@Override public TreeReader newTreeReader(Reader in) { return new PennTreeReader(in, new LabeledScoredTreeFactory(), new NPTmpRetainingTreeNormalizer(NPTmpRetainingTreeNormalizer.TEMPORAL_ACL03PCFG, false, 0, true)); }
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(); }
@Override public TreeReader newTreeReader(Reader in) { return new PennTreeReader(in, new LabeledScoredTreeFactory(), new NPTmpRetainingTreeNormalizer()); }
/** * Makes appropriate TreeReaderFactory with all options specified */ @Override public TreeReaderFactory treeReaderFactory() { return in -> new PennTreeReader(in, new LabeledScoredTreeFactory(), new NPTmpRetainingTreeNormalizer(englishTrain.splitTMP, englishTrain.splitSGapped == 5, englishTrain.leaveItAll, englishTrain.splitNPADV >= 1, headFinder())); }
MemoryTreebank tb = new MemoryTreebank(new NPTmpRetainingTreeNormalizer(0, false, 1, false, true)); tb.loadPath(treeFileName); Iterator<Tree> treeIterator = tb.iterator();
@Override public TreeReader newTreeReader(Reader in) { return new PennTreeReader(in, new LabeledScoredTreeFactory(), new NPTmpRetainingTreeNormalizer(NPTmpRetainingTreeNormalizer.TEMPORAL_ACL03PCFG, false, 0, true)); }
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(); }
@Override public TreeReader newTreeReader(Reader in) { return new PennTreeReader(in, new LabeledScoredTreeFactory(), new NPTmpRetainingTreeNormalizer(NPTmpRetainingTreeNormalizer.TEMPORAL_ACL03PCFG, false, 0, true)); }
@Override public TreeReader newTreeReader(Reader in) { return new PennTreeReader(in, new LabeledScoredTreeFactory(), new NPTmpRetainingTreeNormalizer(NPTmpRetainingTreeNormalizer.TEMPORAL_ACL03PCFG, false, 0, true)); }
@Override public TreeReader newTreeReader(Reader in) { return new PennTreeReader(in, new LabeledScoredTreeFactory(), new NPTmpRetainingTreeNormalizer()); }
@Override public TreeReader newTreeReader(Reader in) { return new PennTreeReader(in, new LabeledScoredTreeFactory(), new NPTmpRetainingTreeNormalizer()); }
@Override public TreeReader newTreeReader(Reader in) { return new PennTreeReader(in, new LabeledScoredTreeFactory(), new NPTmpRetainingTreeNormalizer()); }
/** * Makes appropriate TreeReaderFactory with all options specified */ @Override public TreeReaderFactory treeReaderFactory() { return in -> new PennTreeReader(in, new LabeledScoredTreeFactory(), new NPTmpRetainingTreeNormalizer(englishTrain.splitTMP, englishTrain.splitSGapped == 5, englishTrain.leaveItAll, englishTrain.splitNPADV >= 1, headFinder())); }
public TreeReader newTreeReader(Reader in) { return new PennTreeReader(in, new LabeledScoredTreeFactory(), new NPTmpRetainingTreeNormalizer(EnglishTrain.splitTMP, EnglishTrain.splitSGapped == 5, Train.leaveItAll, EnglishTrain.splitNPADV >= 1, headFinder())); } };
/** * Makes appropriate TreeReaderFactory with all options specified */ @Override public TreeReaderFactory treeReaderFactory() { return in -> new PennTreeReader(in, new LabeledScoredTreeFactory(), new NPTmpRetainingTreeNormalizer(englishTrain.splitTMP, englishTrain.splitSGapped == 5, englishTrain.leaveItAll, englishTrain.splitNPADV >= 1, headFinder())); }
@Override public TreeReader newTreeReader(Reader in) { return new PennTreeReader(in, new LabeledScoredTreeFactory(), new NPTmpRetainingTreeNormalizer(englishTrain.splitTMP, englishTrain.splitSGapped == 5, englishTrain.leaveItAll, englishTrain.splitNPADV >= 1, headFinder())); } };
new PennTreeReaderFactory(new NPTmpRetainingTreeNormalizer()); DiskTreebank testTreebank = new DiskTreebank(trf); testTreebank.loadPath(new File(args[0]), testFilt);
MemoryTreebank tb = new MemoryTreebank(new NPTmpRetainingTreeNormalizer(0, false, 1, false)); tb.loadPath(treeFileName); Iterator<Tree> treeIterator = tb.iterator();
MemoryTreebank tb = new MemoryTreebank(new NPTmpRetainingTreeNormalizer(0, false, 1, false)); tb.loadPath(treeFileName); Iterator<Tree> treeIterator = tb.iterator();