使用GSon从JSon转换为多个未知的Java对象类型

Question

我有一个netty解码器，它使用GSon将来自Web客户端的JSon转换为适当的java对象。 要求是：客户端可以发送不相关的类，A类，B类，C类等，但我想在管道中使用相同的单例解码器实例进行转换（因为我使用spring进行配置）。 我面临的问题是我需要事先了解class对象。

public Object decode()
{
    gson.fromJson(jsonString, A.class);
}

这不能解码B或C.我的库的用户现在需要为每个类编写单独的解码器，而不是稍后编译。 我可以看到这样做的唯一方法是从Web客户端传递JSon字符串中的类名称“org.example.C”，在解码器中解析它然后使用Class.forName来获取类。 有一个更好的方法吗？

Answer 1

GSon必须知道匹配json字符串的类。 如果你不想用fromJson（）提供它，你可以在Json中实际指定它。 一种方法是定义接口并在其上绑定适配器。

喜欢 ：

  class A implements MyInterface {
    // ...
  }

  public Object decode()
  {
    Gson  gson = builder.registerTypeAdapter(MyInterface.class, new MyInterfaceAdapter());
    MyInterface a =  gson.fromJson(jsonString, MyInterface.class);
  }

适配器可以像：

public final class MYInterfaceAdapter implements JsonDeserializer<MyInterface>, JsonSerializer<MyInterface> {
  private static final String PROP_NAME = "myClass";

  @Override
  public MyInterface deserialize(JsonElement json, Type typeOfT, JsonDeserializationContext context) throws JsonParseException {
    try {
      String classPath = json.getAsJsonObject().getAsJsonPrimitive(PROP_NAME).getAsString();
      Class<MyInterface> cls = (Class<MyInterface>) Class.forName(classPath);

      return (MyInterface) context.deserialize(json, cls);
    } catch (ClassNotFoundException e) {
      e.printStackTrace();
    }

    return null;
  }

  @Override
  public JsonElement serialize(MyInterface src, Type typeOfSrc, JsonSerializationContext context) {
    // note : won't work, you must delegate this
    JsonObject jo = context.serialize(src).getAsJsonObject();

    String classPath = src.getClass().getName();
    jo.add(PROP_NAME, new JsonPrimitive(classPath));

    return jo;
  }
}

Answer 2

假设您有以下两种可能的JSON响应：

{
  "classA": {"foo": "fooValue"}
}
  or
{
  "classB": {"bar": "barValue"}
}

您可以创建这样的类结构：

public class Response {
  private A classA;
  private B classB;
  //more possible responses...
  //getters and setters...
}

public class A {
  private String foo;
  //getters and setters...
}

public class B {
  private String bar;
  //getters and setters...
}

然后，您可以解析任何可能的JSON响应：

Response response = gson.fromJson(jsonString, Response.class);

Gson将忽略与类结构中的任何属性不对应的所有JSON字段，因此您可以调整单个类来解析不同的响应...

然后，您可以检查classA ， classB ，...中的哪些属性不为null ，您将知道您收到了哪个响应。

Answer 3

不确定这是否是您要求的，但是通过修改RuntimeTypeAdapterFactory类，我根据Json源中的条件创建了一个子类化系统。 RuntimeTypeAdapterFactory.class：

/*
 * Copyright (C) 2011 Google Inc.
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package com.google.gson.typeadapters;

import java.io.IOException;
import java.util.LinkedHashMap;
import java.util.Map;

import com.google.gson.Gson;
import com.google.gson.JsonElement;
import com.google.gson.JsonObject;
import com.google.gson.JsonParseException;
import com.google.gson.JsonPrimitive;
import com.google.gson.TypeAdapter;
import com.google.gson.TypeAdapterFactory;
import com.google.gson.internal.Streams;
import com.google.gson.reflect.TypeToken;
import com.google.gson.stream.JsonReader;
import com.google.gson.stream.JsonWriter;

/**
 * Adapts values whose runtime type may differ from their declaration type. This
 * is necessary when a field's type is not the same type that GSON should create
 * when deserializing that field. For example, consider these types:
 * <pre>   {@code
 *   abstract class Shape {
 *     int x;
 *     int y;
 *   }
 *   class Circle extends Shape {
 *     int radius;
 *   }
 *   class Rectangle extends Shape {
 *     int width;
 *     int height;
 *   }
 *   class Diamond extends Shape {
 *     int width;
 *     int height;
 *   }
 *   class Drawing {
 *     Shape bottomShape;
 *     Shape topShape;
 *   }
 * }</pre>
 * <p>Without additional type information, the serialized JSON is ambiguous. Is
 * the bottom shape in this drawing a rectangle or a diamond? <pre>   {@code
 *   {
 *     "bottomShape": {
 *       "width": 10,
 *       "height": 5,
 *       "x": 0,
 *       "y": 0
 *     },
 *     "topShape": {
 *       "radius": 2,
 *       "x": 4,
 *       "y": 1
 *     }
 *   }}</pre>
 * This class addresses this problem by adding type information to the
 * serialized JSON and honoring that type information when the JSON is
 * deserialized: <pre>   {@code
 *   {
 *     "bottomShape": {
 *       "type": "Diamond",
 *       "width": 10,
 *       "height": 5,
 *       "x": 0,
 *       "y": 0
 *     },
 *     "topShape": {
 *       "type": "Circle",
 *       "radius": 2,
 *       "x": 4,
 *       "y": 1
 *     }
 *   }}</pre>
 * Both the type field name ({@code "type"}) and the type labels ({@code
 * "Rectangle"}) are configurable.
 *
 * <h3>Registering Types</h3>
 * Create a {@code RuntimeTypeAdapter} by passing the base type and type field
 * name to the {@link #of} factory method. If you don't supply an explicit type
 * field name, {@code "type"} will be used. <pre>   {@code
 *   RuntimeTypeAdapter<Shape> shapeAdapter
 *       = RuntimeTypeAdapter.of(Shape.class, "type");
 * }</pre>
 * Next register all of your subtypes. Every subtype must be explicitly
 * registered. This protects your application from injection attacks. If you
 * don't supply an explicit type label, the type's simple name will be used.
 * <pre>   {@code
 *   shapeAdapter.registerSubtype(Rectangle.class, "Rectangle");
 *   shapeAdapter.registerSubtype(Circle.class, "Circle");
 *   shapeAdapter.registerSubtype(Diamond.class, "Diamond");
 * }</pre>
 * Finally, register the type adapter in your application's GSON builder:
 * <pre>   {@code
 *   Gson gson = new GsonBuilder()
 *       .registerTypeAdapter(Shape.class, shapeAdapter)
 *       .create();
 * }</pre>
 * Like {@code GsonBuilder}, this API supports chaining: <pre>   {@code
 *   RuntimeTypeAdapter<Shape> shapeAdapter = RuntimeTypeAdapterFactory.of(Shape.class)
 *       .registerSubtype(Rectangle.class)
 *       .registerSubtype(Circle.class)
 *       .registerSubtype(Diamond.class);
 * }</pre>
 */
public final class RuntimeTypeAdapterFactory<T> implements TypeAdapterFactory {
    private final Class<?> baseType;
    private final RuntimeTypeAdapterPredicate predicate;
    private final Map<String, Class<?>> labelToSubtype = new LinkedHashMap<String, Class<?>>();
    private final Map<Class<?>, String> subtypeToLabel = new LinkedHashMap<Class<?>, String>();

    private RuntimeTypeAdapterFactory(Class<?> baseType, RuntimeTypeAdapterPredicate predicate) {
        if (predicate == null || baseType == null) {
            throw new NullPointerException();
        }
        this.baseType = baseType;
        this.predicate = predicate;
    }

    /**
     * Creates a new runtime type adapter using for {@code baseType} using {@code
     * typeFieldName} as the type field name. Type field names are case sensitive.
     */
    public static <T> RuntimeTypeAdapterFactory<T> of(Class<T> baseType, RuntimeTypeAdapterPredicate predicate) {
        return new RuntimeTypeAdapterFactory<T>(baseType, predicate);
    }

    /**
     * Creates a new runtime type adapter for {@code baseType} using {@code "type"} as
     * the type field name.
     */
    public static <T> RuntimeTypeAdapterFactory<T> of(Class<T> baseType) {
        return new RuntimeTypeAdapterFactory<T>(baseType, null);
    }

    /**
     * Registers {@code type} identified by {@code label}. Labels are case
     * sensitive.
     *
     * @throws IllegalArgumentException if either {@code type} or {@code label}
     *     have already been registered on this type adapter.
     */
    public RuntimeTypeAdapterFactory<T> registerSubtype(Class<? extends T> type, String label) {
        if (type == null || label == null) {
            throw new NullPointerException();
        }
        if (subtypeToLabel.containsKey(type) || labelToSubtype.containsKey(label)) {
            throw new IllegalArgumentException("types and labels must be unique");
        }
        labelToSubtype.put(label, type);
        subtypeToLabel.put(type, label);
        return this;
    }

    /**
     * Registers {@code type} identified by its {@link Class#getSimpleName simple
     * name}. Labels are case sensitive.
     *
     * @throws IllegalArgumentException if either {@code type} or its simple name
     *     have already been registered on this type adapter.
     */
    public RuntimeTypeAdapterFactory<T> registerSubtype(Class<? extends T> type) {
        return registerSubtype(type, type.getSimpleName());
    }

    public <R> TypeAdapter<R> create(Gson gson, TypeToken<R> type) {
        if (type.getRawType() != baseType) {
            return null;
        }

        final Map<String, TypeAdapter<?>> labelToDelegate
                = new LinkedHashMap<String, TypeAdapter<?>>();
        final Map<Class<?>, TypeAdapter<?>> subtypeToDelegate
                = new LinkedHashMap<Class<?>, TypeAdapter<?>>();
        for (Map.Entry<String, Class<?>> entry : labelToSubtype.entrySet()) {
            TypeAdapter<?> delegate = gson.getDelegateAdapter(this, TypeToken.get(entry.getValue()));
            labelToDelegate.put(entry.getKey(), delegate);
            subtypeToDelegate.put(entry.getValue(), delegate);
        }

        return new TypeAdapter<R>() {
            @Override public R read(JsonReader in) throws IOException {
                JsonElement jsonElement = Streams.parse(in);
                String label = predicate.process(jsonElement);
                @SuppressWarnings("unchecked") // registration requires that subtype extends T
                        TypeAdapter<R> delegate = (TypeAdapter<R>) labelToDelegate.get(label);
                if (delegate == null) {
                    throw new JsonParseException("cannot deserialize " + baseType + " subtype named "
                            + label + "; did you forget to register a subtype?");
                }
                return delegate.fromJsonTree(jsonElement);
            }

            @Override public void write(JsonWriter out, R value) throws IOException { // Unimplemented as we don't use write.
                /*Class<?> srcType = value.getClass();
                String label = subtypeToLabel.get(srcType);
                @SuppressWarnings("unchecked") // registration requires that subtype extends T
                        TypeAdapter<R> delegate = (TypeAdapter<R>) subtypeToDelegate.get(srcType);
                if (delegate == null) {
                    throw new JsonParseException("cannot serialize " + srcType.getName()
                            + "; did you forget to register a subtype?");
                }
                JsonObject jsonObject = delegate.toJsonTree(value).getAsJsonObject();
                if (jsonObject.has(typeFieldName)) {
                    throw new JsonParseException("cannot serialize " + srcType.getName()
                            + " because it already defines a field named " + typeFieldName);
                }
                JsonObject clone = new JsonObject();
                clone.add(typeFieldName, new JsonPrimitive(label));
                for (Map.Entry<String, JsonElement> e : jsonObject.entrySet()) {
                    clone.add(e.getKey(), e.getValue());
                }*/
                Streams.write(null, out);
            }
        };
    }
}

RuntimeTypeAdapterPredicate.class：

package com.google.gson.typeadapters;

import com.google.gson.JsonElement;

/**
 * Created by Johan on 2014-02-13.
 */
public abstract class RuntimeTypeAdapterPredicate {

    public abstract String process(JsonElement element);

}

示例（取自我目前正在进行的项目）：

ItemTypePredicate.class：

package org.libpoe.serial;

import com.google.gson.JsonElement;
import com.google.gson.JsonObject;
import com.google.gson.typeadapters.RuntimeTypeAdapterPredicate;

/**
 * Created by Johan on 2014-02-13.
 */
public class ItemTypePredicate extends RuntimeTypeAdapterPredicate {

    @Override
    public String process(JsonElement element) {
        JsonObject obj = element.getAsJsonObject();
        int frameType = obj.get("frameType").getAsInt();

        switch(frameType) {
            case 4: return "Gem";
            case 5: return "Currency";
        }
        if (obj.get("typeLine").getAsString().contains("Map")
                && obj.get("descrText").getAsString() != null
                && obj.get("descrText").getAsString().contains("Travel to this Map")) {
            return "Map";
        }

        return "Equipment";
    }
}

用法：

RuntimeTypeAdapterFactory<Item> itemAdapter = RuntimeTypeAdapterFactory.of(Item.class, new ItemTypePredicate())
        .registerSubtype(Currency.class)
        .registerSubtype(Equipment.class)
        .registerSubtype(Gem.class)
        .registerSubtype(Map.class);

Gson gson = new GsonBuilder()
        .enableComplexMapKeySerialization()
        .registerTypeAdapterFactory(itemAdapter).create();

层次基类是Item。 货币，设备，宝石和地图都扩展了这一点。

Answer 4

创建模型类，

public class MyModel {

    private String errorId;

    public String getErrorId() {
        return errorId;
    }

    public void setErrorId(String errorId) {
        this.errorId = errorId;
    }
}

创建子类

   public class SubClass extends MyModel {
        private String subString;

       public String getSubString() {
            return subString;
        }

        public void setSubString(String subString) {
            this.subString = subString;
        }
 }

调用parseGson方法

parseGson(subClass);

带对象类的gson parse方法

   public void parseGson(Object object){
     object = gson.fromJson(response.toString(), object.getClass());
     SubClass subclass = (SubClass)object;
   }

您可以设置强制转换为myModel的全局变量

((MyModel)object).setErrorId(response.getString("errorid"));