Java中泛型数组创建总结

     在java中,可以声明一个泛型数组不能通过直接通过T[] tarr=new T[10]的方式来创建数组,最简单的方式便是通过Array.newInstance(Classtype,int size)的方式来创建数组例如下面的程序。

public class ArrayMaker<T> { 

private Class<T> type;

public ArrayMaker(Class<T> type) {
this.type = type;
}

@SuppressWarnings("unchecked")
T[] createArray(int size) {
return (T[]) Array.newInstance(type, size);
}

List<T> createList() {
return new ArrayList<T>();
}

/** * @param args */
public static void main(String[] args) {
/** Even though kind is stored as Class<T> , erasure means that it is actually just being stored as a Class, with
* no parameter. So, when you do some thing with it, as in creating an array, Array.newInstance( ) doesn’t
* actually have the type information that’s implied in kind; so it cannot produce the specific result, which
* must therefore be cast, which produces a warning that you cannot satisfy.
*/
ArrayMaker<Type> am2 = new ArrayMaker<Type>(Type.class);
System.out.println(Arrays.asList(am2.createArray(10)));
System.out.println(Arrays.asList(am2.createList()));
}
}
class Type {
@Override
public String toString() {
return "type";
}
}

   程序一:这个程序主要说明了,在使用泛型数组中容易出现的问题,由于书中对于程序的说明比较详细,所以只对程序做引用。

class Generic<T> {    

  }   

  public class ArrayofGeneric {    

    public static void main(String[] args) {    

       Generic<Integer>[] genArr;  

       genArr = (Generic<Integer>[]) new Generic[2];    

       System.out.println(genArr);    

   }    

}  

 

     程序二:这个程序主要是说明在程序的执行过程中,泛型数组的类型信息会被擦除,且在运行的过程中数组的类型有且仅有Object[],如果我们强制转换成T[]类型的话,虽然在编译的时候不会有异常产生,但是运行时会有ClassCastException抛出。

public class ArrayOfGeneric2<T> {  
      public T[] ts;            
      public ArrayOfGeneric2(int size) {     
        ts = (T[]) new Object[size];   
      }     

      public T get(int index) {     
         return ts[index];    
      }        
  
      public T[] rep() {     
           return ts;     
      }    
      
     public void set(int index, T t) { 
           ts[index] = t;      
     }   
        
    public static void main(String[] args) {          
ArrayOfGeneric2<String> aog2 = new ArrayOfGeneric2<String>(10); Object[] objs = aog2.rep(); System.out.println(objs); /* will throw ClassCastException */ // String[] strs = aog2.rep(); //System.out.println(strs); } }

    程序三:主要说明在对象中通过用Object[]来保存数据,则生成对象是,可以对其持有的对象在T和object之间进行转换,但是当设计到数组的转换时,还是会报ClassCastException

public class ArrayOfGeneric3<T> {     
   Object[] ts;      
  
    public ArrayOfGeneric3(int size) {      
      ts = new Object[size];       
    }     

      public T get(int index) {    
        return (T) ts[index];    
    }    
   
     public T[] rep() {      
        return (T[]) ts;    
    }      

      public void set(int index, T t) {      
         ts[index] = t;      
     }       
     public static void main(String[] args) {       
ArrayOfGeneric3<Integer> aog2 = new ArrayOfGeneric3<Integer>(10); Object[] objs = aog2.rep(); for (int i = 0; i < 10; i++) { aog2.set(i, i); System.out.println(aog2.get(i)); } Integer[] strs = aog2.rep(); System.out.println(strs); } }

程序四:是对泛型数组相对而言比较完美的解决方案

public class ArrayOfGeneric4<T> {     
       T[] ts;      
      public ArrayOfGeneric4(Class<T> type, int size) {      
      /* to solution array of generic key code! */      
      ts = (T[]) Array.newInstance(type, size);   
      }   
      
    public T get(int index) {       
        return ts[index];     
    }        

    public T[] rep() {      
      return ts;     
   }     

   public void set(int index, T t) {      
          ts[index] = t;  
      }    
 
    public static void main(String[] args) {      
ArrayOfGeneric4<Integer> aog2 = new ArrayOfGeneric4<Integer>(Integer.class, 10); Object[] objs = aog2.rep(); for (int i = 0; i < 10; i++) { aog2.set(i, i); System.out.println(aog2.get(i)); } try { Integer[] strs = aog2.rep(); System.out.println("user Array.newInstance to create generci of array was successful!!!!! "); } catch (Exception ex) { ex.printStackTrace(); } } }

原文请见http://developer.51cto.com/art/201202/317813.htm

posted @ 2015-05-26 19:57  TomSun*star  阅读(1694)  评论(0编辑  收藏  举报