@Test public void propertyChainClasses() { // Tests #367 classes(_A, _B, _C); objectProperties(_p, _q, _r); _kb.addSubProperty(list(_p, _q), _r); _kb.addSubClass(_A, some(_p, some(_q, _B))); _kb.addSubClass(some(_r, _B), _C); explainEntailment(_kb.isSubClassOf(_A, _C), ATermUtils.makeSub(_A, some(_p, some(_q, _B))), ATermUtils.makeSub(some(_r, _B), _C), ATermUtils.makeSubProp(list(_p, _q), _r)); }
@Test public void transitivityInverse() { classes(_C, _D); objectProperties(_p, _q, _r); _kb.addTransitiveProperty(_r); _kb.addSubProperty(_r, _q); _kb.addSubClass(_D, all(_q, _C)); assertTrue(_kb.isConsistent()); assertFalse(_kb.isSatisfiable(some(_p, and(_D, some(_p, and(some(inv(_r), _D), some(_r, not(_C)))))))); }
@Test public void testBottom2() { classes(_A, _B, _C, _D, _E, _F, _G); objectProperties(_p, _q, _r, _s); _kb.addSubClass(_A, some(_p, _B)); _kb.addSubClass(some(_p, _B), _C); _kb.addSubClass(_C, ATermUtils.BOTTOM); final Taxonomy<ATermAppl> hierarchy = getHierarchy(); assertEquals(SetUtils.create(_A, _C), hierarchy.getEquivalents(ATermUtils.BOTTOM)); }
@Test public void testTop1() { classes(_A, _B, _C, _D, _E, _F, _G); objectProperties(_p, _q, _r, _s); _kb.addSubClass(ATermUtils.TOP, _A); _kb.addSubClass(_C, some(_p, _B)); _kb.addSubClass(some(_p, _A), _D); final Taxonomy<ATermAppl> hierarchy = getHierarchy(); assertEquals(singletonSets(_D), hierarchy.getSupers(_C, true)); }
@Test public void testBottomWithSome2() { classes(_A, _B, _C, _D, _E, _F, _G); objectProperties(_p, _q, _r, _s); _kb.addSubClass(_B, some(_p, _A)); _kb.addSubClass(_A, ATermUtils.BOTTOM); _kb.addSubClass(_C, some(_q, _B)); final Taxonomy<ATermAppl> hierarchy = getHierarchy(); assertEquals(SetUtils.create(_A, _B, _C), hierarchy.getEquivalents(ATermUtils.BOTTOM)); }
@Test public void test547b() { dataProperties(_p, _q, _r); _kb.addDisjointProperty(_p, _q); _kb.addSubClass(some(_p, TOP_LIT), some(_q, TOP_LIT)); assertTrue(_kb.isConsistent()); assertTrue(_kb.isDisjointProperty(_p, _q)); assertFalse(_kb.isDisjointProperty(_p, _r)); assertFalse(_kb.isDisjointProperty(_q, _r)); } }
@Test public void testRange4() { classes(_A, _B, _C, _D, _E, _F, _G); objectProperties(_p, _q, _r, _s); _kb.addRange(_p, _C); _kb.addSubClass(_A, some(_p, _B)); _kb.addSubClass(and(_B, _C), _D); _kb.addSubClass(some(_p, _D), _E); final Taxonomy<ATermAppl> hierarchy = getHierarchy(); assertEquals(singletonSets(_A), hierarchy.getSubs(_E, true)); }
@Test public void testRange5() { classes(_A, _B, _C, _D, _E, _F, _G); objectProperties(_p, _q, _r, _s); _kb.addRange(_p, _A); _kb.addSubClass(_B, and(_A, some(_p, _C))); _kb.addSubClass(_C, _A); _kb.addEquivalentClass(_D, some(_p, _C)); final Taxonomy<ATermAppl> hierarchy = getHierarchy(); assertEquals(singletonSets(_B, _C), hierarchy.getSubs(_A, true)); }
@Test public void testFindPrimitives() { testFindPrimitives(some(_p, not(_c)), new ATermAppl[] { _c }); testFindPrimitives(and(_c, _b, all(_p, _a)), new ATermAppl[] { _a, _b, _c }); testFindPrimitives(max(_p, 1, not(some(_p, or(_a, _b)))), new ATermAppl[] { _a, _b }); testFindPrimitives(min(_p, 2, or(_a, and(_b, not(_c)))), new ATermAppl[] { _a, _b, _c }); testFindPrimitives(and(some(_p, ATermUtils.TOP), all(_p, _a), and(some(_p, value(_r)), or(self(_p), max(_p, 1, _b)))), new ATermAppl[] { ATermUtils.TOP, _a, _b }); testFindPrimitives(and(_d1, _d2, _d3), new ATermAppl[] { _d3 }); testFindPrimitives(not(and(not(_d1), _d2, _d3)), new ATermAppl[] { _d3 }); testFindPrimitives(some(_p, and(_d1, _d3)), new ATermAppl[] { _d3 }); }
@Test public void somePQallAnonInvR2() { classes(_C); objectProperties(_p, _q, _r); _kb.addSubProperty(list(_p, _q), _r); assertTrue(_kb.isConsistent()); assertTrue(_kb.isSatisfiable(_C)); assertTrue(_kb.isSatisfiable(some(_q, all(inv(_r), not(_C))))); assertFalse(_kb.isSatisfiable(and(_C, some(_p, some(_q, all(inv(_r), not(_C))))))); }
@Test public void cachedIntersectionUnsat() { classes(_B, _C, _D); objectProperties(_p); _kb.addDisjointClass(_C, _D); _kb.addSubClass(_B, some(_p, some(inv(_p), and(_C, _D)))); assertTrue(_kb.isConsistent()); assertTrue(_kb.isSatisfiable(_C)); assertTrue(_kb.isSatisfiable(_D)); assertFalse(_kb.isSatisfiable(_B)); }
@Test public void somePQallInvR() { classes(_C, _D); objectProperties(_p, _q, _r); _kb.addSubProperty(list(_p, _q), _r); _kb.addSubClass(_D, some(_p, some(_q, _C))); _kb.addSubClass(_C, all(inv(_r), not(_D))); assertTrue(_kb.isConsistent()); assertTrue(_kb.isSatisfiable(_C)); assertFalse(_kb.isSatisfiable(_D)); }
@Test public void testDomain1() { classes(_A, _B); objectProperties(_p); _kb.addDomain(_p, _A); _kb.addSubClass(_B, some(_p, ATermUtils.TOP)); final Taxonomy<ATermAppl> hierarchy = getHierarchy(); assertEquals(singletonSets(_A), hierarchy.getSupers(_B, true)); }
@Test public void testBottomWithSome1() { classes(_A, _B); objectProperties(_p); _kb.addSubClass(_A, some(_p, _B)); _kb.addSubClass(_B, ATermUtils.BOTTOM); final Taxonomy<ATermAppl> hierarchy = getHierarchy(); assertEquals(SetUtils.create(_A, _B), hierarchy.getEquivalents(ATermUtils.BOTTOM)); }
@Test public void testDomainBottom() { classes(_A, _B, _C, _D, _E, _F, _G); objectProperties(_p, _q, _r, _s); _kb.addDomain(_p, ATermUtils.BOTTOM); _kb.addSubClass(_A, some(_p, _B)); final Taxonomy<ATermAppl> hierarchy = getHierarchy(); assertEquals(SetUtils.create(_A), hierarchy.getEquivalents(ATermUtils.BOTTOM)); }
@Test public void testDatatypeDefinition() { classes(_A); dataProperties(_p); individuals(_a); _kb.addDatatypeDefinition(_D, restrict(Datatypes.INTEGER, minInclusive(literal(10)))); _kb.addPropertyValue(_p, _a, literal(15)); _kb.addEquivalentClass(_A, some(_p, _D)); explainEntailment(_kb.isType(_a, _A), ATermUtils.makeEqClasses(_A, some(_p, _D)), ATermUtils.makeDatatypeDefinition(_D, restrict(Datatypes.INTEGER, minInclusive(literal(10)))), ATermUtils.makePropAtom(_p, _a, literal(15))); }