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文章目录
一、FastJson介绍
FastJson 是阿里巴巴的开源JSON解析库,它可以解析JSON格式的字符串,支持将JavaBean序列化为JSON字符串,也可以从JSON字符串反序列化到JavaBean。
Fastjson 的优点
- 速度快
- fastjson相对其他JSON库的特点是快
- 从2011年fastjson发布1.1.x版本之后,其性能从未被其他Java实现的JSON库超越
- 使用广泛
- fastjson在阿里巴巴大规模使用,在数万台服务器上部署,fastjson在业界被广泛接受
- 在2012年被开源中国评选为最受欢迎的国产开源软件之一
- 测试完备
- fastjson有非常多的testcase,在1.2.11版本中,testcase超过3321个
- 每次发布都会进行回归测试,保证质量稳定
- 使用简单
- fastjson的API十分简洁
- 功能完备
- 支持泛型,支持流处理超大文本,支持枚举,支持序列化和反序列化扩展
二、FastJson序列化API
序列化 : 是指将Java对象转成json格式字符串的过程。JavaBean对象、List集合对象、Map集合为应用最广泛的。
1、序列化Java对象
@Test public void objectToJson(){ Student student = new Student(); student.setId(1); student.setName("张三"); student.setAge(20); student.setAddress("北京市"); String jsonString = JSON.toJSONString(student); System.out.println(jsonString); } 结果: {"address":"北京市","age":20,"id":1,"name":"张三"} 2、序列化List集合
@Test public void listToJson(){ Student student = new Student(); student.setId(1); student.setName("张三"); student.setAge(20); student.setAddress("北京市"); Student student2 = new Student(); student2.setId(2); student2.setName("李四"); student2.setAge(22); student2.setAddress("天津市"); List<Student> list = new ArrayList<>(); list.add(student); list.add(student2); String jsonString = JSON.toJSONString(list); System.out.println(jsonString); } 结果: [{"address":"北京市","age":20,"id":1,"name":"张三"},{"address":"天津市","age":22,"id":2,"name":"李四"}] 3、序列化Map集合
@Test public void mapToJson(){ Student student = new Student(); student.setId(1); student.setName("张三"); student.setAge(20); student.setAddress("北京市"); Student student2 = new Student(); student2.setId(2); student2.setName("李四"); student2.setAge(22); student2.setAddress("天津市"); Map<String,Student> map = new HashMap<>(); map.put("s1",student); map.put("s2",student2); String jsonString = JSON.toJSONString(map); System.out.println(jsonString); } 结果: {"s1":{"address":"北京市","age":20,"id":1,"name":"张三"},"s2":{"address":"天津市","age":22,"id":2,"name":"李四"}} 三、FashJson反序列化API
1、反序列化Java对象
@Test public void jsonToObject(){ String jsonString = "{\"address\":\"北京市\",\"age\":20,\"id\":1,\"name\":\"张三\"}"; Student student = JSON.parseObject(jsonString, Student.class); System.out.println(student); } 结果: Student(id=1, name=张三, age=20, address=北京市) 2、反序列化List集合
@Test public void jsonToList(){ String jsonString = "[{\"address\":\"北京市\",\"age\":20,\"id\":1,\"name\":\"张三\"},{\"address\":\"天津市\",\"age\":22,\"id\":2,\"name\":\"李四\"}]"; List<Student> list = JSON.parseArray(jsonString,Student.class); for (int i = 0; i < list.size(); i++) { Student student = list.get(i); System.out.println(student); } } 结果: Student(id=1, name=张三, age=20, address=北京市) Student(id=2, name=李四, age=22, address=天津市) 3、反序列化Map集合(带泛型)
- new TypeReference<T>(){}
- TypeReference构造方法是protected,不可直接访问(不是子类,也不再同一个包下)
- new 对象(){} 是
匿名内部类,TypeReference的子类,new的是子类而非TypeReference
@Test public void jsonToMap(){ String jsonString = "{\"s1\":{\"address\":\"北京市\",\"age\":20,\"id\":1,\"name\":\"张三\"},\"s2\":{\"address\":\"天津市\",\"age\":22,\"id\":2,\"name\":\"李四\"}}"; Map<String,Student> parse = JSON.parseObject(jsonString,new TypeReference<Map<String,Student>>(){}); for(String s : parse.keySet()){ System.out.println(s + ":::"+parse.get(s)); } } 结果: s1:::Student(id=1, name=张三, age=20, address=北京市) s2:::Student(id=2, name=李四, age=22, address=天津市) 四、SerializerFeature枚举
1、默认字段为null的不显示
@Test public void testDefault(){ Student student = new Student(); student.setId(1); student.setName(null); student.setAge(20); //student.setAddress("北京市"); student.setDate(new Date()); String jsonString = JSON.toJSONString(student); System.out.println(jsonString); } 结果: {"age":20,"date":1684245428959,"id":1} - 枚举常量
WriteMapNullValue序列化为null的字段
@Test public void testSerializerFeature(){ Student student = new Student(); student.setId(1); student.setName(null); student.setAge(20); //student.setAddress("北京市"); String jsonString = JSON.toJSONString(student, SerializerFeature.WriteMapNullValue); System.out.println(jsonString); } 结果: {"address":null,"age":20,"id":1,"name":null} - 枚举常量WriteNullStringAsEmpty字段为null,序列化为""
@Test public void testSerializerFeature(){ Student student = new Student(); student.setId(1); student.setName(null); student.setAge(20); //student.setAddress("北京市"); String jsonString = JSON.toJSONString(student, SerializerFeature.WriteMapNullValue); System.out.println(jsonString); } 结果: {"address":"","age":20,"id":1,"name":""} - 枚举常量WriteNullNumberAsZero字段为null,序列化为0
- 枚举常量WriteNullBooleanAsFalse字段值为null,输出false
2、格式化
- 枚举常量
PrettyFormat格式化输出(为了好看) - 枚举常量
WriteDateUseDateFormat格式化日期格式
@Test public void testSerializerFeature() { Student student = new Student(); student.setId(1); student.setName("张三"); student.setAge(20); student.setDate(new Date()); String jsonString = JSON.toJSONString(student, SerializerFeature.WriteDateUseDateFormat, SerializerFeature.PrettyFormat); System.out.println(jsonString); } 结果: { "age":20, "date":"2023-05-16 21:54:20", "id":1, "name":"张三" } 五、@JSonField注解
该注解作用于方法上、字段上和参数上。可在序列化和反序列化时进行特性功能定制。
- 注解属性 : name序列化后的名字
- 注解属性 : ordinal序列化后的顺序
- 注解属性 : format序列化后的格式
- 注解属性 : serialize是否序列化该字段
- 注解属性 : deserialize是否反序列化该字段
- 注解属性 : serialzeFeatures 序列化时的特性定义
@Data public class Student { @JSONField(ordinal = 2) private Integer id; @JSONField(name = "studentName") private String name; @JSONField(ordinal = 1) private Integer age; @JSONField(serialize = false) private String address; @JSONField(format = "YYYY-MM-dd") private Date date; } @Test public void test1() { Student student = new Student(); student.setId(1); student.setName("张三"); student.setAge(20); student.setAddress("北京市"); student.setDate(new Date()); String jsonString = JSON.toJSONString(student); System.out.println(jsonString); } 结果: {"date":"2023-05-16","studentName":"张三","age":20,"id":1} 六、@ JSonType注解
该注解作用于类上,对该类的字段进行序列化和反序列化时的特性功能定制。
- 注解属性 : includes要被序列化的字段
- 注解属性 : orders序列化后的顺序
- 注解属性 : serialzeFeatures序列化时的特性定义
