使用Jackson实现JSON混合类型数组到基类列表的反序列化

引言

在现代web服务交互中，经常会遇到json数据结构中包含多种不同类型对象的情况，例如一个数组中既有基类对象，也有其子类对象。当尝试将这样的json数组反序列化为java中的基类列表时，jackson默认的行为可能无法正确处理子类特有的字段，从而抛出unrecognizedpropertyexception。本文将深入探讨如何利用jackson的强大功能，优雅地解决这一多态反序列化挑战。

问题分析与挑战

假设我们有一个Car基类和一个Truck子类（继承自Car），Truck类额外包含maxLoad和clearance等字段。当JSON数组中同时包含Car和Truck类型的数据，并且我们尝试将其反序列化为List时，Jackson在处理Truck对象时会遇到maxLoad等字段，但Car类中并未定义这些字段。默认情况下，Jackson会认为这些是无法识别的属性，并抛出com.fasterxml.jackson.databind.exc.UnrecognizedPropertyException。虽然将列表类型改为List可以避免异常，但这会导致非Truck类型的对象无法被正确反序列化，且无法满足将所有对象统一存储在基类列表中的需求。

解决方案：Jackson多态反序列化注解

Jackson提供了强大的注解机制来处理多态性。为了实现将混合类型的JSON数组反序列化为基类列表，我们需要在基类上使用@JsonTypeInfo和@JsonSubTypes注解。

1. @JsonTypeInfo: 此注解用于指定多态类型信息的处理方式。

   • use = JsonTypeInfo.Id.DEDUCTION: 这是解决本问题的关键。DEDUCTION策略指示Jackson尝试根据JSON对象的字段来推断其具体类型。它会检查所有已注册的子类型，看哪个子类型能够完全匹配JSON中的字段。
   • defaultImpl = Car.class: 当Jackson无法根据字段推断出匹配的子类型时（即JSON对象不包含任何子类特有的字段），它将回退到使用此指定的默认实现类进行反序列化。在本例中，如果一个JSON对象只包含Car的字段，它将被反序列化为Car实例。

2. @JsonSubTypes: 此注解用于列出基类的所有已知子类型。

   

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   • @JsonSubTypes.Type(value = Truck.class): 声明Truck.class是Car的一个子类型。Jackson会利用这些信息在DEDUCTION策略下进行类型推断。

示例代码

首先，定义Java类结构并添加Jackson注解：

import com.fasterxml.jackson.annotation.JsonSubTypes;
import com.fasterxml.jackson.annotation.JsonTypeInfo;

@JsonTypeInfo(use = JsonTypeInfo.Id.DEDUCTION, defaultImpl = Car.class)
@JsonSubTypes(@JsonSubTypes.Type(value = Truck.class))
public class Car {
    private String make;
    private String model;
    private short  year;
    private String bodyStyle;
    private String engineType;
    private int    horsepower;

    // 构造函数
    public Car() {}

    public Car(String make, String model, short year, String bodyStyle, String engineType, int horsepower) {
        this.make = make;
        this.model = model;
        this.year = year;
        this.bodyStyle = bodyStyle;
        this.engineType = engineType;
        this.horsepower = horsepower;
    }

    // Getters and Setters
    public String getMake() { return make; }
    public void setMake(String make) { this.make = make; }
    public String getModel() { return model; }
    public void setModel(String model) { this.model = model; }
    public short getYear() { return year; }
    public void setYear(short year) { this.year = year; }
    public String getBodyStyle() { return bodyStyle; }
    public void setBodyStyle(String bodyStyle) { this.bodyStyle = bodyStyle; }
    public String getEngineType() { return engineType; }
    public void setEngineType(String engineType) { this.engineType = engineType; }
    public int getHorsepower() { return horsepower; }
    public void setHorsepower(int horsepower) { this.horsepower = horsepower; }

    @Override
    public String toString() {
        return "Car{" +
               "make='" + make + '\'' +
               ", model='" + model + '\'' +
               ", year=" + year +
               ", bodyStyle='" + bodyStyle + '\'' +
               ", engineType='" + engineType + '\'' +
               ", horsepower=" + horsepower +
               '}';
    }
}

public class Truck extends Car {
    private double  maxLoad;
    private double  clearance;

    // 构造函数
    public Truck() {}

    public Truck(String make, String model, short year, String bodyStyle, String engineType, int horsepower, double maxLoad, double clearance) {
        super(make, model, year, bodyStyle, engineType, horsepower);
        this.maxLoad = maxLoad;
        this.clearance = clearance;
    }

    // Getters and Setters
    public double getMaxLoad() { return maxLoad; }
    public void setMaxLoad(double maxLoad) { this.maxLoad = maxLoad; }
    public double getClearance() { return clearance; }
    public void setClearance(double clearance) { this.clearance = clearance; }

    @Override
    public String toString() {
        return "Truck{" +
               "make='" + getMake() + '\'' +
               ", model='" + getModel() + '\'' +
               ", year=" + getYear() +
               ", bodyStyle='" + getBodyStyle() + '\'' +
               ", engineType='" + getEngineType() + '\'' +
               ", horsepower=" + getHorsepower() +
               ", maxLoad=" + maxLoad +
               ", clearance=" + clearance +
               '}';
    }
}

接下来是用于测试的JSON数据文件（cars.json）：

[
  {
      "make": "Ford",
      "model": "Focus",
      "year": 2018,
      "engineType": "T4",
      "bodyStyle": "hatchback",
      "horsepower": 225
  },
  {
      "make": "Toyota",
      "model": "Prius",
      "year": 2021,
      "engineType": "T4",
      "bodyStyle": "hatchback",
      "horsepower": 121
  },
  {
      "make": "Toyota",
      "model": "RAV4",
      "year": 2020,
      "engineType": "V6",
      "bodyStyle": "SUV",
      "horsepower": 230
  },
  {
      "make": "Toyota",
      "model": "Tacoma",
      "year": 2021,
      "engineType": "V6",
      "bodyStyle": "pickup",
      "horsepower": 278,
      "maxLoad": 1050,
      "clearance": 9.4
  },
  {
      "make": "Ford",
      "model": "T150",
      "year": 2017,
      "horsepower": 450,
      "bodyStyle": "pickup",
      "maxLoad": 2320,
      "clearance": 8.4
  }
]

最后，反序列化和验证代码：

import com.fasterxml.jackson.databind.ObjectMapper;
import com.fasterxml.jackson.core.type.TypeReference;
import java.io.IOException;
import java.io.InputStream;
import java.util.List;

public class TestDeserialization {
    private static final ObjectMapper mapper = new ObjectMapper();

    public static void main(String[] args) {
        InputStream src = TestDeserialization