/** * Prints a human-readable version of this vector, with features listed in ranked order. * @param out Stream to write to */ public void printByRank (final OutputStream out) { printByRank(new PrintWriter (new OutputStreamWriter (out), true)); }
/** * Prints a human-readable version of this vector, with features listed in ranked order. * @param out Stream to write to */ public void printByRank (final OutputStream out) { printByRank(new PrintWriter (new OutputStreamWriter (out), true)); }
/** * Prints a human-readable version of this vector, with features listed in ranked order. * @param out Stream to write to */ public void printByRank (final OutputStream out) { printByRank(new PrintWriter (new OutputStreamWriter (out), true)); }
public void printRank (PrintWriter out) { final Alphabet dict = getAlphabet(); final LabelAlphabet labelDict = getLabelAlphabet(); int numFeatures = dict.size() + 1; int numLabels = labelDict.size(); // Include the feature weights according to each label RankedFeatureVector rfv; double[] weights = new double[numFeatures-1]; // do not deal with the default feature for (int li = 0; li < numLabels; li++) { out.print ("FEATURES FOR CLASS "+labelDict.lookupObject (li) + " "); for (int i = 0; i < defaultFeatureIndex; i++) { double weight = parameters [li*numFeatures + i]; weights[i] = weight; } rfv = new RankedFeatureVector(dict,weights); rfv.printByRank(out); out.println (" <default> "+parameters [li*numFeatures + defaultFeatureIndex] + " "); } }
public void printRank (PrintWriter out) { final Alphabet dict = getAlphabet(); final LabelAlphabet labelDict = getLabelAlphabet(); int numFeatures = dict.size() + 1; int numLabels = labelDict.size(); // Include the feature weights according to each label RankedFeatureVector rfv; double[] weights = new double[numFeatures-1]; // do not deal with the default feature for (int li = 0; li < numLabels; li++) { out.print ("FEATURES FOR CLASS "+labelDict.lookupObject (li) + " "); for (int i = 0; i < defaultFeatureIndex; i++) { double weight = parameters [li*numFeatures + i]; weights[i] = weight; } rfv = new RankedFeatureVector(dict,weights); rfv.printByRank(out); out.println (" <default> "+parameters [li*numFeatures + defaultFeatureIndex] + " "); } }
public void printRank (PrintWriter out) { final Alphabet dict = getAlphabet(); final LabelAlphabet labelDict = getLabelAlphabet(); int numFeatures = dict.size() + 1; int numLabels = labelDict.size(); // Include the feature weights according to each label RankedFeatureVector rfv; double[] weights = new double[numFeatures-1]; // do not deal with the default feature for (int li = 0; li < numLabels; li++) { out.print ("FEATURES FOR CLASS "+labelDict.lookupObject (li) + " "); for (int i = 0; i < defaultFeatureIndex; i++) { double weight = parameters [li*numFeatures + i]; weights[i] = weight; } rfv = new RankedFeatureVector(dict,weights); rfv.printByRank(out); out.println (" <default> "+parameters [li*numFeatures + defaultFeatureIndex] + " "); } }