public static boolean isomorphic(DefaultRule a, DefaultRule b) { a = preprocess(a); b = preprocess(b); Matching m = new Matching(); Clause ca = new Clause(Sugar.iterable(a.antecedent().literals(), a.consequent().literals())); Clause cb = new Clause(Sugar.iterable(b.antecedent().literals(), b.consequent().literals())); return ca.variables().size() == cb.variables().size() && ca.literals().size() == cb.literals().size() && m.isomorphism(ca, cb); }
public static Set<DefaultRule> selectNonisomorphicDefaultRules( Iterable<DefaultRule> defaultRules) { List<Clause> candidates = new ArrayList<Clause>(); for (DefaultRule rule : defaultRules) { DefaultRule preprocessed = preprocess(rule); candidates.add( new Clause( Sugar.<Literal>iterable( preprocessed.antecedent().literals(), preprocessed.consequent().literals()))); } Matching m = new Matching(); Set<DefaultRule> retVal = new HashSet<DefaultRule>(); for (Clause c : m.nonisomorphic(candidates)) { List<Literal> head = new ArrayList<Literal>(); List<Literal> body = new ArrayList<Literal>(); for (Literal l : c.literals()) { Literal newLiteral = new Literal( l.predicate().substring(l.predicate().indexOf(":") + 1), l.isNegated(), l.arity()); for (int i = 0; i < l.arity(); i++) { newLiteral.set(l.get(i), i); } if (l.predicate().startsWith("antecedent:") || l.predicate().startsWith(SymmetricPredicates.PREFIX + "antecedent:")) { body.add(newLiteral); } else { head.add(newLiteral); } } retVal.add(new DefaultRule(new Clause(body), new Clause(head))); } return retVal; }
private static MultiMap<Variable, Variable> surelyDifferent(DefaultRule rule) { Clause body = rule.antecedent(); Clause head = rule.consequent(); final MultiMap<Variable, Variable> different = new MultiMap<Variable, Variable>(); for (Literal literal : Sugar.union( body.getLiteralsByPredicate(SpecialBinaryPredicates.NEQ), body.getLiteralsByPredicate(SpecialBinaryPredicates.GT), body.getLiteralsByPredicate(SpecialBinaryPredicates.LT), body.getLiteralsByPredicate(SpecialVarargPredicates.ALLDIFF), head.getLiteralsByPredicate(SpecialBinaryPredicates.NEQ), head.getLiteralsByPredicate(SpecialBinaryPredicates.GT), head.getLiteralsByPredicate(SpecialBinaryPredicates.LT), head.getLiteralsByPredicate(SpecialVarargPredicates.ALLDIFF))) { for (Term a : literal.terms()) { if (a instanceof Variable) { Variable v1 = (Variable) a; for (Term b : literal.terms()) { if (b instanceof Variable) { Variable v2 = (Variable) b; if (v1 != v2) { different.put(v1, v2); } } } } } } return different; }
public static MultiMap<DefaultRule, DefaultRule> representativeBodySpecializations2( DefaultRule rule, List<Set<Constant>> interchangeableConstants) { Clause body = rule.antecedent(); Clause head = rule.consequent(); final MultiMap<Variable, Variable> different = surelyDifferent(rule); return null; }
private static Set<Term> constants(Iterable<DefaultRule> rules) { Set<Term> retVal = new HashSet<Term>(); for (DefaultRule rule : rules) { for (Term t : Sugar.<Term>iterable(rule.antecedent().terms(), rule.consequent().terms())) { if (t instanceof Constant) { retVal.add(t); } } } return retVal; }
private static DefaultRule preprocess(DefaultRule r) { return new DefaultRule( preprocessClause(r.antecedent(), "antecedent:"), preprocessClause(r.consequent(), "consequent:")); }
public static Clause clauseFromDefault(DefaultRule rule) { return new Clause( Sugar.iterable( Utils.flipSigns(rule.antecedent().literals()), rule.consequent().literals())); }
public static MultiMap<DefaultRule, DefaultRule> representativeBodySpecializations( DefaultRule rule, List<Set<Constant>> interchangeableConstants) { Clause body = rule.antecedent(); Clause head = rule.consequent(); final MultiMap<Variable, Variable> different = surelyDifferent(rule); final List<Variable> variables = Sugar.<Variable>listFromCollections(body.variables()); List<Integer> indices = VectorUtils.toList(VectorUtils.sequence(0, variables.size() - 1)); List<Tuple<Integer>> unifications = Combinatorics.<Integer>cartesianPower( indices, indices.size(), new Sugar.Fun<Tuple<Integer>, Boolean>() { @Override public Boolean apply(Tuple<Integer> integerTuple) { for (int i = 0; i < integerTuple.size(); i++) { if (integerTuple.get(i) > i || !integerTuple.get(i).equals(integerTuple.get(integerTuple.get(i))) || different .get(variables.get(integerTuple.get(i))) .contains(variables.get(i)) || !sameType(variables.get(integerTuple.get(i)), variables.get(i))) { return Boolean.FALSE; } } return Boolean.TRUE; } }); Set<DefaultRule> nonIsomorphicUnifications = new HashSet<DefaultRule>(); for (Tuple<Integer> unification : unifications) { Map<Term, Term> substitution = new HashMap<Term, Term>(); for (int i = 0; i < unification.size(); i++) { substitution.put(variables.get(i), variables.get(unification.get(i))); } Clause newBody = LogicUtils.substitute(rule.antecedent(), substitution); Clause newHead = LogicUtils.substitute(rule.consequent(), substitution); nonIsomorphicUnifications.add( new DefaultRule( newBody.variables().size() > 1 ? new Clause(Sugar.union(newBody.literals(), allDiffLiteral(newBody))) : newBody, newHead)); } nonIsomorphicUnifications = DefaultTransformationUtils.selectNonisomorphicDefaultRules(nonIsomorphicUnifications); MultiMap<DefaultRule, DefaultRule> retVal = new MultiMap<DefaultRule, DefaultRule>(); // this needs to be improved... e.g. using typing information... MultiList<Integer, Constant> consts = new MultiList<Integer, Constant>(); int index = 0; for (Set<Constant> interch : interchangeableConstants) { consts.putAll(index++, interch); } for (DefaultRule unifiedRule : nonIsomorphicUnifications) { List<Variable> unifsVariables = Sugar.listFromCollections(unifiedRule.variables()); if (unifsVariables.isEmpty()) { retVal.put(unifiedRule, unifiedRule); } else { Set<DefaultRule> substituted = new HashSet<DefaultRule>(); middleLoop: for (Tuple<Integer> tuple : Combinatorics.cartesianPower( new NaturalNumbersList(0, interchangeableConstants.size()), unifsVariables.size())) { Counters<Integer> used = new Counters<Integer>(); Map<Term, Term> substitution = new HashMap<Term, Term>(); for (int i = 0; i < unifsVariables.size(); i++) { int j = used.incrementPost(tuple.get(i)); if (j >= consts.get(tuple.get(i)).size()) { continue middleLoop; } else { if (unifsVariables.get(i).type() == null) { substitution.put( unifsVariables.get(i), Variable.construct( unifsVariables.get(i).name(), consts.get(tuple.get(i)).get(j).type())); } else { if (unifsVariables.get(i).type().equals(consts.get(tuple.get(i)).get(j).type())) { substitution.put( unifsVariables.get(i), Variable.construct( unifsVariables.get(i).name(), consts.get(tuple.get(i)).get(j).type())); } else { continue middleLoop; } } } } substituted.add(DefaultTransformationUtils.substitute(unifiedRule, substitution)); } retVal.putAll( unifiedRule, DefaultTransformationUtils.selectNonisomorphicDefaultRules(substituted)); } } return retVal; }
public static DefaultRule substitute(DefaultRule rule, Map<Term, Term> substitution) { return new DefaultRule( LogicUtils.substitute(rule.antecedent(), substitution), LogicUtils.substitute(rule.consequent(), substitution)); }
public static DefaultRule substitute(DefaultRule rule, Term[] template, Term[] substitution) { return new DefaultRule( LogicUtils.substitute(rule.antecedent(), template, substitution), LogicUtils.substitute(rule.consequent(), template, substitution)); }