private Set<List<Class<?>>> getParameterTypes(Set<ConstructorDescriptor> constructorDescriptors) { Set<List<Class<?>>> parameterTypes = new HashSet<List<Class<?>>>(); for ( ConstructorDescriptor constructorDescriptor : constructorDescriptors ) { List<Class<?>> types = new ArrayList<Class<?>>(); for ( ParameterDescriptor parameterDescriptor : constructorDescriptor.getParameterDescriptors() ) { types.add( parameterDescriptor.getElementClass() ); } parameterTypes.add( types ); } return parameterTypes; } }
@Test @SpecAssertion(section = Sections.CONSTRAINTMETADATA_EXECUTABLEDESCRIPTOR, id = "b") public void testGetParameterDescriptorsForConstructorOfInnerClass() { ConstructorDescriptor descriptor = Executables.parameterConstrainedConstructorOfInnerClass(); assertEquals( descriptor.getParameterDescriptors().size(), 2, "Size of parameter descriptor list doesn't match constructor parameter count" ); }
@Test @SpecAssertion(section = Sections.CONSTRAINTMETADATA_EXECUTABLEDESCRIPTOR, id = "b") public void testGetParameterDescriptorsForParameterlessConstructor() { ConstructorDescriptor descriptor = Executables.returnValueConstrainedConstructor(); assertEquals( descriptor.getParameterDescriptors().size(), 0, "Size of parameter descriptor list doesn't match constructor parameter count" ); }
@Test @SpecAssertion(section = Sections.CONSTRAINTMETADATA_EXECUTABLEDESCRIPTOR, id = "b") public void testGetParameterDescriptorsForConstructor() { ConstructorDescriptor descriptor = Executables.parameterConstrainedConstructor(); assertEquals( descriptor.getParameterDescriptors().size(), 2, "Size of parameter descriptor list doesn't match constructor parameter count" ); }
@Test @SpecAssertion(section = Sections.CONSTRAINTMETADATA_CASCADABLEDESCRIPTOR, id = "b") public void testGetGroupConversionsReturnsEmptySetForConstructorParameter() { ParameterDescriptor parameterDescriptor = Executables.parameterConstrainedConstructor() .getParameterDescriptors() .get( 0 ); Set<GroupConversionDescriptor> groupConversions = parameterDescriptor.getGroupConversions(); assertNotNull( groupConversions ); assertTrue( groupConversions.isEmpty() ); }
@Test @SpecAssertion(section = Sections.CONSTRAINTMETADATA_ELEMENTDESCRIPTOR, id = "a") public void testGetElementClassForConstructor() { List<ParameterDescriptor> parameters = Executables.parameterConstrainedConstructor() .getParameterDescriptors(); assertEquals( parameters.get( 0 ).getElementClass(), String.class, "Wrong parameter class" ); }
@Test @SpecAssertion(section = Sections.CONSTRAINTMETADATA_EXECUTABLEDESCRIPTOR, id = "h") public void testConstructorDescriptorCanBeRetrievedAlsoIfValidateExecutableIsSetToNONEOnTypeLevel() { ConstructorDescriptor descriptor = getConstructorDescriptor( OrderLine.class, String.class ); assertNotNull( descriptor ); assertEquals( descriptor.getName(), "OrderLine" ); assertEquals( descriptor.getParameterDescriptors().get( 0 ).getConstraintDescriptors().size(), 1 ); }
@Test @SpecAssertion(section = Sections.CONSTRAINTMETADATA_CASCADABLEDESCRIPTOR, id = "a") public void testIsCascadedForConstructor() { List<ParameterDescriptor> parameters = Executables.parameterConstrainedConstructor() .getParameterDescriptors(); assertFalse( parameters.get( 0 ).isCascaded(), "Should not be cascaded" ); parameters = Executables.cascadedParameterConstructor().getParameterDescriptors(); assertTrue( parameters.get( 0 ).isCascaded(), "Should be cascaded" ); }
@Test @SpecAssertion(section = Sections.CONSTRAINTMETADATA_PARAMETERDESCRIPTOR, id = "b") public void testGetNameForConstructor() { List<ParameterDescriptor> parameters = Executables.parameterConstrainedConstructor() .getParameterDescriptors(); assertEquals( parameters.get( 0 ).getName(), "firstName", "Wrong parameter name" ); assertEquals( parameters.get( 1 ).getName(), "lastName", "Wrong parameter name" ); }
@Test @SpecAssertion(section = Sections.CONSTRAINTMETADATA_EXECUTABLEDESCRIPTOR, id = "h") public void testConstructorDescriptorCanBeRetrievedAlsoIfValidateExecutableIsSetToNONEOnConstructorLevel() { ConstructorDescriptor descriptor = getConstructorDescriptor( Item.class, String.class ); assertNotNull( descriptor ); assertEquals( descriptor.getName(), "Item" ); assertEquals( descriptor.getParameterDescriptors().get( 0 ).getConstraintDescriptors().size(), 1 ); } }
@Test @SpecAssertion(section = Sections.CONSTRAINTMETADATA_PARAMETERDESCRIPTOR, id = "a") public void testGetIndexForConstructor() { List<ParameterDescriptor> parameters = Executables.parameterConstrainedConstructor() .getParameterDescriptors(); assertEquals( parameters.get( 0 ).getIndex(), 0, "Wrong parameter index" ); assertEquals( parameters.get( 1 ).getIndex(), 1, "Wrong parameter index" ); }
@Test @SpecAssertion(section = Sections.XML_MAPPING_CONSTRAINTDECLARATIONINXML_CONSTRUCTORLEVELOVERRIDING, id = "n") public void testValidAnnotationIsIgnored() throws Exception { ConstructorDescriptor descriptor = TestUtil.getConstructorDescriptor( Cascaded.class, String.class ); assertNotNull( descriptor, "the specified constructor should be configured in xml" ); ReturnValueDescriptor returnValueDescriptor = descriptor.getReturnValueDescriptor(); assertFalse( returnValueDescriptor.isCascaded(), "Cascaded validation should disabled" ); ParameterDescriptor parameterDescriptor = descriptor.getParameterDescriptors().get( 0 ); assertFalse( parameterDescriptor.isCascaded(), "Cascaded validation should disabled" ); } }
@Test @SpecAssertion(section = Sections.XML_MAPPING_CONSTRAINTDECLARATIONINXML_CONSTRUCTORLEVELOVERRIDING, id = "n") public void testValidaAnnotationIsApplied() throws Exception { ConstructorDescriptor descriptor = TestUtil.getConstructorDescriptor( Cascaded.class, String.class ); assertNotNull( descriptor, "the specified constructor should be configured in xml" ); ReturnValueDescriptor returnValueDescriptor = descriptor.getReturnValueDescriptor(); assertTrue( returnValueDescriptor.isCascaded(), "Cascaded validation should be applied" ); ParameterDescriptor parameterDescriptor = descriptor.getParameterDescriptors().get( 0 ); assertTrue( parameterDescriptor.isCascaded(), "Cascaded validation should be applied" ); } }
@Test @SpecAssertion(section = Sections.XML_MAPPING_CONSTRAINTDECLARATIONINXML_CONSTRUCTORLEVELOVERRIDING, id = "h") public void testCascadingOnReturnValueAndParameter() throws Exception { ConstructorDescriptor descriptor = TestUtil.getConstructorDescriptor( CustomerRepository.class, CustomerRepository.class ); assertNotNull( descriptor, "the specified constructor should be configured in xml" ); ReturnValueDescriptor returnValueDescriptor = descriptor.getReturnValueDescriptor(); assertTrue( returnValueDescriptor.isCascaded(), "<valid/> is used to configure cascading" ); List<ParameterDescriptor> parameterDescriptors = descriptor.getParameterDescriptors(); assertTrue( parameterDescriptors.size() == 1 ); ParameterDescriptor parameterDescriptor = parameterDescriptors.get( 0 ); assertTrue( parameterDescriptor.isCascaded(), "<valid/> is used to configure cascading" ); }
@Test @SpecAssertion(section = Sections.CONSTRAINTDECLARATIONVALIDATIONPROCESS_GROUPSEQUENCE_GROUPCONVERSION, id = "d") public void testConvertGroupDefaultFromForConstructorParameter() { ParameterDescriptor descriptor = getConstructorDescriptor( BeanService.class, Bean.class ) .getParameterDescriptors().iterator().next(); Set<GroupConversionDescriptor> groupConversionDescriptors = descriptor.getGroupConversions(); GroupConversionDescriptor groupConversionDescriptor = getGroupConversionDescriptorByFrom( groupConversionDescriptors, Default.class ); assertEquals( groupConversionDescriptor.getTo(), ComplexChecks.class ); }
@Test @SpecAssertion(section = Sections.XML_MAPPING_CONSTRAINTDECLARATIONINXML_CONSTRUCTORLEVELOVERRIDING, id = "k") public void testIgnoreAnnotationsOnReturnValueParameterAndCrossParameter() { ConstructorDescriptor descriptor = TestUtil.getConstructorDescriptor( IgnoreAnnotations.class, String.class, String.class ); CrossParameterDescriptor crossParameterDescriptor = descriptor.getCrossParameterDescriptor(); assertFalse( crossParameterDescriptor.hasConstraints(), "Cross parameter constraints should be ignored." ); ReturnValueDescriptor returnValueDescriptor = descriptor.getReturnValueDescriptor(); assertFalse( returnValueDescriptor.hasConstraints(), "Return value constraints should be ignored." ); ParameterDescriptor parameterDescriptor = descriptor.getParameterDescriptors().get( 0 ); assertFalse( parameterDescriptor.hasConstraints(), "First parameter constraints should be ignored." ); parameterDescriptor = descriptor.getParameterDescriptors().get( 1 ); assertTrue( parameterDescriptor.hasConstraints(), "Second parameter constraints should be applied." ); } }
@Test @SpecAssertion(section = Sections.XML_MAPPING_CONSTRAINTDECLARATIONINXML_CONSTRUCTORLEVELOVERRIDING, id = "i") public void testGroupConversionOnReturnValueAndParameter() throws Exception { ConstructorDescriptor descriptor = TestUtil.getConstructorDescriptor( CustomerRepository.class, CustomerRepository.class ); assertNotNull( descriptor, "the specified constructor should be configured in xml" ); ReturnValueDescriptor returnValueDescriptor = descriptor.getReturnValueDescriptor(); Set<GroupConversionDescriptor> groupConversionDescriptors = returnValueDescriptor.getGroupConversions(); assertTrue( groupConversionDescriptors.size() == 1 ); GroupConversionDescriptor groupConversionDescriptor = groupConversionDescriptors.iterator().next(); assertEquals( groupConversionDescriptor.getFrom(), Default.class, "Wrong from class for group conversion" ); List<ParameterDescriptor> parameterDescriptors = descriptor.getParameterDescriptors(); assertTrue( parameterDescriptors.size() == 1 ); ParameterDescriptor parameterDescriptor = parameterDescriptors.get( 0 ); groupConversionDescriptors = parameterDescriptor.getGroupConversions(); assertTrue( groupConversionDescriptors.size() == 1 ); groupConversionDescriptor = groupConversionDescriptors.iterator().next(); assertEquals( groupConversionDescriptor.getFrom(), Default.class, "Wrong from class for group conversion" ); } }
@Test @SpecAssertion(section = Sections.CONSTRAINTMETADATA_EXECUTABLEDESCRIPTOR, id = "h") public void testConstructorDescriptorCanBeRetrievedAlsoIfValidateExecutableIsSetToNONEInXml() { assertEquals( Validation.byDefaultProvider() .configure() .getBootstrapConfiguration() .getDefaultValidatedExecutableTypes(), Collections.emptySet() ); ConstructorDescriptor descriptor = getConstructorDescriptor( StockItem.class, String.class ); assertNotNull( descriptor ); assertEquals( descriptor.getName(), "StockItem" ); assertEquals( descriptor.getParameterDescriptors().get( 0 ).getConstraintDescriptors().size(), 1 ); } }
@Test @SpecAssertion(section = Sections.CONSTRAINTMETADATA_CASCADABLEDESCRIPTOR, id = "b") @SpecAssertion(section = Sections.CONSTRAINTMETADATA_GROUPCONVERSIONDESCRIPTOR, id = "a") @SpecAssertion(section = Sections.CONSTRAINTMETADATA_GROUPCONVERSIONDESCRIPTOR, id = "b") public void testGetGroupConversionsForConstructorParameter() { List<ParameterDescriptor> parameters = Executables.constructorWithGroupConversionOnParameter() .getParameterDescriptors(); Set<GroupConversionDescriptor> groupConversions = parameters.get( 1 ).getGroupConversions(); assertEquals( groupConversions.size(), 2 ); for ( GroupConversionDescriptor groupConversionDescriptor : groupConversions ) { if ( groupConversionDescriptor.getFrom().equals( Default.class ) ) { assertEquals( groupConversionDescriptor.getTo(), BasicChecks.class ); } else if ( groupConversionDescriptor.getFrom().equals( StrictCustomerServiceChecks.class ) ) { assertEquals( groupConversionDescriptor.getTo(), StrictChecks.class ); } else { fail( String.format( "Encountered unexpected group conversion from %s to %s", groupConversionDescriptor.getFrom().getName(), groupConversionDescriptor.getTo().getName() ) ); } } }
@Test @SpecAssertion(section = Sections.CONSTRAINTMETADATA_ELEMENTDESCRIPTOR, id = "a") @SpecAssertion(section = Sections.CONSTRAINTMETADATA_CONTAINERDESCRIPTOR, id = "a") @SpecAssertion(section = Sections.CONSTRAINTMETADATA_CONTAINERDESCRIPTOR, id = "c") @SpecAssertion(section = Sections.CONSTRAINTMETADATA_CONTAINERDESCRIPTOR, id = "d") @SpecAssertion(section = Sections.CONSTRAINTMETADATA_CONTAINERDESCRIPTOR, id = "e") public void testGetContainerElementMetaDataForConstructorParameter() { ParameterDescriptor parameterDescriptor = Executables.constructorWithCascadedContainerElementsOnParameter().getParameterDescriptors().get( 0 ); checkContainerElementMetaDataOnParameterDescriptor( parameterDescriptor ); }