这里我把之前的集合相关笔记重新简单整理了一下。(时间:2020年6月15日)
排序:
排序:
List<Integer> numbers = Arrays.asList(1,5,4,88,66,44);
numbers.sort(Comparator.naturalOrder());
System.out.println(numbers);
之前我们这样写:
Collections.sort(list, new Comparator<User>() { @Override public int compare(User u1, User u2) { int d= u1.getAge() - u2.getAge(); if (d> 0) { return 1; } else if (d< 0) { return -1; } else { return 0;// 相等为0 } } }); // 按年龄排序
现在我们可以这样写:
List<Menu> result=
menuList.stream()
.sorted(comparing(Menu::getPrice))
.collect(Collectors.toList());
System.out.println(result);
map排序:
遍历:
之前我们的各种遍历集合:
/*Map<String,String> map = new HashMap<String,String>(); map.put("999", "哈密瓜"); map.put("4", "菠萝"); map.put("2", "草莓"); map.put("3", "香蕉"); map.put("111", "榴莲"); System.out.println(map);*/ Map<Integer,String> map = new HashMap<Integer,String>(); map.put(99, "哈密瓜"); map.put(4, "菠萝"); map.put(2, "草莓"); map.put(3, "香蕉"); map.put(11, "榴莲"); System.out.println(map); Map<Integer,String> map1 = new LinkedHashMap<Integer,String>(); map1.put(99, "哈密瓜"); map1.put(4, "菠萝"); map1.put(2, "草莓"); map1.put(3, "香蕉"); map1.put(11, "榴莲"); System.out.println(map1); Map<Integer,String> map2 = new TreeMap<Integer,String>(); map2.put(99, "哈密瓜"); map2.put(4, "菠萝"); map2.put(2, "草莓"); map2.put(3, "香蕉"); map2.put(11, "榴莲"); System.out.println(map2); //遍历 for (Map.Entry<Integer, String> entry : map.entrySet()) { System.out.println("key = " + entry.getKey() + ", value = " + entry.getValue()); } System.out.println("*-----------------------"); for (Integer key : map.keySet()) { System.out.println("key = " + key+ ", value = " +map.get(key)); } System.out.println("-----------------------"); Iterator<Map.Entry<Integer, String>> it = map.entrySet().iterator(); while (it.hasNext()) { Map.Entry<Integer, String> entry = it.next(); System.out.println("key = " + entry.getKey() + ", value = " + entry.getValue()); } System.out.println("*-----------------------"); map.forEach((key, value) -> { System.out.println(key + ":" + value); }); System.out.println("-----------------------"); List<Integer> list= new ArrayList<Integer>(); list.add(99); list.add(96); list.add(95); list.add(98); /*Collections.sort(list,new Comparator<Integer>(){ public int compare(Integer arg0, Integer arg1) { return arg0-arg1; } }); */ Collections.sort(list, (item1, item2) -> item1 - item2); for(Integer u : list){ System.out.println(u); } //冒泡 /*int k[] = {3,4,5,1,0,2}; for(int i=0;i<k.length-1;i++){ for(int j=i+1;j<k.length;j++){ if(k[i]>k[j]){ int temp = k[i]; k[i]=k[j]; k[j]=temp; } } } for(int i=0;i<k.length;i++){ System.out.println(k[i]); }*/ System.out.println("-------------------------"); //sort int k2[] = {3,4,5,1,0,2}; Arrays.sort(k2); for(int n=0;n<k2.length;n++){ System.out.println(k2[n]); } System.out.println("-------------------------"); //选择排序 xxxxx /*int min=0; int temp=0; int k3[] = {3,4,5,3,2,1,0,2}; for(int i=0;i<k3.length-1;i++){ min = i; for(int j=i+1;j<k3.length;j++){ if(k3[min]>k3[j]){ min=j; } if(min!=i){ temp = k3[i]; k3[i]=k3[min]; k3[min]=temp; } } }*/ int [] arr= {56,62,47,21,27,76,11,39,77,19,23}; int k=0; int temp=0; for(int i=0;i<arr.length-1;i++) { k=i; for(int j=i+1;j<arr.length;j++) { if(arr[k]>arr[j]) { k=j; } } if(k!=i) { //交换位置 temp=arr[i]; arr[i]=arr[k]; arr[k]=temp; } } System.out.println("排序后:"+Arrays.toString(arr)); //选择排序 System.out.println("-------------------------"); int k4[] = {3,4,5,3,2,1,0,2}; for(int i=1;i<k4.length;i++){ for(int j=i;j>0;j--) { if (k4[j]<k4[j-1]){ temp=k4[j-1]; k4[j-1]=k4[j]; k4[j]=temp; }else break; } } for(int i=0;i<k4.length;i++) { System.out.println(k4[i]); } //插入排序 System.out.println("-------------------------"); //倒序排序 Collections.reverse(list); System.out.println(list); //数组倒序排序 Integer[] a = { 9, 6, 7, 2, 3, 4, 0, 1, 8, 5 }; Comparator<Integer> cmp = new MyComparator(); Arrays.sort(a, cmp); System.out.println("排序后:"+Arrays.toString(a)); System.out.println("-------------------------"); Integer[] A={10,23,42,12,20,6}; Arrays.sort(A,Collections.reverseOrder()); for(int c : A){ System.out.println(c); } //map排序 Map<String, String> map6 = new TreeMap<String, String>(); map6.put("d", "ddddd"); map6.put("b", "bbbbb"); map6.put("a", "aaaaa"); map6.put("c", "ccccc"); //这里将map.entrySet()转换成list List<Map.Entry<String,String>> listm = new ArrayList<Map.Entry<String,String>>(map6.entrySet()); //然后通过比较器来实现排序 Collections.sort(listm,new Comparator<Map.Entry<String,String>>() { //升序排序 @Override public int compare(Entry<String, String> o1,Entry<String, String> o2) { return o1.getValue().compareTo(o2.getValue()); } }); for(Map.Entry<String,String> mapping:listm){ System.out.println(mapping.getKey()+":"+mapping.getValue()); }
现在遍历集合:
List:
result.forEach(System.out::println);
map:
result.forEach((key,value)->System.out.println("key="+key+";value="+value));
############################❤###############################
分组:
List<myDTO> strings = new ArrayList<myDTO>(); myDTO m=new myDTO(); m=new myDTO();m.setName("果粒橙");m.setValue(1);m.setId(1L);;strings.add(m); m=new myDTO();m.setName("果粒橙");m.setValue(2);m.setId(2L);strings.add(m); m=new myDTO();m.setName("拼多多");m.setValue(1);m.setId(1L);strings.add(m); m=new myDTO();m.setName("拼多多");m.setValue(1);m.setId(2L);strings.add(m); m=new myDTO();m.setName("果粒橙");m.setValue(4);m.setId(1L);strings.add(m); m=new myDTO();m.setName("拼多多");m.setValue(1);m.setId(2L);strings.add(m); m=new myDTO();m.setName("果粒橙");m.setValue(5);m.setId(1L);strings.add(m); m=new myDTO();m.setName("菠萝蜜");m.setId(1L);strings.add(m); /*Map<String, List<myDTO>> result = strings.stream() .collect(Collectors.groupingBy(myDTO::getNameId)); 组合key (需要在BEAN 里写get方法)*/ /*Map<String, Map<Long,List<myDTO>>> result = strings.stream() .collect(Collectors.groupingBy(myDTO::getName,Collectors.groupingBy(myDTO::getId))); 嵌套*/ /*Map<String, Long> result = strings.stream() .collect(Collectors.groupingBy(myDTO::getName,Collectors.counting())); */ /*Map<String, Long> result = strings.stream() .collect(Collectors.groupingBy(myDTO::getNameId,Collectors.counting())); */
list 去重
// 过滤去重 List<Integer> orgIds = new ArrayList<Integer>(); orgIds.add(1); orgIds.add(11); orgIds.add(12); orgIds.add(1); List<Integer> newOrgIds =orgIds .stream().distinct().collect(Collectors.toList()); System.out.println(newOrgIds); List<myDTO> orgIds2 = new ArrayList<myDTO>(); myDTO dto= new myDTO(); dto.setId(1L);dto.setName("果粒橙");orgIds2.add(dto); dto= new myDTO(); dto.setId(2L);dto.setName("拼多多");orgIds2.add(dto); dto= new myDTO(); dto.setId(1L);dto.setName("果粒橙2");orgIds2.add(dto); dto= new myDTO(); dto.setId(1L);dto.setName("果粒橙");orgIds2.add(dto); List<myDTO> newOrgIds2 =orgIds2 .stream().distinct().collect(Collectors.toList()); System.out.println(newOrgIds2);
[1, 11, 12]
[myDTO [name=果粒橙, id=1, value=0.0], myDTO [name=拼多多, id=2, value=0.0], myDTO [name=果粒橙2, id=1, value=0.0]]
数组转list:
List<String> ids= Arrays.asList(param.getIds().split(","));
数组转set:
创建&初始化:通过工厂 创建小型不可变得 set list map
Set:
Set<String> result=Set.of("a","b","c");
List:
List<String> result=List.of("a","b","c");
但是HoHo他是不可变得!:
Map:
Map<String,Integer> result=Map.of("a",1,"b",2,"c",3);
Map.ofEntries
Map<String,Integer> result=Map.ofEntries(Map.entry("a",1),Map.entry("b",2),Map.entry("c",3));
map返回默认值:getOrDefault
System.out.println(result.getOrDefault("d",0));
System.out.println(result.get("d"));
删除指定条件元素:
list:
result.removeIf(d ->d.getType().equals("水果"));
map:
替换指定条件元素:
map:
加条件:
result.replaceAll((key,value)->{ if(key.equals("a")) return value+10; else return value; } ); result.forEach((key,value)->System.out.println("key="+key+";value="+value));
合并:putAll();
merge:
- 待-
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