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设计模式-原型模式

2019-11-11 05:55:51
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1.原型模式的定义及使用场景

定义:用原型实例指定创建对象的种类,并通过拷贝这些原型创建新的对象使用场景:1)类初始化需要消耗非常多的资源,这个资源包括数据、硬件资源等,通过原型拷贝避免这些消耗2)通过new产生一个对象需要非常繁琐的数据准备或访问权限,这时可以使用原型模式

3)一个对象需要提供给其他对象访问,而且各个调用者可能都需要修改其值时,可以考虑使用原型模式拷贝多个对象供调用者使用,即保护性拷贝

2.原型模式的优缺点

2.1优点

性能优良原型模式是在内存二进制流的拷贝,要比直接new一个对象性能好,特别是要在一个循环体内产生大量的对象时,原型模式可以更好地体现其优点

2.2缺点

逃避构造函数的约束这既是他的优点也是缺点,直接在内存中拷贝,构造函数不会执行。需要在实际应用时考虑

3.注意实现

1)构造函数默认不执行2)浅拷贝及深拷贝Object类提供的方法clone只是拷贝本对象,其对象内部的数组、引用对象等都不拷贝,还是指向原型对象的内部元素地址,这种拷贝为浅拷贝。如需要深拷贝,对应的成员也需指向clone方法3)要使用clone方法,类的成员变量上不要增加final关键字

4.原型模式的实现方式

PRotoType:public class ProtoType implements Cloneable {    public ProtoType() {        System.out.println("ProtoType is excute...");    }    private int id;    private String name;    public int getId() {        return id;    }    public void setId(int id) {        this.id = id;    }    public String getName() {        return name;    }    public void setName(String name) {        this.name = name;    }    @Override    protected ProtoType clone() {        ProtoType protoType = null;        try {            protoType = (ProtoType) super.clone();        } catch (CloneNotSupportedException e) {            e.printStackTrace();        }        return protoType;    }    @Override    public String toString() {        return "ProtoType{" +                "id=" + id +                ", name='" + name + '/'' +                '}';    }}Text:public class Test {    public static void main(String args[]) {        ProtoType type = new ProtoType();        type.setId(1);        type.setName("张三");        System.out.println(type);        ProtoType clone = type.clone();        clone.setId(2);        clone.setName("李四");        System.out.println(clone);    }}
Objec的clone源码:  /**  * Creates and returns a copy of this {@code Object}. The default  * implementation returns a so-called "shallow" copy: It creates a new  * instance of the same class and then copies the field values (including  * object references) from this instance to the new instance. A "deep" copy,  * in contrast, would also recursively clone nested objects. A subclass that  * needs to implement this kind of cloning should call {@code super.clone()}  * to create the new instance and then create deep copies of the nested,  * mutable objects.  *  * @return a copy of this object.  * @throws CloneNotSupportedException  * if this object's class does not implement the {@code  * Cloneable} interface.  */  protected Object clone() throws CloneNotSupportedException {  if (!(this instanceof Cloneable)) {  throw new CloneNotSupportedException("Class " + getClass().getName() +  " doesn't implement Cloneable");  }  return internalClone();  }  /*  * Native helper method for cloning.  */  private native Object internalClone();可见执行了一个native方法执行二进制流的拷贝

5.原型模式在Android中的实际应用

Intent:  @Override  public Object clone() {  return new Intent(this);  } /**  * Copy constructor.  */  public Intent(Intent o) {  this.mAction = o.mAction;  this.mData = o.mData;  this.mType = o.mType;  this.mPackage = o.mPackage;  this.mComponent = o.mComponent;  this.mFlags = o.mFlags;  this.mContentUserHint = o.mContentUserHint;  if (o.mCategories != null) {  this.mCategories = new ArraySet<String>(o.mCategories);  }  if (o.mExtras != null) {  this.mExtras = new Bundle(o.mExtras);  }  if (o.mSourceBounds != null) {  this.mSourceBounds = new Rect(o.mSourceBounds);  }  if (o.mSelector != null) {  this.mSelector = new Intent(o.mSelector);  }  if (o.mClipData != null) {  this.mClipData = new ClipData(o.mClipData);  }  }
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