设计模式——建造者模式(Java示例)
2023-12-15 13:34:22
引言
生成器是一种创建型设计模式,?使你能够分步骤创建复杂对象。
与其他创建型模式不同,?生成器不要求产品拥有通用接口。?这使得用相同的创建过程生成不同的产品成为可能。
复杂度: 中等
流行度: 流行
使用示例:?生成器模式是 Java 世界中的一个著名模式。?当你需要创建一个可能有许多配置选项的对象时,?该模式会特别有用。
生成器在 Java 核心程序库中得到了广泛的应用:
- java.lang.StringBuilder#append()?(?
非同步?) - java.lang.StringBuffer#append()?(?
同步?) - java.nio.ByteBuffer#put()?(还有?Char-Buffer、?Short-Buffer、?Int-Buffer、?Long-Buffer、?Float-Buffer?和?Double-Buffer)
- javax.swing.GroupLayout.Group#addComponent()
- java.lang.Appendable的所有实现
?识别方法:?生成器模式可以通过类来识别,?它拥有一个构建方法和多个配置结果对象的方法。?生成器方法通常支持方法链?(例如?someBuilder.?setValueA(1).?setValueB(2).?create())。
分步制造汽车
在本例中,?生成器模式允许你分步骤地制造不同型号的汽车。
示例还展示了生成器如何使用相同的生产过程制造不同类型的产品?(汽车手册)。
主管控制着构造顺序。?它知道制造各种汽车型号需要调用的生产步骤。?它仅与汽车的通用接口进行交互。?这样就能将不同类型的生成器传递给主管了。
最终结果将从生成器对象中获得,?因为主管不知道最终产品的类型。?只有生成器对象知道自己生成的产品是什么。
?builders
?builders/Builder.java:?通用生成器接口
package refactoring_guru.builder.example.builders;
import refactoring_guru.builder.example.cars.CarType;
import refactoring_guru.builder.example.components.Engine;
import refactoring_guru.builder.example.components.GPSNavigator;
import refactoring_guru.builder.example.components.Transmission;
import refactoring_guru.builder.example.components.TripComputer;
/**
* Builder interface defines all possible ways to configure a product.
*/
public interface Builder {
void setCarType(CarType type);
void setSeats(int seats);
void setEngine(Engine engine);
void setTransmission(Transmission transmission);
void setTripComputer(TripComputer tripComputer);
void setGPSNavigator(GPSNavigator gpsNavigator);
}builders/CarBuilder.java:?汽车生成器
/**
* Concrete builders implement steps defined in the common interface.
*/
public class CarBuilder implements Builder {
private CarType type;
private int seats;
private Engine engine;
private Transmission transmission;
private TripComputer tripComputer;
private GPSNavigator gpsNavigator;
public void setCarType(CarType type) {
this.type = type;
}
@Override
public void setSeats(int seats) {
this.seats = seats;
}
@Override
public void setEngine(Engine engine) {
this.engine = engine;
}
@Override
public void setTransmission(Transmission transmission) {
this.transmission = transmission;
}
@Override
public void setTripComputer(TripComputer tripComputer) {
this.tripComputer = tripComputer;
}
@Override
public void setGPSNavigator(GPSNavigator gpsNavigator) {
this.gpsNavigator = gpsNavigator;
}
public Car getResult() {
return new Car(type, seats, engine, transmission, tripComputer, gpsNavigator);
}
}?builders/CarManualBuilder.java:?汽车手册生成器
/**
* Unlike other creational patterns, Builder can construct unrelated products,
* which don't have the common interface.
*
* In this case we build a user manual for a car, using the same steps as we
* built a car. This allows to produce manuals for specific car models,
* configured with different features.
*/
public class CarManualBuilder implements Builder{
private CarType type;
private int seats;
private Engine engine;
private Transmission transmission;
private TripComputer tripComputer;
private GPSNavigator gpsNavigator;
@Override
public void setCarType(CarType type) {
this.type = type;
}
@Override
public void setSeats(int seats) {
this.seats = seats;
}
@Override
public void setEngine(Engine engine) {
this.engine = engine;
}
@Override
public void setTransmission(Transmission transmission) {
this.transmission = transmission;
}
@Override
public void setTripComputer(TripComputer tripComputer) {
this.tripComputer = tripComputer;
}
@Override
public void setGPSNavigator(GPSNavigator gpsNavigator) {
this.gpsNavigator = gpsNavigator;
}
public Manual getResult() {
return new Manual(type, seats, engine, transmission, tripComputer, gpsNavigator);
}
}cars
?cars/Car.java:?汽车产品
/**
* Car is a product class.
*/
public class Car {
private final CarType carType;
private final int seats;
private final Engine engine;
private final Transmission transmission;
private final TripComputer tripComputer;
private final GPSNavigator gpsNavigator;
private double fuel = 0;
public Car(CarType carType, int seats, Engine engine, Transmission transmission,
TripComputer tripComputer, GPSNavigator gpsNavigator) {
this.carType = carType;
this.seats = seats;
this.engine = engine;
this.transmission = transmission;
this.tripComputer = tripComputer;
if (this.tripComputer != null) {
this.tripComputer.setCar(this);
}
this.gpsNavigator = gpsNavigator;
}
public CarType getCarType() {
return carType;
}
public double getFuel() {
return fuel;
}
public void setFuel(double fuel) {
this.fuel = fuel;
}
public int getSeats() {
return seats;
}
public Engine getEngine() {
return engine;
}
public Transmission getTransmission() {
return transmission;
}
public TripComputer getTripComputer() {
return tripComputer;
}
public GPSNavigator getGpsNavigator() {
return gpsNavigator;
}
}?cars/Manual.java:?手册产品
/**
* Car manual is another product. Note that it does not have the same ancestor
* as a Car. They are not related.
*/
public class Manual {
private final CarType carType;
private final int seats;
private final Engine engine;
private final Transmission transmission;
private final TripComputer tripComputer;
private final GPSNavigator gpsNavigator;
public Manual(CarType carType, int seats, Engine engine, Transmission transmission,
TripComputer tripComputer, GPSNavigator gpsNavigator) {
this.carType = carType;
this.seats = seats;
this.engine = engine;
this.transmission = transmission;
this.tripComputer = tripComputer;
this.gpsNavigator = gpsNavigator;
}
public String print() {
String info = "";
info += "Type of car: " + carType + "\n";
info += "Count of seats: " + seats + "\n";
info += "Engine: volume - " + engine.getVolume() + "; mileage - " + engine.getMileage() + "\n";
info += "Transmission: " + transmission + "\n";
if (this.tripComputer != null) {
info += "Trip Computer: Functional" + "\n";
} else {
info += "Trip Computer: N/A" + "\n";
}
if (this.gpsNavigator != null) {
info += "GPS Navigator: Functional" + "\n";
} else {
info += "GPS Navigator: N/A" + "\n";
}
return info;
}
}?cars/CarType.java
package refactoring_guru.builder.example.cars;
public enum CarType {
CITY_CAR, SPORTS_CAR, SUV
}components
?components/Engine.java:?产品特征 1
/**
* Just another feature of a car.
*/
public class Engine {
private final double volume;
private double mileage;
private boolean started;
public Engine(double volume, double mileage) {
this.volume = volume;
this.mileage = mileage;
}
public void on() {
started = true;
}
public void off() {
started = false;
}
public boolean isStarted() {
return started;
}
public void go(double mileage) {
if (started) {
this.mileage += mileage;
} else {
System.err.println("Cannot go(), you must start engine first!");
}
}
public double getVolume() {
return volume;
}
public double getMileage() {
return mileage;
}
}components/GPSNavigator.java:?产品特征 2
/**
* Just another feature of a car.
*/
public class GPSNavigator {
private String route;
public GPSNavigator() {
this.route = "221b, Baker Street, London to Scotland Yard, 8-10 Broadway, London";
}
public GPSNavigator(String manualRoute) {
this.route = manualRoute;
}
public String getRoute() {
return route;
}
}components/Transmission.java:?产品特征 3
/**
* Just another feature of a car.
*/
public enum Transmission {
SINGLE_SPEED, MANUAL, AUTOMATIC, SEMI_AUTOMATIC
}?components/TripComputer.java:?产品特征 4
/**
* Just another feature of a car.
*/
public class TripComputer {
private Car car;
public void setCar(Car car) {
this.car = car;
}
public void showFuelLevel() {
System.out.println("Fuel level: " + car.getFuel());
}
public void showStatus() {
if (this.car.getEngine().isStarted()) {
System.out.println("Car is started");
} else {
System.out.println("Car isn't started");
}
}
}director
?director/Director.java:?主管控制生成器
/**
* Director defines the order of building steps. It works with a builder object
* through common Builder interface. Therefore it may not know what product is
* being built.
*/
public class Director {
public void constructSportsCar(Builder builder) {
builder.setCarType(CarType.SPORTS_CAR);
builder.setSeats(2);
builder.setEngine(new Engine(3.0, 0));
builder.setTransmission(Transmission.SEMI_AUTOMATIC);
builder.setTripComputer(new TripComputer());
builder.setGPSNavigator(new GPSNavigator());
}
public void constructCityCar(Builder builder) {
builder.setCarType(CarType.CITY_CAR);
builder.setSeats(2);
builder.setEngine(new Engine(1.2, 0));
builder.setTransmission(Transmission.AUTOMATIC);
builder.setTripComputer(new TripComputer());
builder.setGPSNavigator(new GPSNavigator());
}
public void constructSUV(Builder builder) {
builder.setCarType(CarType.SUV);
builder.setSeats(4);
builder.setEngine(new Engine(2.5, 0));
builder.setTransmission(Transmission.MANUAL);
builder.setGPSNavigator(new GPSNavigator());
}
}Demo.java:?客户端代码
/**
* Demo class. Everything comes together here.
*/
public class Demo {
public static void main(String[] args) {
Director director = new Director();
// Director gets the concrete builder object from the client
// (application code). That's because application knows better which
// builder to use to get a specific product.
CarBuilder builder = new CarBuilder();
director.constructSportsCar(builder);
// The final product is often retrieved from a builder object, since
// Director is not aware and not dependent on concrete builders and
// products.
Car car = builder.getResult();
System.out.println("Car built:\n" + car.getCarType());
CarManualBuilder manualBuilder = new CarManualBuilder();
// Director may know several building recipes.
director.constructSportsCar(manualBuilder);
Manual carManual = manualBuilder.getResult();
System.out.println("\nCar manual built:\n" + carManual.print());
}
}?OutputDemo.txt:?执行结果
Car built:
SPORTS_CAR
Car manual built:
Type of car: SPORTS_CAR
Count of seats: 2
Engine: volume - 3.0; mileage - 0.0
Transmission: SEMI_AUTOMATIC
Trip Computer: Functional
GPS Navigator: Functional
文章来源:https://blog.csdn.net/xrq1995/article/details/134937865
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本文来自互联网用户投稿,该文观点仅代表作者本人,不代表本站立场。本站仅提供信息存储空间服务,不拥有所有权,不承担相关法律责任。 如若内容造成侵权/违法违规/事实不符,请联系我的编程经验分享网邮箱:veading@qq.com进行投诉反馈,一经查实,立即删除!