public void TreeHasCorrectStringForm() { var tree = new Arithmetic.Product<int>(VariableNode.Make<int>(0, "x"), new Arithmetic.Plus<int>(VariableNode.Make<int>(1, "y"), Constant.Int(3))); Assert.AreEqual(tree.ToString(), "(x ∙ (y + 3))"); var tree2 = new Logic.MultipleOr(new PredicateNode("P", VariableNode.Make<int>(0, "x")), new PredicateNode("Q", VariableNode.Make<int>(1, "y"), VariableNode.Make<int>(2, "z")), new PredicateNode("H", new FunctionNode("f", VariableNode.Make<int>(0, "x")), new FunctionNode("c"))); Assert.AreEqual(tree2.ToString(), "P(x) V Q(y,z) V H(f(x),c)"); }
public void ComplexUnificationTest() { // !P(x,b,z,s) V ANS(f(g(z,b,h(x,z,s)))) var A = new Logic.MultipleOr( new SkolemPredicateNode("P", true, VariableNode.Make<bool>(0, "x"), new FunctionNode("b"), VariableNode.Make<bool>(2,"z"), VariableNode.Make<bool>(3, "s")), new SkolemPredicateNode("ANS", false, new FunctionNode("f", new FunctionNode("g",VariableNode.Make<bool>(2, "z"),new FunctionNode("b"), new FunctionNode("h", VariableNode.Make<bool>(0, "x"), VariableNode.Make<bool>(2, "z"), VariableNode.Make<bool>(3, "s")))))); // P(a,b,c,s0) var B = new SkolemPredicateNode("P", false, new FunctionNode("a"), new FunctionNode("b"), new FunctionNode("c"), new FunctionNode("s0")); Assert.AreEqual(UnificationService.CanUnificate((SkolemPredicateNode)A.Children[0], B), true); var rules = UnificationService.GetUnificationRules((SkolemPredicateNode)A.Children[0], B); Assert.AreEqual(rules.Count, 3); UnificationService.Unificate(A, rules); Assert.AreEqual(A.ToString(), "!P(a,b,c,s0) V ANS(f(g(c,b,h(a,c,s0))))"); }