@Test public void registerInstance() throws Exception { Bar b = new Bar(); c.RegisterInstance(b); Bar r1 = c.Resolve(Bar.class); Bar r2 = c.Resolve(Bar.class); assertSame(r1, r2); assertSame(b, r1); c.RegisterType(Bar.class, false); Bar r3 = c.Resolve(Bar.class); assertNotSame(r1, r3); }
@Test public void siblingSingleton() throws Exception { c.RegisterType(BarChild.class, BarChild.class, true); c.RegisterType(AbstractBar.class, BarChild2.class, false); BarChild bc1 = c.Resolve(BarChild.class); BarChild bc2 = c.Resolve(BarChild.class); assertSame(bc1, bc2); AbstractBar sibling = c.Resolve(AbstractBar.class); AbstractBar sibling2 = c.Resolve(AbstractBar.class); assertNotSame(sibling, sibling2); }
// /* @Test public void singletonsSame() { try { c.RegisterType(Dummy.class, true); Dummy d1 = c.Resolve(Dummy.class); Dummy d2 = c.Resolve(Dummy.class); assertSame(d1, d2); } catch (Exception ex) { System.out.println(ex.getMessage()); fail(); } }
@Test public void genericPair() { try { c.RegisterType(Pair.class, false); Pair<String, Integer> p1 = c.Resolve(Pair.class); p1.setA("asdf"); p1.setB(5); assertEquals("asdf", p1.a); assertEquals(5, (long) p1.b); } catch (Exception ex) { System.out.println(ex.getMessage()); fail(); } }
@Test public void fromRegisteredAbstractClass() { try { c.RegisterType(AbstractBar.class, Bar.class, false); AbstractBar b = c.Resolve(AbstractBar.class); assertTrue(b instanceof Bar); b.doBar(); Bar bb = (Bar) b; assertTrue(bb.isDone()); } catch (Exception ex) { System.out.println(ex.getMessage()); fail(); } }
@Test public void fromRegisteredInterface() { try { c.RegisterType(IFoo.class, Foo.class, false); IFoo f = c.Resolve(IFoo.class); c.RegisterType(IFoo.class, Foo2.class, false); IFoo f2 = c.Resolve(IFoo.class); assertTrue(f instanceof Foo); assertTrue(f2 instanceof Foo2); } catch (Exception ex) { System.out.println(ex.getMessage()); fail(); } }
@Test public void TwoAnnotatedConstructors() throws Exception { expexc.expect(InstantiationException.class); expexc.expectMessage("more"); expexc.expectMessage("DependencyConstructor"); TwoAnnotated ta = c.Resolve(TwoAnnotated.class); }
@Test public void BuildUp() throws Exception { SI s = new SI(); assertNull(s.AGetter()); c.BuildUp(s); assertNotNull(s.AGetter()); }
@Test public void PublicPrivateDependencyField() throws Exception { PDP p = c.Resolve(PDP.class); assertNotNull(p.dpub); assertEquals(p.isDprivNull(), true); assertNull(p.pub); }
@Test public void ServiceLocatorSimpleResolving() throws Exception { c.RegisterType(A.class, false); ServiceLocator.setContainerProvider(new ConstContainerProvider(c)); A a = ServiceLocator.getCurrent().getInstance(A.class); assertNotNull(a); }
@Test public void TBsInTreeWithoutCycle() throws Exception { T t = c.Resolve(T.class); assertNotNull(t.tb); assertNotNull(t.tb.td); assertNotNull(t.ta); assertNotNull(t.ta.tb); assertNotNull(t.ta.tb.td); assertNotNull(t.ta.tc); assertNotNull(t.ta.tc.tb); assertNotNull(t.ta.tc.tb.td); assertNotSame(t.tb, t.ta.tb); assertNotSame(t.ta.tc.tb, t.ta.tb); }
@Test public void fromUnregisteredInterface() throws Exception { expexc.expect(InstantiationException.class); IFoo f = c.Resolve(IFoo.class); }
@Test public void supertypeSingleton() throws Exception { expexc.expect(RuntimeException.class); c.RegisterType(AbstractBar.class, Bar.class, true); c.RegisterType(BarChild.class, BarChild.class, false); }
@Test public void fromUnregisteredResolvableType() throws Exception { Dummy d = c.Resolve(Dummy.class); assertNotNull(d); }
@Test public void simpleInjectionAB() throws Exception { A a = c.Resolve(A.class); assertNotNull(a.b); }
/** @author ja */ public class IoCTests { private SimpleContainer c; @Rule public ExpectedException expexc = ExpectedException.none(); public IoCTests() {} @BeforeClass public static void setUpClass() {} @AfterClass public static void tearDownClass() {} @Before public void setUp() { c = new SimpleContainer(); // expexc = ExpectedException.none(); } @After public void tearDown() {} // /* @Test public void singletonsSame() { try { c.RegisterType(Dummy.class, true); Dummy d1 = c.Resolve(Dummy.class); Dummy d2 = c.Resolve(Dummy.class); assertSame(d1, d2); } catch (Exception ex) { System.out.println(ex.getMessage()); fail(); } } @Test public void genericPair() { try { c.RegisterType(Pair.class, false); Pair<String, Integer> p1 = c.Resolve(Pair.class); p1.setA("asdf"); p1.setB(5); assertEquals("asdf", p1.a); assertEquals(5, (long) p1.b); } catch (Exception ex) { System.out.println(ex.getMessage()); fail(); } } @Test public void fromUnregisteredResolvableType() throws Exception { Dummy d = c.Resolve(Dummy.class); assertNotNull(d); } @Test public void fromRegisteredInterface() { try { c.RegisterType(IFoo.class, Foo.class, false); IFoo f = c.Resolve(IFoo.class); c.RegisterType(IFoo.class, Foo2.class, false); IFoo f2 = c.Resolve(IFoo.class); assertTrue(f instanceof Foo); assertTrue(f2 instanceof Foo2); } catch (Exception ex) { System.out.println(ex.getMessage()); fail(); } } @Test public void fromUnregisteredInterface() throws Exception { expexc.expect(InstantiationException.class); IFoo f = c.Resolve(IFoo.class); } @Test public void fromRegisteredAbstractClass() { try { c.RegisterType(AbstractBar.class, Bar.class, false); AbstractBar b = c.Resolve(AbstractBar.class); assertTrue(b instanceof Bar); b.doBar(); Bar bb = (Bar) b; assertTrue(bb.isDone()); } catch (Exception ex) { System.out.println(ex.getMessage()); fail(); } } @Test public void fromUnregisteredAbstractClass() throws Exception { expexc.expect(InstantiationException.class); AbstractBar b = c.Resolve(AbstractBar.class); } @Test public void supertypeSingleton() throws Exception { expexc.expect(RuntimeException.class); c.RegisterType(AbstractBar.class, Bar.class, true); c.RegisterType(BarChild.class, BarChild.class, false); } @Test public void siblingSingleton() throws Exception { c.RegisterType(BarChild.class, BarChild.class, true); c.RegisterType(AbstractBar.class, BarChild2.class, false); BarChild bc1 = c.Resolve(BarChild.class); BarChild bc2 = c.Resolve(BarChild.class); assertSame(bc1, bc2); AbstractBar sibling = c.Resolve(AbstractBar.class); AbstractBar sibling2 = c.Resolve(AbstractBar.class); assertNotSame(sibling, sibling2); } @Test public void registerInstance() throws Exception { Bar b = new Bar(); c.RegisterInstance(b); Bar r1 = c.Resolve(Bar.class); Bar r2 = c.Resolve(Bar.class); assertSame(r1, r2); assertSame(b, r1); c.RegisterType(Bar.class, false); Bar r3 = c.Resolve(Bar.class); assertNotSame(r1, r3); } @Test public void simpleInjectionAB() throws Exception { A a = c.Resolve(A.class); assertNotNull(a.b); } // */ @Test public void unregisteredStringConstructor() throws Exception { expexc.expect(InstantiationException.class); X x = c.Resolve(X.class); }
@Test public void SetterInjection() throws Exception { SI s = c.Resolve(SI.class); assertNotNull(s.AGetter()); }
@Test public void DifferentLengthsConstructors() throws Exception { DLC d = c.Resolve(DLC.class); assertEquals(d.wasLongestChosen(), true); }
@Test public void OneAnnotatedConstructor() throws Exception { OneAnnotated oa = c.Resolve(OneAnnotated.class); assertEquals(oa.wasAnnotatedChosen(), true); }
@Test public void fromUnregisteredAbstractClass() throws Exception { expexc.expect(InstantiationException.class); AbstractBar b = c.Resolve(AbstractBar.class); }
@Test public void TrivialCycle() throws Exception { expexc.expect(InstantiationException.class); expexc.expectMessage("Infinite"); Cyclic cy = c.Resolve(Cyclic.class); }
@Test public void UBsInTreeWithCycle() throws Exception { expexc.expect(InstantiationException.class); expexc.expectMessage("Infinite"); U u = c.Resolve(U.class); }
@Test public void registeredStringConstructor() throws Exception { c.RegisterInstance("ala ma kota"); X x = c.Resolve(X.class); assertEquals("ala ma kota", x.s); }