在使用fastJson时,对于泛型的反序列化很多场景下都会使用到TypeReference,例如:
void testTypeReference() { List<Integer> list = new ArrayList<>(); list.add(1); list.add(9); list.add(4); list.add(8); JSONObject jsonObj = new JSONObject(); jsonObj.put("a", list); System.out.println(jsonObj); List<String> list2 = jsonObj.getObject("a", new TypeReference<List<Integer>>(){}); System.out.println(list2); } //输出 1{"a":[1,9,4,8]} 2[1, 9, 4, 8]
{"msg":"","code":"0","data":[{"adjEq":"","details":[],"imr":"","isoEq":"","mgnRatio":"","mmr":"","notionalUsd":"","ordFroz":"","totalEq":"0","uTime":"1658332171773"}]} //拿code的值 String result1 = JSON.toJSONString(result); System.out.println("result1=="+result1); Result result2 = JSON.parseObject(result1, new TypeReference<Result>() {}); System.out.println(result2.getCode()); //拿data的值 Balance是data中数据的实体类 Result<List<Balance>> listResult = JSON.parseObject(result1, new TypeReference<Result<List<Balance>>>() {}); System.out.println("result2=="+listResult.getData());
使用TypeReference可以明确的指定反序列化的类型,具体实现逻辑参考TypeReference的构造函数
protected TypeReference(){ Type superClass = getClass().getGenericSuperclass(); Type type = ((ParameterizedType) superClass).getActualTypeArguments()[0]; Type cachedType = classTypeCache.get(type); if (cachedType == null) { classTypeCache.putIfAbsent(type, type); cachedType = classTypeCache.get(type); } this.type = cachedType; }
解说:
其中核心的方法是:getActualTypeArguments,它可以得到父类的反省类型
ParameterizedType是一个记录类型泛型的接口, 继承自Type,一共三方法:
Type[] getActualTypeArguments(); //返回泛型类型数组 Type getRawType(); //返回原始类型Type Type getOwnerType(); //返回 Type 对象,表示此类型是其成员之一的类型。
例如 Map
[class java.lang.String, class java.lang.String] interface java.util.Map null
例证:
package JsonLearn; import java.lang.reflect.ParameterizedType; import java.lang.reflect.Type; import java.util.HashMap; import java.util.Map; public class TypeReferencBaseLearn { public static class IntMap extends HashMap<String, Integer> {} void test1() { IntMap intMap = new IntMap(); System.out.println(“getSuperclass:” + intMap.getClass().getSuperclass()); System.out.println(“getGenericSuperclass:” + intMap.getClass().getGenericSuperclass()); Type type = intMap.getClass().getGenericSuperclass(); if (type instanceof ParameterizedType) { ParameterizedType p = (ParameterizedType)type; for (Type t : p.getActualTypeArguments()) { System.out.println(t); } } } void test2() { Map<String, Integer> intMap = new HashMap<>(); System.out.println(“\ngetSuperclass:” + intMap.getClass().getSuperclass()); System.out.println(“getGenericSuperclass:” + intMap.getClass().getGenericSuperclass()); Type type = intMap.getClass().getGenericSuperclass(); if (type instanceof ParameterizedType) { ParameterizedType p = (ParameterizedType)type; for (Type t : p.getActualTypeArguments()) { System.out.println(t); } } } void test3() { Map<String, Integer> intMap = new HashMap<String, Integer>(){}; System.out.println(“\ngetSuperclass:” + intMap.getClass().getSuperclass()); System.out.println(“getGenericSuperclass:” + intMap.getClass().getGenericSuperclass()); Type type = intMap.getClass().getGenericSuperclass(); if (type instanceof ParameterizedType) { ParameterizedType p = (ParameterizedType)type; for (Type t : p.getActualTypeArguments()) { System.out.println(t); } } } public static void main(String[] args) { TypeReferencBaseLearn obj = new TypeReferencBaseLearn(); obj.test1(); obj.test2(); obj.test3(); } }
输出:
getSuperclass:class java.util.HashMap
getGenericSuperclass:java.util.HashMap
class java.lang.String
class java.lang.IntegergetSuperclass:class java.util.AbstractMap
getGenericSuperclass:java.util.AbstractMap
K
VgetSuperclass:class java.util.HashMap
getGenericSuperclass:java.util.HashMap
class java.lang.String
class java.lang.Integer
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