public void OperationsTest() { OclOrderedSet source = TestUtils.CreateIntOrderedSet(1, 2, 3, 1); TestUtils.AreEqual((OclInteger)3, source.size()); TestUtils.AreEqual((OclBoolean)true, source.includes((OclInteger)1)); TestUtils.AreEqual((OclBoolean)false, source.excludes((OclInteger)1)); TestUtils.AreEqual((OclInteger)1, source.count((OclInteger)1)); TestUtils.AreEqual((OclBoolean)false, source.includesAll(TestUtils.CreateIntSet(1, 4))); TestUtils.AreEqual((OclBoolean)false, source.excludesAll(TestUtils.CreateIntSet(1, 4))); TestUtils.AreEqual((OclBoolean)false, source.isEmpty()); TestUtils.AreEqual((OclBoolean)true, source.notEmpty()); TestUtils.AreEqual(TestUtils.CreateIntOrderedSet(1, 2, 3, 4), source.append(OclInteger.Type, (OclInteger)4)); TestUtils.AreEqual(TestUtils.CreateIntOrderedSet(4, 1, 2, 3), source.prepend(OclInteger.Type, (OclInteger)4)); TestUtils.AreEqual(TestUtils.CreateIntOrderedSet(1, 4, 2, 3), source.insertAt(OclInteger.Type, (OclInteger)2, (OclInteger)4)); TestUtils.AreEqual(TestUtils.CreateIntOrderedSet(2, 3), source.subOrderedSet((OclInteger)2, (OclInteger)3)); TestUtils.AreEqual((OclInteger)2, source.at <OclInteger>((OclInteger)2)); TestUtils.AreEqual((OclInteger)3, source.indexOf((OclInteger)3)); TestUtils.AreEqual((OclInteger)1, source.first <OclInteger>()); TestUtils.AreEqual((OclInteger)3, source.last <OclInteger>()); TestUtils.AreEqual(TestUtils.CreateIntOrderedSet(3, 2, 1), source.reverse()); }
public void MinMaxSumTest() { OclOrderedSet source = TestUtils.CreateIntOrderedSet(1, 2, 3, 1); TestUtils.AreEqual((OclInteger)6, source.sum((OclInteger)0, (x, y) => x + y)); TestUtils.AreEqual((OclInteger)1, source.min <OclInteger>((x, y) => x.min(y))); TestUtils.AreEqual((OclInteger)3, source.max <OclInteger>((x, y) => x.max(y))); }
public void FlattenTest() { OclOrderedSet level1 = TestUtils.CreateIntOrderedSet(1, 2); OclOrderedSet level2 = new OclOrderedSet(level1.oclType(), level1, level1); OclOrderedSet level3 = new OclOrderedSet(level2.oclType(), level2, level2); TestUtils.AreEqual(TestUtils.CreateIntOrderedSet(1, 2), level1.flatten()); TestUtils.AreEqual(TestUtils.CreateIntOrderedSet(1, 2), level2.flatten()); TestUtils.AreEqual(TestUtils.CreateIntOrderedSet(1, 2), level3.flatten()); }
public void ProductTest() { OclOrderedSet a = TestUtils.CreateIntOrderedSet(1, 2); OclOrderedSet b = TestUtils.CreateIntOrderedSet(1, 3); OclTupleType tupleType = OclTupleType.Tuple(OclTupleType.Part("first", OclInteger.Type), OclTupleType.Part("second", OclInteger.Type)); OclSet pr = new OclSet(tupleType, new OclTuple(tupleType, (OclInteger)1, (OclInteger)1), new OclTuple(tupleType, (OclInteger)1, (OclInteger)3), new OclTuple(tupleType, (OclInteger)2, (OclInteger)1), new OclTuple(tupleType, (OclInteger)2, (OclInteger)3) ); TestUtils.AreEqual(pr, a.product(b)); }
public void IterationsTest() { OclOrderedSet source = TestUtils.CreateIntOrderedSet(1, 2, 3); TestUtils.AreEqual(TestUtils.CreateIntOrderedSet(2, 3), source.select <OclInteger>(x => x >= (OclInteger)2)); TestUtils.AreEqual(TestUtils.CreateIntOrderedSet(1), source.reject <OclInteger>(x => x >= (OclInteger)2)); TestUtils.AreEqual(TestUtils.CreateIntSequence(0, 1, 1), source.collectNested <OclInteger, OclInteger>(OclInteger.Type, x => x.div((OclInteger)2))); TestUtils.AreEqual(TestUtils.CreateIntOrderedSet(3, 2, 1), source.sortedBy <OclInteger, OclInteger>(x => - x)); TestUtils.AreEqual((OclInteger)1, source.any <OclInteger>(x => x < (OclInteger)2)); TestUtils.AreEqual(OclBoolean.True, source.one <OclInteger>(x => x < (OclInteger)2)); TestUtils.AreEqual(OclBoolean.False, source.one <OclInteger>(x => x < (OclInteger)3)); TestUtils.AreEqual(OclBoolean.True, source.exists <OclInteger>(x => x < (OclInteger)2)); TestUtils.AreEqual(OclBoolean.False, source.exists <OclInteger>(x => x < (OclInteger)1)); TestUtils.AreEqual(OclBoolean.False, source.forAll <OclInteger>(x => x < (OclInteger)2)); TestUtils.AreEqual(OclBoolean.True, source.forAll <OclInteger>(x => x < (OclInteger)4)); TestUtils.AreEqual(OclBoolean.True, source.isUnique <OclInteger, OclReal>(x => x / (OclInteger)2)); TestUtils.AreEqual(OclBoolean.False, source.isUnique <OclInteger, OclReal>(x => x.div((OclInteger)2))); }