java collection和Iterator
Posted 飞龙dragon
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Collection是描述所有 序列容器的共性的根接口,它可以被认为是一个"附属接口",即因为要表示其他若干个接口的共性而出现的接口,另外,java.uitl.AbstaractCollection类提供了Collection的默认实现,使得你可以创建AbstractCollection的子类型,而其中没有不必要的重复
使用接口描述的一个理由是它可以使我们能够创建更通用的代码,通过针对接口而非具体实现来编写代码,我们的代码可以应用于任何实现了Collection的类--这也就使得一个新类可以选择去实现Collection接口,以便我们可以使用它
package object; //: holding/InterfaceVsIterator.java import typeinfo.pets.*; import java.util.*; public class InterfaceVsIterator { public static void display(Iterator<Pet> it) { while(it.hasNext()) { Pet p = it.next(); System.out.print(p.id() + ":" + p + " "); } System.out.println(); } public static void display(Collection<Pet> pets) { for(Pet p : pets) System.out.print(p.id() + ":" + p + " "); System.out.println(); } public static void main(String[] args) { List<Pet> petList = Pets.arrayList(8); Set<Pet> petSet = new HashSet<Pet>(petList); Map<String,Pet> petMap = new LinkedHashMap<String,Pet>(); String[] names = ("Ralph, Eric, Robin, Lacey, " + "Britney, Sam, Spot, Fluffy").split(", "); for(int i = 0; i < names.length; i++) petMap.put(names[i], petList.get(i)); display(petList); display(petSet); display(petList.iterator()); display(petSet.iterator()); System.out.println(petMap); System.out.println(petMap.keySet()); display(petMap.values()); display(petMap.values().iterator()); } } /* Output: 0:Rat 1:Manx 2:Cymric 3:Mutt 4:Pug 5:Cymric 6:Pug 7:Manx 4:Pug 6:Pug 3:Mutt 1:Manx 5:Cymric 7:Manx 2:Cymric 0:Rat 0:Rat 1:Manx 2:Cymric 3:Mutt 4:Pug 5:Cymric 6:Pug 7:Manx 4:Pug 6:Pug 3:Mutt 1:Manx 5:Cymric 7:Manx 2:Cymric 0:Rat {Ralph=Rat, Eric=Manx, Robin=Cymric, Lacey=Mutt, Britney=Pug, Sam=Cymric, Spot=Pug, Fluffy=Manx} [Ralph, Eric, Robin, Lacey, Britney, Sam, Spot, Fluffy] 0:Rat 1:Manx 2:Cymric 3:Mutt 4:Pug 5:Cymric 6:Pug 7:Manx 0:Rat 1:Manx 2:Cymric 3:Mutt 4:Pug 5:Cymric 6:Pug 7:Manx *///:~
当你要实现一个不是Collection的外部类时,由于让它去实现Collection接口可能非常困难,因此使用Iterator就会变得非常吸引人,实现Collection就必须实现iterator(),并且只拿iterator()与继承AbstaractCollection相比花费的代价略微减小
package object; //: holding/CollectionSequence.java import typeinfo.pets.*; import java.util.*; public class CollectionSequence extends AbstractCollection<Pet> { private Pet[] pets = Pets.createArray(8); public int size() { return pets.length; } public Iterator<Pet> iterator() { return new Iterator<Pet>() { private int index = 0; public boolean hasNext() { return index < pets.length; } public Pet next() { return pets[index++]; } public void remove() { // Not implemented //remove()方法时一个可选操作,可以不实现 throw new UnsupportedOperationException(); } }; } public static void main(String[] args) { CollectionSequence c = new CollectionSequence(); InterfaceVsIterator.display(c);//ColectionSequence通过继承抽象Collection实现了功能 InterfaceVsIterator.display(c.iterator()); } } /* Output: 0:Rat 1:Manx 2:Cymric 3:Mutt 4:Pug 5:Cymric 6:Pug 7:Manx 0:Rat 1:Manx 2:Cymric 3:Mutt 4:Pug 5:Cymric 6:Pug 7:Manx *///:~
如果你的类已经继承类其他的类,那么你就不能再继承AbstractCollection了,再这种情况下,要实现Collection就必须实现该接口中的所有方法,此时,继承并提供创建迭代器的能力就会显得容易的多了,生成Iterator是将队列与消费队列的方法连接再一起耦合度最小的方式,并且与实现Collection相比,它在序列类上所施加的约束也少的多
package object; //: holding/NonCollectionSequence.java import typeinfo.pets.*; import java.util.*; class PetSequence { protected Pet[] pets = Pets.createArray(8); } public class NonCollectionSequence extends PetSequence { public Iterator<Pet> iterator() { return new Iterator<Pet>() { private int index = 0; public boolean hasNext() { return index < pets.length; } public Pet next() { return pets[index++]; } public void remove() { // Not implemented throw new UnsupportedOperationException(); } }; } public static void main(String[] args) { NonCollectionSequence nc = new NonCollectionSequence(); InterfaceVsIterator.display(nc.iterator()); //NonCollectionSequence通过实现Iterator匿名类实现了Iterator } } /* Output: 0:Rat 1:Manx 2:Cymric 3:Mutt 4:Pug 5:Cymric 6:Pug 7:Manx *///:~
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