标签:fastjson
pom.xml文件中加入依赖依赖: <dependency> <groupId>com.alibaba</groupId> <artifactId>fastjson</artifactId> <version>1.2.15</version> </dependency>
首先建立两个实体类,Student.Java 和 Teacher.java
Student.java 和Teacher.java 的代码如下:
public class Student {
private int id;
private String name;
private int age;
/**
* 默认的构造方法必须不能省,不然不能解析
*/
public Student(){
}
public Student(int id,String name,int age) {
this.id = id;
this.name = name;
this.age = age;
}
public int getId() {
return id;
}
public void setId(int id) {
this.id = id;
}
public String getName() {
return name;
}
public void setName(String name) {
this.name = name;
}
public int getAge() {
return age;
}
public void setAge(int age) {
this.age = age;
}
@Override
public String toString() {
return "Student [id=" + id + ", name=" + name + ", age=" + age + "]";
}
}import java.util.List;
public class Teacher {
private int id;
private String name;
private List<Student> students;
/**
* 默认的构造方法必须不能省,不然不能解析
*/
public Teacher() {
}
public Teacher(int id,String name) {
this.id = id;
this.name = name;
}
public int getId() {
return id;
}
public void setId(int id) {
this.id = id;
}
public String getName() {
return name;
}
public void setName(String name) {
this.name = name;
}
public List<Student> getStudents() {
return students;
}
public void setStudents(List<Student> students) {
this.students = students;
}
@Override
public String toString() {
return "Teacher [id=" + id + ", name=" + name + ", mStudents="
+ students + "]";
}
}
上面 的代码比较简单,主要就几个属性,这里值得注意的是, 默认的构造函数一定要写,不然是无法解析的。(对于fastjson 严格按照JavaBean的规范来,有一点不对就无法解析,这里一定要切记,每一个实体类的属性的get , set 方法必须写,切方法第四个字母必须大写,最好使用Eclipse的source->genreal setters and getters 生成get,set 方法,切记,切记 )。对于Gson 这里就没有这么多的要求了,但最好还是按照JavaBean来写,避免一些位置的错误。
首先看 fastjson 的解析
首先解析一个实体类为json 格式。
Student student = new Student(0, "Aaron", 24); System.out.println(JSON.toJSONString(student));
输出结果为:{"age":24,"id":0,"name":"Aaron"}输出的json格式与我们的Student中定义的属性其实是不一致的,这个其实不影响我们生成以及后面的解析,因为他有严格的get和set方法定义。
更复杂一点的数据类型也可以很方便的使用JSON.toJsonString(Object o) 这个方法进行解析成json格式。
List<Student> students = new ArrayList<Student>();
for(int i=0;i<5;i++) {
Student stu = new Student(i, "Student" + i, 18 +i);
students.add(stu);
}解析结果为:
[{"age":18,"id":0,"name":"Student0"},{"age":19,"id":1,"name":"Student1"},{"age":20,"id":2,"name":"Student2"},{"age":21,"id":3,"name":"Student3"},{"age":22,"id":4,"name":"Student4"}]我们来看看更复杂一点的结构。 我们将一个Teacher 列表来解析,一个Teacher对象中是包含Student 列表的这个也在我们常用的数据模型,下面看看代码:
List<Teacher> teaList = new ArrayList<Teacher>();
long time = System.currentTimeMillis();
for(int i=0;i<10;i++) {
Teacher teacher = new Teacher(i, "Teacher " + i);
List<Student> stus = new ArrayList<Student>();
for(int j = 0 ;j<4;j++) {
Student s = new Student(j, "Student" + j, 18 +j);
stus.add(s);
}
teacher.setStudents(stus);
teaList.add(teacher);
}
String jsonTeach = JSON.toJSONString(teaList);
System.out.println("fastjson = " + jsonTeach);结果为:
fastjson = [{"id":0,"name":"Teacher 0","students":[{"age":18,"id":0,"name":"Student0"},{"age":19,"id":1,"name":"Student1"}]},{"id":1,"name":"Teacher 1","students":[{"age":18,"id":0,"name":"Student0"},{"age":19,"id":1,"name":"Student1"}]},{"id":2,"name":"Teacher 2","students":[{"age":18,"id":0,"name":"Student0"},{"age":19,"id":1,"name":"Student1"}]},{"id":3,"name":"Teacher 3","students":[{"age":18,"id":0,"name":"Student0"},{"age":19,"id":1,"name":"Student1"}]}]还是一个简单的函数而已,就能办到。
这个还有toJSONString 重载的方法,有很多,在给一个就是可以按照标准的json 格式输出,上面的输出都不规范,我们来看看。
Student student = new Student(0, "Aaron", 24);
System.out.println(JSON.toJSONString(student,true));
输出为:
{
"age":24,
"id":0,
"name":"Aaron"
}如果我们想要将实体类中的某个字段或某几个不进行解析呢?那么我们可以使用transient 关键字,来标记它为不需要的,在fastjson中还提供了一种便捷的方法来自定义我们需要序列化的字段,
SimplePropertyPreFilter filter = new SimplePropertyPreFilter(实体类.class, "字段1","字段2"); 字段为我们需要序列化的字段,如果实体类中没有改字段则不解析放弃该字段而不会报错。
如下:
SimplePropertyPreFilter filter = new SimplePropertyPreFilter(Student.class, "id","age"); String jsonStu =JSON.toJSONString(students,filter);
下面进行fastjson 的反序列化,这个也是很常用的功能,
还是拿最简单的来进行示范,
Student student = new Student(0, "Aaron", 24); String str = JSON.toJSONString(student,true); System.out.println(JSON.parseObject(str,Student.class));
反序列化主要使用的是JSON.parseObject(str,class); 它就能把我们的str 转化为class 类型的对象,当然还有更复杂的对象,比如:
List<Student> students = new ArrayList<Student>();
for(int i=0;i<5;i++) {
Student stu = new Student(i, "Student" + i, 18 +i);
students.add(stu);
}
// 过滤哪些属性需要转换
// SimplePropertyPreFilter filter = new SimplePropertyPreFilter(Student.class, "id","age");
// String jsonStu =JSON.toJSONString(students,filter);
String jsonStu =JSON.toJSONString(students);
System.out.println(jsonStu);
List<Student> stu =JSON.parseObject(jsonStu, new TypeReference<List<Student>>(){});
for(int i=0;i<stu.size();i++)
{
System.out.println(stu.get(i));
}前面就是添加数据,然后在后面解析为json格式,然后在转化为类的对象,这里转为List<Student> 对象,主要用到new TypeReference<数据返回类型> (){},我们使用的就是new TypeReference<List<Student>>(){} 返回的结果就是List<Student> 也不需要强制转化,我们看看上面输出的结果为:
Student [id=0, name=Student0, age=18] Student [id=1, name=Student1, age=19] Student [id=2, name=Student2, age=20] Student [id=3, name=Student3, age=21] Student [id=4, name=Student4, age=22]
附带,fastjson对时间的操作:
Date date = new Date(); // 输出毫秒值 System.out.println(JSON.toJSONString(date)); // 默认格式为yyyy-MM-dd HH:mm:ss System.out.println(JSON.toJSONString(date, SerializerFeature.WriteDateUseDateFormat)); // 根据自定义格式输出日期 System.out.println(JSON.toJSONStringWithDateFormat(date, "yyyy-MM-dd", SerializerFeature.WriteDateUseDateFormat));
输出结果:
1476085821568 "2016-10-10 15:50:21" "2016-10-10"
标签:fastjson
原文地址:http://simplelife.blog.51cto.com/9954761/1860263
