ISPO[] stmts = nextChunk(); if (src.getKeyOrder() != keyOrder) { // sort into the required order. Arrays.sort(stmts, 0, stmts.length, keyOrder.getComparator()); } return stmts; }
public ISPO[] convert(final IChunkedOrderedIterator<ISPO> src) { if (src == null) throw new IllegalArgumentException(); final ISPO[] chunk = src.nextChunk(); if (!tupleSer.getKeyOrder().equals(src.getKeyOrder())) { // Sort unless already in the correct order. Arrays.sort(chunk, tupleSer.getKeyOrder().getComparator()); } return convert(chunk); }
public ISPO[] convert(final IChunkedOrderedIterator<ISPO> src) { if (src == null) throw new IllegalArgumentException(); final ISPO[] chunk = src.nextChunk(); if (!tupleSer.getKeyOrder().equals(src.getKeyOrder())) { // Sort unless already in the correct order. Arrays.sort(chunk, tupleSer.getKeyOrder().getComparator()); } return convert(chunk); }