/** */ @Override public Iterator<Tree> iterator() { return new TransformingTreebankIterator(tb.iterator(), transformer); }
/** */ @Override public Iterator<Tree> iterator() { return new FilteringTreebankIterator(treebank.iterator(), filter); }
private static Iterator<Tree> treebankIterator(String path) { /* Remove empty nodes and strip indices from internal nodes but keep functional tags. */ Treebank tb = new MemoryTreebank(new NPTmpRetainingTreeNormalizer(0, false, 1, false)); tb.loadPath(path); return tb.iterator(); }
final Iterator<Tree> goldItr = goldTreebank.iterator(); int goldLineId = 0; int skippedGuessTrees = 0;
i = trees.iterator(); } else { i = tlp.treeTokenizerFactory().getTokenizer(new BufferedReader(new InputStreamReader(System.in)));
public TreeTaggedFileReader(TaggedFileRecord record) { filename = record.file; trf = record.trf == null ? new LabeledScoredTreeReaderFactory() : record.trf; transformer = record.treeTransformer; normalizer = record.treeNormalizer; treeFilter = record.treeFilter; treebank = new DiskTreebank(trf, record.encoding); if (record.treeRange != null) { treebank.loadPath(filename, record.treeRange); } else { treebank.loadPath(filename); } treeIterator = treebank.iterator(); findNext(); }
Iterator<Tree> it = trainTreebank.iterator(); for (Tree t : binaryTrainTreebank) { System.out.println("Original tree:");
final Iterator<Tree> goldItr = goldTreebank.iterator(); int goldLineId = 0; int skippedGuessTrees = 0;
/** */ @Override public Iterator<Tree> iterator() { return new FilteringTreebankIterator(treebank.iterator(), filter); }
/** */ @Override public Iterator<Tree> iterator() { return new TransformingTreebankIterator(tb.iterator(), transformer); }
/** */ @Override public Iterator<Tree> iterator() { return new FilteringTreebankIterator(treebank.iterator(), filter); }
/** */ @Override public Iterator<Tree> iterator() { return new TransformingTreebankIterator(tb.iterator(), transformer); }
/** */ @Override public Iterator<Tree> iterator() { return new TransformingTreebankIterator(tb.iterator(), transformer); }
/** */ @Override public Iterator<Tree> iterator() { return new TransformingTreebankIterator(tb.iterator(), transformer); }
/** */ @Override public Iterator<Tree> iterator() { return new FilteringTreebankIterator(treebank.iterator(), filter); }
private static Iterator<Tree> treebankIterator(String path) { /* Remove empty nodes and strip indices from internal nodes but keep functional tags. */ Treebank tb = new MemoryTreebank(new NPTmpRetainingTreeNormalizer(0, false, 1, false)); tb.loadPath(path); return tb.iterator(); }