コード例 #1
0
            internal void Refine(IBooleanAlgebra <S> solver, S newSet)
            {
                var set_cap_newSet = solver.MkAnd(set, newSet);

                if (!solver.IsSatisfiable(set_cap_newSet))
                {
                    return; //set is disjoint from newSet
                }
                if (solver.AreEquivalent(set, set_cap_newSet))
                {
                    return; //set is a subset of newSet
                }
                var set_minus_newSet = solver.MkAnd(set, solver.MkNot(newSet));


                if (left == null) //leaf
                {
                    left  = new PartTree(set_cap_newSet, null, null);
                    right = new PartTree(set_minus_newSet, null, null);
                }
                else
                {
                    left.Refine(solver, newSet);
                    right.Refine(solver, newSet);
                }
            }
コード例 #2
0
ファイル: PairBoolAlg.cs プロジェクト: OlliSaarikivi/Automata
 /// <summary>
 /// Returns true iff the first components are equivalent and the second components are equivalent.
 /// </summary>
 public bool AreEquivalent(Pair <S, T> predicate1, Pair <S, T> predicate2)
 {
     return(first.AreEquivalent(predicate1.First, predicate2.First) &&
            second.AreEquivalent(predicate1.Second, predicate2.Second));
 }
コード例 #3
0
 /// <summary>
 /// Returns true iff the first components are equivalent and the second components are equivalent.
 /// </summary>
 public bool AreEquivalent(Tuple <S, T> predicate1, Tuple <S, T> predicate2)
 {
     return(first.AreEquivalent(predicate1.Item1, predicate2.Item1) &&
            second.AreEquivalent(predicate1.Item2, predicate2.Item2));
 }