/** * Subroutine used by both compare methods for counting statistics from atoms stored in result * database * * @param p Predicate to compare against baseline database */ private void countResultDBStats(Predicate p) { tp = 0; fn = 0; tn = 0; fp = 0; errors = new HashMap<GroundAtom, Double>(); correctAtoms = new HashSet<GroundAtom>(); GroundAtom resultAtom, baselineAtom; GroundTerm[] args; boolean actual, expected; Iterator<GroundAtom> iter = resultFilter.filter(Queries.getAllAtoms(result, p).iterator()); while (iter.hasNext()) { resultAtom = iter.next(); args = new GroundTerm[resultAtom.getArity()]; for (int i = 0; i < args.length; i++) args[i] = (GroundTerm) resultAtom.getArguments()[i]; baselineAtom = baseline.getAtom(resultAtom.getPredicate(), args); if (baselineAtom instanceof ObservedAtom) { actual = (resultAtom.getValue() >= threshold); expected = (baselineAtom.getValue() >= threshold); if (actual && expected || !actual && !expected) { // True negative if (!actual) tn++; // True positive else tp++; correctAtoms.add(resultAtom); } // False negative else if (!actual) { fn++; errors.put(resultAtom, -1.0); } // False positive else { fp++; errors.put(resultAtom, 1.0); } } } }
/** * Compares the baseline with the inferred result for a given predicate. Checks the baseline * database for atoms * * @param Predicate p : The predicate to compare * @param int maxAtoms : Defines the maximum number of base atoms that can be found for the given * predicate. (This will vary, depending on the predicate and the problem.) */ @Override public DiscretePredictionStatistics compare(Predicate p, int maxBaseAtoms) { countResultDBStats(p); Iterator<GroundAtom> res = resultFilter.filter(Queries.getAllAtoms(baseline, p).iterator()); double expected; while (res.hasNext()) { GroundAtom baselineAtom = res.next(); if (!errors.containsKey(baselineAtom) && !correctAtoms.contains(baselineAtom)) { // Missed result expected = (baselineAtom.getValue() >= threshold) ? 1.0 : 0.0; if (expected != 0.0) { errors.put( result.getAtom(baselineAtom.getPredicate(), baselineAtom.getArguments()), expected); fn++; } } } tn = maxBaseAtoms - tp - fp - fn; return new DiscretePredictionStatistics(tp, fp, tn, fn, threshold, errors, correctAtoms); }
@Override public double getValue() { return atom.getValue(); }