最近写代码的过程中,发现业务逻辑很多的时候,总会有很多的 if ... else,很多的 if ...else,有的时候就会丢去某些逻辑。有的时候也会用到swich case 来区分不同类型下执行不同的方法。但是往往这种情况的时候,会显得一个方法的代码非常长,不利于代码扩展,违反开闭原则。为了破解这样的嵌套。我们可以使用策略模式来解决。
目录
需求
假设有一个订单系统,里面的一个功能是根据订单的不同类型作出不同的处理。
传统实现方式
public class OrderDTO {
private String code;
private BigDecimal price;
/**
* 订单类型
* 1:普通订单;
* 2:团购订单;
* 3:促销订单;
*/
private String type;
// ... 省略 get / set ...
}
public interface IOrderService {
/**
* 根据订单的不同类型作出不同的处理
*
* @param dto 订单实体
* @return 为了简单,返回字符串
*/
String handle(OrderDTO dto);
}
public class OrderServiceImpl implements IOrderService {
@Override
public String handle(OrderDTO dto) {
String type = dto.getType();
if ("1".equals(type)) {
return "处理普通订单";
} else if ("2".equals(type)) {
return "处理团购订单";
} else if ("3".equals(type)) {
return "处理促销订单";
}
return null;
}
}
策略模式实现
- 修改后实现类
public class OrderServiceV2Impl implements IOrderService {
@Autowired
private HandlerContext handlerContext;
@Override
public String handle(OrderDTO dto) {
AbstractHandler handler = handlerContext.getInstance(dto.getType());
return handler.handle(dto);
}
}
- 分类后的具体业务逻辑
@Component
@HandlerType("1")
public class NormalHandler extends AbstractHandler {
@Override
public String handle(OrderDTO dto) {
return "处理普通订单";
}
}
@HandlerType("2")
public class GroupHandler extends AbstractHandler {
@Override
public String handle(OrderDTO dto) {
return "处理团购订单";
}
}
- 自定义注解
@Target({ElementType.TYPE})
@Retention(RetentionPolicy.RUNTIME)
@Documented
@Inherited
public @interface HandlerType {
String value();
}
- 抽象处理器
public abstract class AbstractHandler {
abstract public String handle(OrderDTO dto);
}
- 项目启动扫描handler入口
@Component
@SuppressWarnings("unchecked")
public class HandlerProcessor implements BeanFactoryPostProcessor {
private static final String HANDLER_PACKAGE = "com.cipher.handler_demo.handler.biz";
/**
* 扫描@HandlerType,初始化HandlerContext,将其注册到spring容器
*
* @param beanFactory bean工厂
* @see HandlerType
* @see HandlerContext
*/
@Override
public void postProcessBeanFactory(ConfigurableListableBeanFactory beanFactory) throws BeansException {
Map<String, Class> handlerMap = Maps.newHashMapWithExpectedSize(3);
Set<Class<?>> set = ClassScaner.scan(HANDLER_PACKAGE, HandlerType.class);
for (Class clazz : set) {
HandlerType annotation = (HandlerType)clazz.getAnnotation(HandlerType.class);
handlerMap.put(annotation.value(), clazz);
}
// 初始化HandlerContext,将其注册到spring容器中
HandlerContext context = new HandlerContext(handlerMap);
beanFactory.registerSingleton(HandlerContext.class.getName(), context);
}
}
- 扫描工具类
public class ClassScaner implements ResourceLoaderAware {
private final List<TypeFilter> includeFilters = new LinkedList<TypeFilter>();
private final List<TypeFilter> excludeFilters = new LinkedList<TypeFilter>();
private ResourcePatternResolver resourcePatternResolver = new PathMatchingResourcePatternResolver();
private MetadataReaderFactory metadataReaderFactory = new CachingMetadataReaderFactory(this.resourcePatternResolver);
@SafeVarargs
public static Set<Class<?>> scan(String[] basePackages, Class<? extends Annotation>... annotations) {
ClassScaner cs = new ClassScaner();
if (ArrayUtils.isNotEmpty(annotations)) {
for (Class anno : annotations) {
cs.addIncludeFilter(new AnnotationTypeFilter(anno));
}
}
Set<Class<?>> classes = new HashSet<>();
for (String s : basePackages) {
classes.addAll(cs.doScan(s));
}
return classes;
}
@SafeVarargs
public static Set<Class<?>> scan(String basePackages, Class<? extends Annotation>... annotations) {
return ClassScaner.scan(StringUtils.tokenizeToStringArray(basePackages, ",; \t\n"), annotations);
}
public final ResourceLoader getResourceLoader() {
return this.resourcePatternResolver;
}
@Override
public void setResourceLoader(ResourceLoader resourceLoader) {
this.resourcePatternResolver = ResourcePatternUtils
.getResourcePatternResolver(resourceLoader);
this.metadataReaderFactory = new CachingMetadataReaderFactory(
resourceLoader);
}
public void addIncludeFilter(TypeFilter includeFilter) {
this.includeFilters.add(includeFilter);
}
public void addExcludeFilter(TypeFilter excludeFilter) {
this.excludeFilters.add(0, excludeFilter);
}
public void resetFilters(boolean useDefaultFilters) {
this.includeFilters.clear();
this.excludeFilters.clear();
}
public Set<Class<?>> doScan(String basePackage) {
Set<Class<?>> classes = new HashSet<>();
try {
String packageSearchPath = ResourcePatternResolver.CLASSPATH_ALL_URL_PREFIX
+ org.springframework.util.ClassUtils
.convertClassNameToResourcePath(SystemPropertyUtils
.resolvePlaceholders(basePackage))
+ "/**/*.class";
Resource[] resources = this.resourcePatternResolver
.getResources(packageSearchPath);
for (int i = 0; i < resources.length; i++) {
Resource resource = resources[i];
if (resource.isReadable()) {
MetadataReader metadataReader = this.metadataReaderFactory.getMetadataReader(resource);
if ((includeFilters.size() == 0 && excludeFilters.size() == 0) || matches(metadataReader)) {
try {
classes.add(Class.forName(metadataReader
.getClassMetadata().getClassName()));
} catch (ClassNotFoundException e) {
e.printStackTrace();
}
}
}
}
} catch (IOException ex) {
throw new BeanDefinitionStoreException(
"I/O failure during classpath scanning", ex);
}
return classes;
}
protected boolean matches(MetadataReader metadataReader) throws IOException {
for (TypeFilter tf : this.excludeFilters) {
if (tf.match(metadataReader, this.metadataReaderFactory)) {
return false;
}
}
for (TypeFilter tf : this.includeFilters) {
if (tf.match(metadataReader, this.metadataReaderFactory)) {
return true;
}
}
return false;
}
}
- 根据类型实例化抽象类
//@Component //这个加上会报错了,因为在HandlerProcessor中已经注入到ioc容器了,
//再次加上注解,Service装配的时候会再次初始化而注入失败
public class HandlerContext {
private Map<String, Class> handlerMap;
public HandlerContext(Map<String, Class> handlerMap) {
this.handlerMap = handlerMap;
}
public AbstractHandler getInstance(String type) {
Class clazz = handlerMap.get(type);
if (clazz == null) {
throw new IllegalArgumentException("not found handler for type: " + type);
}
return (AbstractHandler) BeanTool.getBean(clazz);
}
}
@Component
public class BeanTool implements ApplicationContextAware {
private static ApplicationContext applicationContext;
//自动初始化注入applicationContext
@Override
public void setApplicationContext(ApplicationContext context) throws BeansException {
if (applicationContext==null){
applicationContext=context;
}
}
/**通过bean的缩写的方式获取类型
*
* @param name
* @return
*/
public static Object getBean(String name){
return applicationContext.getBean(name);
}
public static <T> T getBean(Class<T> clazz){
return applicationContext.getBean(clazz);
}
}
-
总结
策略模式的作用:就是把具体的算法实现从业务逻辑中剥离出来,成为一系列独立算法类,使得它们可以相互替换。
在我们可以通过继续写心的业务逻辑类,来拓展我们的代码,这个是非常方便的,基本serviceImpl的类中是不用修改的。可以增加新的东西,不用修改旧的东西,这个正好是设计模式里面的开闭原则。