Java tutorial
/* * 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; import com.google.gson.reflect.TypeToken; /** * Creates type adapters for set of related types. Type adapter factories are * most useful when several types share similar structure in their JSON form. * * <h3>Example: Converting enums to lowercase</h3> * In this example, we implement a factory that creates type adapters for all * enums. The type adapters will write enums in lowercase, despite the fact * that they're defined in {@code CONSTANT_CASE} in the corresponding Java * model: <pre> {@code * * public class LowercaseEnumTypeAdapterFactory implements TypeAdapterFactory { * public <T> TypeAdapter<T> create(Gson gson, TypeToken<T> type) { * Class<T> rawType = (Class<T>) type.getRawType(); * if (!rawType.isEnum()) { * return null; * } * * final Map<String, T> lowercaseToConstant = new HashMap<String, T>(); * for (T constant : rawType.getEnumConstants()) { * lowercaseToConstant.put(toLowercase(constant), constant); * } * * return new TypeAdapter<T>() { * public void write(JsonWriter out, T value) throws IOException { * if (value == null) { * out.nullValue(); * } else { * out.value(toLowercase(value)); * } * } * * public T read(JsonReader reader) throws IOException { * if (reader.peek() == JsonToken.NULL) { * reader.nextNull(); * return null; * } else { * return lowercaseToConstant.get(reader.nextString()); * } * } * }; * } * * private String toLowercase(Object o) { * return o.toString().toLowerCase(Locale.US); * } * } * }</pre> * * <p>Type adapter factories select which types they provide type adapters * for. If a factory cannot support a given type, it must return null when * that type is passed to {@link #create}. Factories should expect {@code * create()} to be called on them for many types and should return null for * most of those types. In the above example the factory returns null for * calls to {@code create()} where {@code type} is not an enum. * * <p>A factory is typically called once per type, but the returned type * adapter may be used many times. It is most efficient to do expensive work * like reflection in {@code create()} so that the type adapter's {@code * read()} and {@code write()} methods can be very fast. In this example the * mapping from lowercase name to enum value is computed eagerly. * * <p>As with type adapters, factories must be <i>registered</i> with a {@link * com.google.gson.GsonBuilder} for them to take effect: <pre> {@code * * GsonBuilder builder = new GsonBuilder(); * builder.registerTypeAdapterFactory(new LowercaseEnumTypeAdapterFactory()); * ... * Gson gson = builder.create(); * }</pre> * If multiple factories support the same type, the factory registered earlier * takes precedence. * * <h3>Example: composing other type adapters</h3> * In this example we implement a factory for Guava's {@code Multiset} * collection type. The factory can be used to create type adapters for * multisets of any element type: the type adapter for {@code * Multiset<String>} is different from the type adapter for {@code * Multiset<URL>}. * * <p>The type adapter <i>delegates</i> to another type adapter for the * multiset elements. It figures out the element type by reflecting on the * multiset's type token. A {@code Gson} is passed in to {@code create} for * just this purpose: <pre> {@code * * public class MultisetTypeAdapterFactory implements TypeAdapterFactory { * public <T> TypeAdapter<T> create(Gson gson, TypeToken<T> typeToken) { * Type type = typeToken.getType(); * if (typeToken.getRawType() != Multiset.class * || !(type instanceof ParameterizedType)) { * return null; * } * * Type elementType = ((ParameterizedType) type).getActualTypeArguments()[0]; * TypeAdapter<?> elementAdapter = gson.getAdapter(TypeToken.get(elementType)); * return (TypeAdapter<T>) newMultisetAdapter(elementAdapter); * } * * private <E> TypeAdapter<Multiset<E>> newMultisetAdapter( * final TypeAdapter<E> elementAdapter) { * return new TypeAdapter<Multiset<E>>() { * public void write(JsonWriter out, Multiset<E> value) throws IOException { * if (value == null) { * out.nullValue(); * return; * } * * out.beginArray(); * for (Multiset.Entry<E> entry : value.entrySet()) { * out.value(entry.getCount()); * elementAdapter.write(out, entry.getElement()); * } * out.endArray(); * } * * public Multiset<E> read(JsonReader in) throws IOException { * if (in.peek() == JsonToken.NULL) { * in.nextNull(); * return null; * } * * Multiset<E> result = LinkedHashMultiset.create(); * in.beginArray(); * while (in.hasNext()) { * int count = in.nextInt(); * E element = elementAdapter.read(in); * result.add(element, count); * } * in.endArray(); * return result; * } * }; * } * } * }</pre> * Delegating from one type adapter to another is extremely powerful; it's * the foundation of how Gson converts Java objects and collections. Whenever * possible your factory should retrieve its delegate type adapter in the * {@code create()} method; this ensures potentially-expensive type adapter * creation happens only once. * * @since 2.1 */ public interface TypeAdapterFactory { /** * Returns a type adapter for {@code type}, or null if this factory doesn't * support {@code type}. */ <T> TypeAdapter<T> create(Gson gson, TypeToken<T> type); }