/** * Returns a fully constructed {@link ClassifierCompositeItemProcessor}. * * @return a new {@link ClassifierCompositeItemProcessor} */ public ClassifierCompositeItemProcessor<I, O> build() { Assert.notNull(classifier, "A classifier is required."); ClassifierCompositeItemProcessor<I, O> processor = new ClassifierCompositeItemProcessor<>(); processor.setClassifier(this.classifier); return processor; } }
typeMap.put(Number.class, defaultProcessor); classifier.setTypeMap(typeMap); processor.setClassifier(classifier);
@Test public void testBasicClassifierCompositeItemProcessor() throws Exception { ClassifierCompositeItemProcessor<String, String> processor = new ClassifierCompositeItemProcessor<>(); ItemProcessor<String, String> fooProcessor = new ItemProcessor<String, String>() { @Override public String process(String item) throws Exception { return "foo: " + item; } }; ItemProcessor<String, String> defaultProcessor = new ItemProcessor<String, String>() { @Override public String process(String item) throws Exception { return item; } }; Map<String, ItemProcessor<?, ? extends String>> routingConfiguration = new HashMap<>(); routingConfiguration.put("foo", fooProcessor); routingConfiguration.put("*", defaultProcessor); processor.setClassifier(new PatternMatchingClassifier<>(routingConfiguration)); assertEquals("bar", processor.process("bar")); assertEquals("foo: foo", processor.process("foo")); assertEquals("baz", processor.process("baz")); }
/** * Returns a fully constructed {@link ClassifierCompositeItemProcessor}. * * @return a new {@link ClassifierCompositeItemProcessor} */ public ClassifierCompositeItemProcessor<I, O> build() { Assert.notNull(classifier, "A classifier is required."); ClassifierCompositeItemProcessor<I, O> processor = new ClassifierCompositeItemProcessor<>(); processor.setClassifier(this.classifier); return processor; } }