public Instance pipe(Instance carrier) { TokenSequence ts = (TokenSequence) carrier.getData(); for (int i = 0; i < ts.size(); i++) { for (int j = 0; j < lexicon.size(); j++) { Pattern[] pats = (Pattern[]) lexicon.elementAt(j); boolean matched = true; for (int k = 0; k < pats.length && i + k < ts.size(); k++) { Token tok = ts.getToken(i + k); String t = tok.getText().intern(); if (!(pats[k].matcher(ignoreCase ? t.toLowerCase() : t)).matches()) { matched = false; break; } } if (matched) { for (int k = 0; k < pats.length && i + k < ts.size(); k++) ts.getToken(i + k).setFeatureValue(name + (indvMatch ? "" + j : ""), 1.0); i = i + pats.length - 1; break; } } } return carrier; }
public Instance pipe(Instance carrier) { LineInfo[] lineInfos = (LineInfo[]) carrier.getData(); for (int i = 0; i < lineInfos.length; i++) { if (containsLexicon(lineInfos[i])) lineInfos[i].presentFeatures.add(m_featureName); } return carrier; }
/** * Classifies an instance using Winnow's weights * * @param instance an instance to be classified * @return an object containing the classifier's guess */ public Classification classify(Instance instance) { int numClasses = getLabelAlphabet().size(); double[] scores = new double[numClasses]; FeatureVector fv = (FeatureVector) instance.getData(this.instancePipe); // Make sure the feature vector's feature dictionary matches // what we are expecting from our data pipe (and thus our notion // of feature probabilities. assert (instancePipe == null || fv.getAlphabet() == this.instancePipe.getDataAlphabet()); int fvisize = fv.numLocations(); // Set the scores by summing wi*xi for (int fvi = 0; fvi < fvisize; fvi++) { int fi = fv.indexAtLocation(fvi); for (int ci = 0; ci < numClasses; ci++) scores[ci] += this.weights[ci][fi]; } // Create and return a Classification object return new Classification(instance, this, new LabelVector(getLabelAlphabet(), scores)); }
public Instance pipe(Instance carrier) { carrier.setData(new TokenIterator((TokenSequence) carrier.getData())); return carrier; }
public void test( Transducer transducer, InstanceList data, String description, PrintStream viterbiOutputStream) { int[] ntrue = new int[segmentTags.length]; int[] npred = new int[segmentTags.length]; int[] ncorr = new int[segmentTags.length]; LabelAlphabet dict = (LabelAlphabet) transducer.getInputPipe().getTargetAlphabet(); for (int i = 0; i < data.size(); i++) { Instance instance = data.getInstance(i); Sequence input = (Sequence) instance.getData(); Sequence trueOutput = (Sequence) instance.getTarget(); assert (input.size() == trueOutput.size()); Sequence predOutput = transducer.viterbiPath(input).output(); assert (predOutput.size() == trueOutput.size()); List trueSegs = new ArrayList(); List predSegs = new ArrayList(); addSegs(trueSegs, trueOutput); addSegs(predSegs, predOutput); // System.out.println("FieldF1Evaluator instance "+instance.getName ()); // printSegs(dict, trueSegs, "True"); // printSegs(dict, predSegs, "Pred"); for (Iterator it = predSegs.iterator(); it.hasNext(); ) { Segment seg = (Segment) it.next(); npred[seg.tag]++; if (trueSegs.contains(seg)) { ncorr[seg.tag]++; } } for (Iterator it = trueSegs.iterator(); it.hasNext(); ) { Segment seg = (Segment) it.next(); ntrue[seg.tag]++; } } DecimalFormat f = new DecimalFormat("0.####"); logger.info(description + " per-field F1"); for (int tag = 0; tag < segmentTags.length; tag++) { double precision = ((double) ncorr[tag]) / npred[tag]; double recall = ((double) ncorr[tag]) / ntrue[tag]; double f1 = (2 * precision * recall) / (precision + recall); Label name = dict.lookupLabel(segmentTags[tag]); logger.info( " segments " + name + " true = " + ntrue[tag] + " pred = " + npred[tag] + " correct = " + ncorr[tag]); logger.info( " precision=" + f.format(precision) + " recall=" + f.format(recall) + " f1=" + f.format(f1)); } }