@Test public void testGetFeature() { NamedFunction result1 = (NamedFunction) BackendFacade.invoke( _ctx, new QualifiedName("testGetFeature"), Arrays.asList(_person, "call", Arrays.asList(StringType.INSTANCE))); assertEquals("call", result1.getName().getSimpleName()); Object result2 = BackendFacade.invoke( _ctx, new QualifiedName("testGetFeature"), Arrays.asList(_person, "name", Arrays.asList())); if (result2 instanceof NamedFunction) { assertEquals("name", ((NamedFunction) result2).getName().getSimpleName()); } else if (result2 instanceof Property) { assertEquals("name", ((Property) result2).getName()); } StaticProperty result3 = (StaticProperty) BackendFacade.invoke( _ctx, new QualifiedName("testGetFeature"), Arrays.asList(_person, "A_STATIC_PROPERTY", Arrays.asList())); assertEquals("A_STATIC_PROPERTY", result3.getName()); }
@SuppressWarnings("unchecked") private AroundAdvice createAdvice(NamedFunction f, Method mtd) { Function inner = f.getFunction(); if (inner instanceof JavaDefinedFunction) { final M2tAroundAdvice adviceAnn = mtd.getAnnotation(M2tAroundAdvice.class); final M2tPointcut pointcutAnn = adviceAnn.pointcut(); List<NamedFunction> adviceBodyJavaFunctions = null; if ((adviceBodyJavaFunctions = (List<NamedFunction>) _middleEnd .getExecutionContext() .getContributionStateContext() .retrieveState("AdviceBodyJavaDefinedFunctions")) == null) { adviceBodyJavaFunctions = new ArrayList<NamedFunction>(); _middleEnd .getExecutionContext() .getContributionStateContext() .storeState("AdviceBodyJavaDefinedFunctions", adviceBodyJavaFunctions); } adviceBodyJavaFunctions.add(f); String[] paramTypeNames = pointcutAnn.paramTypeNames(); List<Pair<String, AdviceParamType>> paramTypes = new ArrayList<Pair<String, AdviceParamType>>(); for (int i = 0; i < paramTypeNames.length; i++) { String paramTypeName = paramTypeNames[i]; // TODO make subtype inclusion configurable if (!paramTypeName.equals("*")) { final AdviceParamType paramType = new AdviceParamType(_middleEnd.getTypesystem().findType(paramTypeName), true); final Pair<String, AdviceParamType> paramTypePair = new Pair<String, AdviceParamType>("o" + i + 1, paramType); paramTypes.add(paramTypePair); } } AdviceParamType varArgsAdvParamType = new AdviceParamType( _middleEnd.getTypesystem().findType(ObjectType.INSTANCE.getUniqueRepresentation()), true); final ExecutionPointcut pointcut = new ExecutionPointcut( pointcutAnn.namePattern(), paramTypes, pointcutAnn.hasVarArgs(), null); ExpressionBase body = new MethodInvocationExpression( mtd, Arrays.asList(new LocalVarEvalExpression(SyntaxConstants.THIS_JOINPOINT, null)), false, null); final AroundAdvice adv = new AroundAdvice(body, pointcut, true); return adv; } else { throw new IllegalArgumentException( "Advice definition " + f.getName() + " is not a JavaDefinedFunction"); } }
@SuppressWarnings("unchecked") @Test public void testAllOperations() { Set<NamedFunction> result = (Set<NamedFunction>) BackendFacade.invoke( _ctx, new QualifiedName("testAllOperations"), Arrays.asList(_person)); assertTrue(result.size() >= 14); for (NamedFunction namedFunction : result) { if (namedFunction.getName().getFullQualifiedName().equals(XtendLibNames.OPERATION_NAME)) fail("There should be no operation " + XtendLibNames.OPERATION_NAME); } }