标签:Stream stream Arrays List jkl 详解 strings asList
JDK8 Stream详解
概念
Stream是Java8 API的新成员,它允许以声明性方式处理数据集合 。
特点
(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。
流程
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
中间操作符
| 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<String> strings = Arrays.asList("abc", "", "bc", "efg", "abcd","", "jkl"); List<String> 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<String> strings = Arrays.asList("abc", "abc", "bc", "efg", "abcd","jkl", "jkl"); List<String> 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<String> strings = Arrays.asList("abc", "abc", "bc", "efg", "abcd","jkl", "jkl"); List<String> 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<String> strings = Arrays.asList("abc", "abc", "bc", "efg", "abcd","jkl", "jkl"); List<String> 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<String> strings = Arrays.asList("abc", "abc", "bc", "efg", "abcd","jkl", "jkl"); List<String> 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<String> strings = Arrays.asList("abc", "abc", "bc", "efg", "abcd","jkl", "jkl"); Stream<String> stringStream = strings.stream().map(x -> x); Stream<String> 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<String> strings1 = Arrays.asList("abc", "abd", "aba", "efg", "abcd","jkl", "jkl"); List<String> strings2 = Arrays.asList("张三", "李四", "王五", "赵柳", "张哥","李哥", "王哥"); List<Integer> strings3 = Arrays.asList(10, 2, 30, 22, 1,0, -9); List<String> sorted1 = strings1.stream().sorted().collect(Collectors.toList()); List<String> sorted2 = strings2.stream().sorted(Collections.reverseOrder(Collator.getInstance(Locale.CHINA))).collect(Collectors.toList()); List<Integer> 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<String> strings = Arrays.asList("abc", "abc", "bc", "efg", "abcd","jkl", "jkl");
final Stream<Character> flatMap = strings.stream().flatMap(Java8StreamTest::getCharacterByString);
flatMap.forEach(System.out::println);
//----------------------------------------------
final Stream<Stream<Character>> 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<java.lang.Character>
*/
public static Stream<Character> getCharacterByString(String str) {
List<Character> characterList = new ArrayList<>();
for (Character character : str.toCharArray()) {
characterList.add(character);
}
return characterList.stream();
}
终止操作符
| 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<String, String> map = strings.stream().collect(Collectors.toMap(v ->v.concat("_name"), v1 -> v1, (v1, v2) -> v1)); |
| reduce | 可以将流中元素反复结合起来,得到一个值。 | List strings = Arrays.asList(“cv”, “abd”, “aba”, “efg”, “abcd”,“jkl”, “jkl”);Optional reduce = strings.stream().reduce((acc,item) -> {return acc+item;});if(reduce.isPresent())out.println(reduce.get()); |
| count | 返回流中元素总数。 | List strings = Arrays.asList(“cv”, “abd”, “aba”, “efg”, “abcd”,“jkl”, “jkl”);long count = strings.stream().count(); |
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<String> 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<String> 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<String> 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<String> strings = Arrays.asList("cv", "abd", "aba", "efg", "abcd","jkl", "jkl"); Optional<String> 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<String> strings = Arrays.asList("cv", "abd", "aba", "efg", "abcd","jkl", "jkl"); Optional<String> 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<String> 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<String> strings = Arrays.asList("cv", "abd", "aba", "efg", "abcd","jkl", "jkl"); Set<String> set = strings.stream().collect(Collectors.toSet()); List<String> list = strings.stream().collect(Collectors.toList()); Map<String, String> 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<String> strings = Arrays.asList("cv", "abd", "aba", "efg", "abcd","jkl", "jkl"); //reduce方法一 Optional<String> 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<String> reduce3 = strings.stream().reduce( new ArrayList<String>(), new BiFunction<ArrayList<String>, String, ArrayList<String>>() { @Override public ArrayList<String> apply(ArrayList<String> acc, String item) { acc.add(item); return acc; } }, new BinaryOperator<ArrayList<String>>() { @Override public ArrayList<String> apply(ArrayList<String> acc, ArrayList<String> 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<String> 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
<!--apache集合操作工具包-->
<dependency>
<groupId>org.apache.commons</groupId>
<artifactId>commons-collections4</artifactId>
<version>4.4</version>
</dependency>
标签:Stream,stream,Arrays,List,jkl,详解,strings,asList 来源: https://blog.csdn.net/DarzenWong/article/details/122513057
本站声明: 1. iCode9 技术分享网(下文简称本站)提供的所有内容,仅供技术学习、探讨和分享; 2. 关于本站的所有留言、评论、转载及引用,纯属内容发起人的个人观点,与本站观点和立场无关; 3. 关于本站的所有言论和文字,纯属内容发起人的个人观点,与本站观点和立场无关; 4. 本站文章均是网友提供,不完全保证技术分享内容的完整性、准确性、时效性、风险性和版权归属;如您发现该文章侵犯了您的权益,可联系我们第一时间进行删除; 5. 本站为非盈利性的个人网站,所有内容不会用来进行牟利,也不会利用任何形式的广告来间接获益,纯粹是为了广大技术爱好者提供技术内容和技术思想的分享性交流网站。