JDK8 Stream

Stream是Java8 API的新成员，它允许以声明性方式处理数据集合 。

（1） 代码简洁：函数式编程写出的代码简洁且意图明确，使用 _stream_接口让你从此告别 _for_循环。
（2） 多核友好：Java函数式编程使得编写并行程序从未如此简单，你需要的全部就是调用一下方法。

1）第一步：把集合转换为流stream
2）第二步：操作stream流
stream流在管道中经过中间操作（intermediate operation）的处理，最后由最终操作(terminal operation)得到前面处理的结果

操作符

两种：中间操作符、终止操作符

流方法 含义 示例 filter 用于通过设置的条件过滤出元素 List strings = Arrays.asList(“abc”, “”, “bc”, “efg”, “abcd”,””, “jkl”);List filtered = strings.stream().filter(string -> !string.isEmpty()).collect(Collectors.toList()); distinct 返回一个元素各异（根据流所生成元素的hashCode和equals方法实现）的流。 List numbers = Arrays.asList(1, 2, 1, 3, 3, 2, 4);numbers.stream().filter(i -> i % 2 == 0).distinct().forEach(System.out::println); limit 会返回一个不超过给定长度的流。 List strings = Arrays.asList(“abc”, “abc”, “bc”, “efg”, “abcd”,”jkl”, “jkl”);List limited = strings.stream().limit(3).collect(Collectors.toList()); skip 返回一个扔掉了前n个元素的流。 List strings = Arrays.asList(“abc”, “abc”, “bc”, “efg”, “abcd”,”jkl”, “jkl”);List skiped = strings.stream().skip(3).collect(Collectors.toList()); map 接受一个函数作为参数。这个函数会被应用到每个元素上，并将其映射成一个新的元素（使用映射一词，是因为它和转换类似，但其中的细微差别在于它是”创建一个新版本”而不是去”修改”）。 List strings = Arrays.asList(“abc”, “abc”, “bc”, “efg”, “abcd”,”jkl”, “jkl”);List mapped = strings.stream().map(str->str+”-itcast”).collect(Collectors.toList()); flatMap 使用flatMap方法的效果是，各个数组并不是分别映射成一个流，而是映射成流的内容。所有使用map(Arrays::stream)时生成的单个流都被合并起来，即扁平化为一个流。 List strings = Arrays.asList(“abc”, “abc”, “bc”, “efg”, “abcd”,”jkl”, “jkl”);Stream flatMap = strings.stream().flatMap(Java8StreamTest::getCharacterByString); sorted 返回排序后的流 List strings1 = Arrays.asList(“abc”, “abd”, “aba”, “efg”, “abcd”,”jkl”, “jkl”);List sorted1 = strings1.stream().sorted().collect(Collectors.toList());

示例代码：
1）filter

/**
 * 功能描述:根据条件过滤集合数据
 * @return : void
 */
@Test
public void filter(){
    List strings = Arrays.asList("abc", "", "bc", "efg", "abcd","", "jkl");
    List filtered = strings.stream().filter(string -> !string.isEmpty()).collect(Collectors.toList());
    out.println(filtered);
}

2）distinct

/**
 * 功能描述:去除集合中重复数据
 * @return : void
 */
@Test
public void distinct(){
    List strings = Arrays.asList("abc", "abc", "bc", "efg", "abcd","jkl", "jkl");
    List distincted = strings.stream().distinct().collect(Collectors.toList());
    out.println(distincted);
}

3）limit

/**
 * 功能描述:指定获取集合前x条数据，重新构造一个新的集合
 * @return : void
 */
@Test
public void limit(){
    List strings = Arrays.asList("abc", "abc", "bc", "efg", "abcd","jkl", "jkl");
    List limited = strings.stream().limit(3).collect(Collectors.toList());
    out.println(limited);
}

4）skip

/**
 * 功能描述:排除集合前x条数据，把后面的数据重新构造一个新的集合
 * @return : void
 */
@Test
    public void skip(){
    List strings = Arrays.asList("abc", "abc", "bc", "efg", "abcd","jkl", "jkl");
    List skiped = strings.stream().skip(3).collect(Collectors.toList());
    out.println(skiped);
}

5）map

/**
 * 功能描述:对集合中所有元素统一处理
 * @return : void
 */
@Test
public void map(){
    List strings = Arrays.asList("abc", "abc", "bc", "efg", "abcd","jkl", "jkl");
    List mapped = strings.stream().map(str->str+"-itcast").collect(Collectors.toList());
    out.println(mapped);
}

6）flatMap

/**
 * 功能描述:对集合中所有元素统一处理
 * @return : void
 */
@Test
public void flatMap(){
    List strings = Arrays.asList("abc", "abc", "bc", "efg", "abcd","jkl", "jkl");
    Stream stringStream = strings.stream().map(x -> x);
    Stream stringStream1 = strings.stream().flatMap(x -> Arrays.asList(x.split(" ")).stream());
}

7）sorted

/**
 * 功能描述 : 对集合进行排序
 * @return : void
 */
@Test
public void sorted(){
    List strings1 = Arrays.asList("abc", "abd", "aba", "efg", "abcd","jkl", "jkl");
    List strings2 = Arrays.asList("张三", "李四", "王五", "赵柳", "张哥","李哥", "王哥");
    List strings3 = Arrays.asList(10, 2, 30, 22, 1,0, -9);
    List sorted1 = strings1.stream().sorted().collect(Collectors.toList());
    List sorted2 = strings2.stream().sorted(Collections.reverseOrder(Collator.getInstance(Locale.CHINA))).collect(Collectors.toList());
    List sorted3 = strings3.stream().sorted().collect(Collectors.toList());
    out.println(sorted1);
    out.println(sorted2);
    out.println(sorted3);
}

Map、flatMap区别

map：对流中每一个元素进行处理
flatMap：流扁平化，让你把一个流中的“每个值”都换成另一个流，然后把所有的流连接起来成为一个流
总结：map是对一级元素进行操作，flatmap是对二级元素操作。

本质区别：map返回一个值；flatmap返回一个流，多个值。

应用场景：map对集合中每个元素加工,返回加工后结果；flatmap对集合中每个元素加工后，做扁平化处理后（拆分层级，放到同一层）然后返回

/**
 * 方法一
 * 功能描述:  通过使用map、flatMap把字符串转换为字符输出对比区别
 * @return : void
 */
@Test
public void flatMap2Map(){
    List strings = Arrays.asList("abc", "abc", "bc", "efg", "abcd","jkl", "jkl");
    final Stream flatMap = strings.stream().flatMap(Java8StreamTest::getCharacterByString);
    flatMap.forEach(System.out::println);
    //----------------------------------------------
    final Stream> mapStream = strings.stream().map(Java8StreamTest::getCharacterByString);
    //mapStream.forEach(System.out::println);
    out.println("------------------------------------------------");
    mapStream.forEach(stream-> {stream.forEach(character->{System.out.println(character);});});

}

公共方法（字符串转换为字符流）

/**
* 功能描述:字符串转换为字符流
* @param str
* @return : java.util.stream.Stream
*/
public static Stream getCharacterByString(String str) {
    List characterList = new ArrayList<>();
    for (Character character : str.toCharArray()) {
        characterList.add(character);
    }
    return characterList.stream();
}

流方法 含义 示例 anyMatch 检查是否至少匹配一个元素，返回boolean。 List strings = Arrays.asList(“abc”, “abd”, “aba”, “efg”, “abcd”,”jkl”, “jkl”);boolean b = strings.stream().anyMatch(s -> s == “abc”); allMatch 检查是否匹配所有元素，返回boolean。 List strings = Arrays.asList(“abc”, “abd”, “aba”, “efg”, “abcd”,”jkl”, “jkl”);boolean b = strings.stream().allMatch(s -> s == “abc”); noneMatch 检查是否没有匹配所有元素，返回boolean。 List strings = Arrays.asList(“abc”, “abd”, “aba”, “efg”, “abcd”,”jkl”, “jkl”);boolean b = strings.stream().noneMatch(s -> s == “abc”); findAny 将返回当前流中的任意元素。 List strings = Arrays.asList(“cv”, “abd”, “aba”, “efg”, “abcd”,”jkl”, “jkl”);Optional any = strings.stream().findAny(); findFirst 返回第一个元素 List strings = Arrays.asList(“cv”, “abd”, “aba”, “efg”, “abcd”,”jkl”, “jkl”);Optional first = strings.stream().findFirst(); forEach 遍历流 List strings = Arrays.asList(“cv”, “abd”, “aba”, “efg”, “abcd”,”jkl”, “jkl”);strings.stream().forEach(s -> out.println(s)); collect 收集器，将流转换为其他形式。 List strings = Arrays.asList(“cv”, “abd”, “aba”, “efg”, “abcd”,”jkl”, “jkl”);Set set = strings.stream().collect(Collectors.toSet());List list = strings.stream().collect(Collectors.toList());Map

示例代码
1）anyMatch

/**
 * 功能描述 : 判断集合中是否至少存在一个元素满足条件
 * @return : void
 */
@Test
public void anyMatch(){
    List strings = Arrays.asList("abc", "abd", "aba", "efg", "abcd","jkl", "jkl");
    boolean b = strings.stream().anyMatch(s -> s == "abc");
    out.println(b);
}

2）allMatch

/**
 * 功能描述 : 判断集合中是否所有元素都满足条件
 * @return : void
 */
@Test
public void allMatch(){
    List strings = Arrays.asList("abc", "abd", "aba", "efg", "abcd","jkl", "jkl");
    boolean b = strings.stream().allMatch(s -> s == "abc");
    out.println(b);
}

3）noneMatch

/**
 * 功能描述 : 判断集合中是否所有元素都不满足条件
 * @return : void
 */
@Test
public void noneMatch(){
    List strings = Arrays.asList("abc", "abd", "aba", "efg", "abcd","jkl", "jkl");
    boolean b = strings.stream().noneMatch(s -> s == "abc");
    out.println(b);
}

4）findAny

/**
 * 功能描述 : 返回当前流中任意元素
 * @return : void
 */
@Test
public void findAny(){
    List strings = Arrays.asList("cv", "abd", "aba", "efg", "abcd","jkl", "jkl");
    Optional any = strings.stream().findAny();
    if(any.isPresent()) out.println(any.get());
}

5）findFirst

/**
 * 功能描述 : 返回当前流中第一个元素
 * @return : void
 */
@Test
public void findFirst(){
    List strings = Arrays.asList("cv", "abd", "aba", "efg", "abcd","jkl", "jkl");
    Optional first = strings.stream().findFirst();
    if(first.isPresent()) out.println(first.get());
}

6）forEach java

/**
 * 功能描述 : 遍历流
 * @return : void
 */
@Test
public void foreach(){
    List strings = Arrays.asList("cv", "abd", "aba", "efg", "abcd","jkl", "jkl");
    strings.stream().forEach(s -> out.println(s));
}

7）collect

/**
 * 功能描述 : 流转换为其他形式
 * @return : void
 */
@Test
public void collect(){
    List strings = Arrays.asList("cv", "abd", "aba", "efg", "abcd","jkl", "jkl");
    Set set = strings.stream().collect(Collectors.toSet());
    List list = strings.stream().collect(Collectors.toList());
    Map map = strings.stream().collect(Collectors.toMap(v ->v.concat("_name"), v1 -> v1, (v1, v2) -> v1));
    out.println(set);
    out.println(list);
    out.println(map);
}

8）reduce

/**
 * 功能描述 : 将流中元素反复结合起来，得到一个值
 * @return : void
 */
@Test
public void reduce(){
    List strings = Arrays.asList("cv", "abd", "aba", "efg", "abcd","jkl", "jkl");
    //reduce方法一
    Optional reduce1 = strings.stream().reduce((acc,item) -> {return acc+item;});
    //reduce方法二
    String reduce2 = strings.stream().reduce("itcast", (acc, item) -> {
        return acc + item;
    });
    //reduce方法三
    ArrayList reduce3 = strings.stream().reduce(
        new ArrayList(),
        new BiFunction, String, ArrayList>() {
            @Override
            public ArrayList apply(ArrayList acc, String item) {
                acc.add(item);
                return acc;
            }
        },
        new BinaryOperator>() {
            @Override
            public ArrayList apply(ArrayList acc, ArrayList item) {
            return acc;
            }
        }
    );
    if(reduce1.isPresent())out.println(reduce1.get());
    out.println(reduce2);
    out.println(reduce3);
}

9）count

/**
* 功能描述 : 返回流中元素总数
* @return : void
*/
@Test
public void count(){
    List strings = Arrays.asList("cv", "abd", "aba", "efg", "abcd","jkl", "jkl");
    long count = strings.stream().count();
    out.println(count);
}

注意：文章中因排序部分用到外部比较器，需要导入外部jar包

    org.apache.commons
    commons-collections4
    4.4

Original: https://www.cnblogs.com/likeyou99315/p/16266762.html
Author: 这行代码没Bug
Title: JDK8 Stream