Jakarta Commons Cookbook读书笔记系列
Jakarta Commons Cookbook读书笔记--Commons Collections(容器篇之一)
Jakarta Commons Cookbook读书笔记系列
3.5 Iterator的扩展
3.5.1 循环迭代器LoopingIterator
import org.apache.commons.collections.iterators.LoopingIterator;
List books=new ArrayList();
books.add("EnglishBook");
books.add("Commons Cookbook");
books.add("Who Moved My Cheese");
//当迭代到最后的元素后,再返回第一个元素重新循环,直至达到迭代次数为止
LoopingIterator iterator=new LoopingIterator(books);
for(int i=0;i<5;i++){
String book=(String)iterator.next();
System.out.print(book+";");
}
->EnglishBook;Commons Cookbook;Who Moved My Cheese;EnglishBook;Commons Cookbook;
3.5.2 ArrayList迭代器ArrayListIterator
可以自定义范围地遍历
import org.apache.commons.collections.iterators.ArrayListIterator;
String[] arrays=new String[]{"a","b","c","d","f"};
//遍历下标为1到4的元素
Iterator iterator=new ArrayListIterator(arrays,1,4);
while(iterator.hasNext()){
System.out.print(iterator.next()+"; ");
}
->b; c; d;
3.5.3 筛选迭代器FilterIterator
使用Predicate筛选,关于Predicate的介绍,请看我的这系列的上一篇文章Jakarta Commons Cookbook读书笔记--Commons Collections(函子篇)
import org.apache.commons.collections.iterators.FilterIterator;
import org.apache.commons.collections.Predicate;
List list=new ArrayList(Arrays.asList(new Integer[]{7,9,35,67,88}));
//过滤出大于30的元素
Predicate predicate=new Predicate(){
public boolean evaluate(Object object){
int num=((Integer)object).intValue();
return num>30;
}
};
Iterator iterator=new FilterIterator(list.iterator(),predicate);
while(iterator.hasNext()){
System.out.print(iterator.next()+"; ");
}
->35; 67; 88;
3.5.4 过滤重复的元素UniqueFilterIterator
List list=new ArrayList(Arrays.asList(new String[]{"a","b","c","b","a"}));
Iterator iterator=new UniqueFilterIterator(list.iterator());
while(iterator.hasNext()){
System.out.print(iterator.next()+"; ");
}
->a; b; c;
3.6 使用Bag
Bag是这样的一种容器,它能够存储多个逻辑相等(即equals()为true,而且hash()相等)的元素,并可以统计它们的个数。
3.6.1 高性能的HashBag
import org.apache.commons.collections.bag.HashBag;
Bag bag1=new HashBag();
bag1.add("book1",10);
bag1.add("book2",20);
Bag bag2=new HashBag();
bag2.add("book2",5);
bag2.add("book3",10);
bag1.add("book1");
bag1.remove("book1",2);
//减去bag2内相应元素的数量
bag1.removeAll(bag2);
System.out.println("book1: "+bag1.getCount("book1"));
System.out.println("book2: "+bag1.getCount("book2")+"\n");
//bag1保留bag2内的元素,简单来说就是求交集
bag1.retainAll(bag2);
System.out.println("book1: "+bag1.getCount("book1"));
System.out.println("book2: "+bag1.getCount("book2"));
System.out.println("book3: "+bag1.getCount("book3"));
->
book1: 9
book2: 15
book1: 0
book2: 5
book3: 0
3.6.2 TreeBag可以保存加入元素的顺序
import org.apache.commons.collections.bag.TreeBag;
Bag bag1=new TreeBag();
bag1.add("book1",2);
bag1.add("book2",1);
bag1.add("book3",2);
bag1.add("book4",1);
bag1.add("book5",1);
Iterator iterator=bag1.iterator();
while(iterator.hasNext()){
System.out.println(iterator.next());
}
->
book1
book1
book2
book3
book3
book4
book5
HashBag内部原理是使用一个HashMap当作内部容器,key为加入的对象,对应的value是对象的次数。同理TreeBag使用TreeMap作为内部容器。
需 要注意的是虽然Bag继承了Collection,但是它的removeAll(),containsAll(),add(),remove()和 retainAll()方法并不严格遵循Collection接口的规范。例如removeAll方法根据规范是移除所有的元素,而Bag的 removeAll是带参数的,只移除参数包含的元素。
3.7 用于临时数据转移的Buffer
Buffer类似于java5.0中的Queue,是个先进先出(First-in First-out)的数据容器。
3.7.1 无尺寸缓冲区UnboundFifoBuffer和有尺寸缓冲区BoundedFifoBuffer
import org.apache.commons.collections.buffer.BoundedFifoBuffer;
Buffer bBuffer=new BoundedFifoBuffer(2);
bBuffer.add("book1");
bBuffer.add("book2");
try{
bBuffer.add("book3");
}catch(BufferOverflowException e){
System.out.println("Buffer is over flow");
}
//移除第一个加入的元素
bBuffer.remove();
Iterator iterator=bBuffer.iterator();
while(iterator.hasNext()){
System.out.println(iterator.next());
}
->
Buffer is over flow
book2
import org.apache.commons.collections.buffer.UnboundedFifoBuffer;
Buffer bBuffer=new UnboundedFifoBuffer(2);
bBuffer.add("book1");
bBuffer.add("book2");
try{
bBuffer.add("book3");
}catch(BufferOverflowException e){
System.out.println("Buffer is over flow");
}
//移除第一个加入的元素
bBuffer.remove();
Iterator iterator=bBuffer.iterator();
while(iterator.hasNext()){
System.out.println(iterator.next());
}
->
book2
book3
3.7.2 带优先级的缓冲区PriorityBuffer
按照数值从小到大排列
import org.apache.commons.collections.buffer.PriorityBuffer;
Buffer pBuffer=new PriorityBuffer();
pBuffer.add(new Long(2));
pBuffer.add(new Long(20));
pBuffer.add(new Long(12));
pBuffer.add(new Long(4));
Iterator iterator=pBuffer.iterator();
while(iterator.hasNext()){
System.out.println(iterator.next());
}
->
2
4
12
20
PriorityBuffer允许使用Comparator来排列优先顺序,关于Comparator,请看我的这系列的上一篇文章Jakarta Commons Cookbook读书笔记--Commons Collections(函子篇)
import java.util.Comparator;
//按照销售数量从大到小排列
public class RecommandComparator implements Comparator {
public int compare(Object o1, Object o2) {
int result=-1;
if(o1 instanceof Book && o2 instanceof Book){
Book book1=(Book)o1;
Book book2=(Book)o2;
result=book1.getSalsNum().compareTo(book2.getSalsNum());
}
return result;
}
}
import org.apache.commons.collections.comparators.ReverseComparator;
import org.apache.commons.collections.buffer.PriorityBuffer;
Buffer pBuffer=new PriorityBuffer(new ReverseComparator(new RecommandComparator()));
pBuffer.add(new Book("book1",Long.valueOf(200)));
pBuffer.add(new Book("book2",Long.valueOf(7200)));
pBuffer.add(new Book("book3",Long.valueOf(163)));
pBuffer.add(new Book("book4",Long.valueOf(569)));
Iterator iterator=pBuffer.iterator();
while(iterator.hasNext()){
Book book=(Book)iterator.next();
System.out.println(book.getName()+":"+book.getSalsNum());
}
->
book2:7200
book4:569
book3:163
book1:200
3.7.3 使用阻塞式缓冲区BlockingBuffer
BlokingBuffer装饰一个Buffer实例,并使其处于阻塞状态,只要有对象加入则马上处理。当一个进程调用以BlockingBuffer的get()和remove()方法时,将不返回任何值,直到它有一个对象返回。
import org.apache.commons.collections.Buffer;
public class BufferListener implements Runnable{
private Buffer buffer;
public BufferListener(Buffer buffer){
this.buffer=buffer;
}
public void run() {
while(true){
String msg=(String)buffer.remove();
System.out.println(msg);
}
}
}
import org.apache.commons.collections.buffer.BlockingBuffer;
Buffer buffer=BlockingBuffer.decorate(new UnboundedFifoBuffer());
BufferListener listener=new BufferListener(buffer);
Thread listenerThread=new Thread(listener);
listenerThread.start();
buffer.add("book1");
buffer.add("book2");
->
book1
book2
3.8 Map的扩展
3.8.1 使用MultiMap实现一键存储多个值
MultiValueMap会使用一个ArrayList来保存同一个键的所有值
import org.apache.commons.collections.MultiMap;
import org.apache.commons.collections.map.MultiValueMap;
MultiMap map=new MultiValueMap();
map.put("key", "value1");
map.put("key", "value2");
map.put("key", "value2");
System.out.println((Collection)map.get("key"));
->[value1, value2, value2]
3.8.2 使用BidiMap实现根据值检索键
DualHashBidiMap使用两个HashMap来保存键值对,其中一个正常保存键值对,另一个反过来保存值对应的键。
import org.apache.commons.collections.BidiMap;
import org.apache.commons.collections.bidimap.DualHashBidiMap;
BidiMap map=new DualHashBidiMap();
map.put("key1", "value");
System.out.println(map.get("key1"));
System.out.println(map.inverseBidiMap().get("value"));
->
value
key1
DualTreeBidiMap是可以记住加入顺序的BidiMap,其内部使用TreeMap来保存键值对。
3.8.3 大小写不敏感的CaseInsensitiveMap
import org.apache.commons.collections.map.CaseInsensitiveMap;
CaseInsensitiveMap map=new CaseInsensitiveMap();
map.put("KEY", "value");.
map.put("key", "value2");
System.out.println(map.get("key"));
->value2
3.8.4 指定键和值类型(JDK1.4或以下版本)
如果你使用JDK1.4或以下的版本,你如果需要指定键或值的类型,可以使用TypeMap来装饰。
import org.apache.commons.collections.map.TypedMap;
Map map=TypedMap.decorate(new HashMap(), String.class, String.class);
map.put("key", "value");
//加入非指定的类型会抛出IllegalArgumentException,程序会停止运行
map.put("key2", new Integer(12));
3.8.6 根据键自动生成值的Map
import org.apache.commons.collections.map.LazyMap;
Transformer upperFirstLetter=new Transformer(){
public Object transform(Object object){
String name=(String)object;
String result=name;
if(name!=null&&!"".equals(name)){
result=name.substring(0,1).toUpperCase()
+name.substring(1);
}
return result;
}
};
Map map=LazyMap.decorate(new HashMap(), upperFirstLetter);
System.out.println(map.get("heis"));
->Heis