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Java8重構傳統(tǒng)設計模式,是真的優(yōu)雅!

java8中提供的很多新特性可以用來重構傳統(tǒng)設計模式中的寫法,下面是一些示例:

1. 策略模式

上圖是策略模式的類圖,假設我們現(xiàn)在要保存訂單,OrderService接口定義要做什么,而NoSqlSaveOrderStragegy以及MySqlSaveOrderStrategy則提供了二種策略,分別是保存到nosql數(shù)據(jù)庫,以及傳統(tǒng)的mysql關系型數(shù)據(jù)庫,最后在OrderServiceExecutor中通過構造函數(shù)注入最終要使用的策略。

傳統(tǒng)寫法,這個場景至少得4個類,代碼如下:

OrderService接口:

public interface OrderService {
    void saveOrder(String orderNo);
}

Mysql策略實現(xiàn):

public class MySqlSaveOrderStrategy implements OrderService {
    @Override
    public void saveOrder(String orderNo) {
        System.out.println("order:" + orderNo + " save to mysql");
    }
}

Nosql策略實現(xiàn):

public class NoSqlSaveOrderStrategy implements OrderService {
    @Override
    public void saveOrder(String orderNo) {
        System.out.println("order:" + orderNo + " save to nosql");
    }
}

使用策略的輔助"容器":

public class OrderServiceExecutor {

    private final OrderService service;

    public OrderServiceExecutor(OrderService service) {
        this.service = service;
    }

    public void save(String orderNo) {
        this.service.saveOrder(orderNo);
    }

}

運行測試類:

public class OrderServiceTest {
    public static void main(String[] args) {
        OrderServiceExecutor executor1 = new OrderServiceExecutor(new MySqlSaveOrderStrategy());
        executor1.save("001");
        OrderServiceExecutor executor2 = new OrderServiceExecutor(new NoSqlSaveOrderStrategy());
        executor2.save("002");
    }
}

重構后,可以省去2個策略實現(xiàn)類,代碼如下:

public static void main(String[] args) {
    OrderServiceExecutor executor1 = new OrderServiceExecutor((String orderNo) -> System.out.println("order:" + orderNo + " save to mysql"));
    executor1.save("001");

    OrderServiceExecutor executor2 = new OrderServiceExecutor((String orderNo) -> System.out.println("order:" + orderNo + " save to nosql"));
    executor2.save("002");
}

2. 模板方法

類圖如下,核心思路是把一些通用的標準方法,在抽象父類里僅定義方法簽名,實現(xiàn)邏輯交給子類。

比如:會員系統(tǒng)中,每個商家都會有一些營銷活動,需要推送某種信息給會員,但是不同的商家推送的內容可能不同,有些需要推送優(yōu)惠券,有些需要積分通知。

抽象模板類:

public abstract class AbstractPushTemplate {

    public void push(int customerId, String shopName) {
        System.out.println("準備推送...");
        execute(customerId, shopName);
        System.out.println("推送完成\n");
    }

    abstract protected void execute(int customerId, String shopName);
}

優(yōu)惠券的具體模板;

public class PushCouponTemplate extends AbstractPushTemplate {

    @Override
    protected void execute(int customerId, String shopName) {
        System.out.println("會員:" + customerId + ",你好," + shopName + "送您一張優(yōu)惠券");
    }
}

積分的具體模板;

public class PushScoreTemplate extends AbstractPushTemplate {

    @Override
    protected void execute(int customerId, String shopName) {
        System.out.println("會員:" + customerId + ",你好," + shopName + "送您10個積分");
    }
}

使用示例:

AbstractPushTemplate template1 = new PushCouponTemplate();
template1.push(1, "糖果店");

AbstractPushTemplate template2 = new PushScoreTemplate();
template2.push(1, "服裝店");

顯然如果模板的實現(xiàn)方式越多,子類就越多。

使用java8重構后,可以把上面的3個模板(包括抽象類模板)減少到1個,參考下面:

public class PushTemplateLambda {

    public void push(int customerId, String shopName, Consumer execute) {
        System.out.println("準備推送...");
        Object[] param = new Object[]{customerId, shopName};
        execute.accept(param);
        System.out.println("推送完成\n");
    }
}

借助Consumer這個function interface,可以省去實現(xiàn)子類,具體的實現(xiàn)留到使用時再來決定,如:

new PushTemplateLambda().push(1, "糖果店", (Object[] obj) -> {
    System.out.println("會員:" + obj[0] + ",你好," + obj[1] + "送您一張優(yōu)惠券");
});

new PushTemplateLambda().push(1, "服裝店", (Object[] obj) -> {
    System.out.println("會員:" + obj[0] + ",你好," + obj[1] + "送您10個積分");
});

3. 觀察者模式

思路:基于某個Subject主題,然后一堆觀察者Observer注冊到主題上,有事件發(fā)生時,subject根據(jù)注冊列表,去通知所有的observer。

Observer接口:

public interface Observer {
    void notify(String orderNo);
}

Subject接口:

public interface Subject {
    void registerObserver(Observer o);
    void notifyAllObserver(String orderNo);
}

Subject接口實現(xiàn):

public class SubjectImpl implements Subject {
    private final List list = new ArrayList<>();
    @Override
    public void registerObserver(Observer o) {
        list.add(o);
    }
    @Override
    public void notifyAllObserver(String orderNo) {
        list.forEach(c -> c.notify(orderNo));
    }
}

觀察者的二個實現(xiàn):

OrderObserver:

public class OrderObserver implements Observer {
    @Override
    public void notify(String orderNo) {
        System.out.println("訂單 " + orderNo + " 狀態(tài)更新為【已支付】");
    }
}

StockObserver;

public class StockObserver implements Observer {
    @Override
    public void notify(String orderNo) {
        System.out.println("訂單 " + orderNo + " 已通知庫房發(fā)貨!");
    }
}

測試一把:

static void test1() {
    Subject subject = new SubjectImpl();
    subject.registerObserver(new OrderObserver());
    subject.registerObserver(new StockObserver());
    subject.notifyAllObserver("001");
}

用java8重構后,接口可以提供默認實現(xiàn)方法,我們弄一個新的主題接口;

public interface NewSubject {

    List list = new ArrayList<>();

    default void registerObserver(Observer o) {
        list.add(o);
    }

    default void nofityAllObserver(String orderNo) {
        list.forEach(c -> c.notify(orderNo));
    }
}

使用:

static void test2() {
    NewSubject subject = new NewSubject() {
    };
    subject.registerObserver((String orderNo) -> System.out.println("訂單 " + orderNo + " 狀態(tài)更新為【已支付】"));
    subject.registerObserver((String orderNo) -> System.out.println("訂單 " + orderNo + " 已通知庫房發(fā)貨!"));
    subject.nofityAllObserver("002");
}

只用2個接口實現(xiàn)了觀察者模式。

4. 責任鏈/職責鏈模式

核心思想:每個處理環(huán)節(jié),都有一個“指針”指向下一個處理者,類似鏈表一樣。

Processor接口:

public interface Processor {

    Processor getNextProcessor();

    void process(String param);
}

抽象實現(xiàn)類:

public abstract class AbstractProcessor implements Processor {

    private Processor next;

    public AbstractProcessor(Processor processor) {
        this.next = processor;
    }

    @Override
    public Processor getNextProcessor() {
        return next;
    }

    @Override
    public abstract void process(String param);
}

定義2個具體的實現(xiàn):

public class ProcessorImpl1 extends AbstractProcessor {

    public ProcessorImpl1(Processor processor) {
        super(processor);
    }

    @Override
    public void process(String param) {
        System.out.println("processor 1 is processing:" + param);
        if (getNextProcessor() != null) {
            getNextProcessor().process(param);
        }
    }
}

及;

public class ProcessorImpl2 extends AbstractProcessor {

    public ProcessorImpl2(Processor next) {
        super(next);
    }

    @Override
    public void process(String param) {
        System.out.println("processor 2 is processing:" + param);
        if (getNextProcessor() != null) {
            getNextProcessor().process(param);
        }
    }
}

使用示例:

static void test1() {
    Processor p1 = new ProcessorImpl1(null);
    Processor p2 = new ProcessorImpl2(p1);
    p2.process("something happened");
}

用java8重構后,只需要一個新接口;

@FunctionalInterface
public interface NewProcessor {
    Consumer process(String param);
}

同樣的效果,可以寫得很簡潔:

static void test2() {
    Consumer p1 = param -> System.out.println("processor 1 is processing:" + param);
    Consumer p2 = param -> System.out.println("processor 2 is processing:" + param);
    p2.andThen(p1).accept("something happened");
}

andThen天然就是getNextProcessor的另一種表達。

重要提示:什么時候該用lambda,什么時候不用,這是要看情況的,如果處理邏輯相對比較簡單,可以用lamdba來重構,以便讓代碼更簡潔易讀,如果處理邏輯很復雜,應該還是用“類”。


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