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/*
 * Copyright (C) 2008 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.internal.ConstructorConstructor;
import com.google.gson.internal.Excluder;
import com.google.gson.internal.GsonBuildConfig;
import com.google.gson.internal.LazilyParsedNumber;
import com.google.gson.internal.Primitives;
import com.google.gson.internal.Streams;
import com.google.gson.internal.bind.ArrayTypeAdapter;
import com.google.gson.internal.bind.CollectionTypeAdapterFactory;
import com.google.gson.internal.bind.DateTypeAdapter;
import com.google.gson.internal.bind.JsonAdapterAnnotationTypeAdapterFactory;
import com.google.gson.internal.bind.JsonTreeReader;
import com.google.gson.internal.bind.JsonTreeWriter;
import com.google.gson.internal.bind.MapTypeAdapterFactory;
import com.google.gson.internal.bind.NumberTypeAdapter;
import com.google.gson.internal.bind.ObjectTypeAdapter;
import com.google.gson.internal.bind.ReflectiveTypeAdapterFactory;
import com.google.gson.internal.bind.SerializationDelegatingTypeAdapter;
import com.google.gson.internal.bind.TypeAdapters;
import com.google.gson.internal.sql.SqlTypesSupport;
import com.google.gson.reflect.TypeToken;
import com.google.gson.stream.JsonReader;
import com.google.gson.stream.JsonToken;
import com.google.gson.stream.JsonWriter;
import com.google.gson.stream.MalformedJsonException;
import java.io.EOFException;
import java.io.IOException;
import java.io.Reader;
import java.io.StringReader;
import java.io.StringWriter;
import java.io.Writer;
import java.lang.reflect.Type;
import java.math.BigDecimal;
import java.math.BigInteger;
import java.text.DateFormat;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Objects;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ConcurrentMap;
import java.util.concurrent.atomic.AtomicLong;
import java.util.concurrent.atomic.AtomicLongArray;

/**
 * This is the main class for using Gson. Gson is typically used by first constructing a
 * Gson instance and then invoking {@link #toJson(Object)} or {@link #fromJson(String, Class)}
 * methods on it. Gson instances are Thread-safe so you can reuse them freely across multiple
 * threads.
 *
 * 

You can create a Gson instance by invoking {@code new Gson()} if the default configuration * is all you need. You can also use {@link GsonBuilder} to build a Gson instance with various * configuration options such as versioning support, pretty printing, custom * {@link JsonSerializer}s, {@link JsonDeserializer}s, and {@link InstanceCreator}s.

* *

Here is an example of how Gson is used for a simple Class: * *

 * Gson gson = new Gson(); // Or use new GsonBuilder().create();
 * MyType target = new MyType();
 * String json = gson.toJson(target); // serializes target to JSON
 * MyType target2 = gson.fromJson(json, MyType.class); // deserializes json into target2
 * 
* *

If the type of the object that you are converting is a {@code ParameterizedType} * (i.e. has at least one type argument, for example {@code List}) then for * deserialization you must use a {@code fromJson} method with {@link Type} or {@link TypeToken} * parameter to specify the parameterized type. For serialization specifying a {@code Type} * or {@code TypeToken} is optional, otherwise Gson will use the runtime type of the object. * {@link TypeToken} is a class provided by Gson which helps creating parameterized types. * Here is an example showing how this can be done: *

 * TypeToken<List<MyType>> listType = new TypeToken<List<MyType>>() {};
 * List<MyType> target = new LinkedList<MyType>();
 * target.add(new MyType(1, "abc"));
 *
 * Gson gson = new Gson();
 * // For serialization you normally do not have to specify the type, Gson will use
 * // the runtime type of the objects, however you can also specify it explicitly
 * String json = gson.toJson(target, listType.getType());
 *
 * // But for deserialization you have to specify the type
 * List<MyType> target2 = gson.fromJson(json, listType);
 * 
* *

See the Gson User Guide * for a more complete set of examples.

* *

Lenient JSON handling

* For legacy reasons most of the {@code Gson} methods allow JSON data which does not * comply with the JSON specification, regardless of whether {@link GsonBuilder#setLenient()} * is used or not. If this behavior is not desired, the following workarounds can be used: * *

Serialization

*
    *
  1. Use {@link #getAdapter(Class)} to obtain the adapter for the type to be serialized *
  2. When using an existing {@code JsonWriter}, manually apply the writer settings of this * {@code Gson} instance listed by {@link #newJsonWriter(Writer)}.
    * Otherwise, when not using an existing {@code JsonWriter}, use {@link #newJsonWriter(Writer)} * to construct one. *
  3. Call {@link TypeAdapter#write(JsonWriter, Object)} *
* *

Deserialization

*
    *
  1. Use {@link #getAdapter(Class)} to obtain the adapter for the type to be deserialized *
  2. When using an existing {@code JsonReader}, manually apply the reader settings of this * {@code Gson} instance listed by {@link #newJsonReader(Reader)}.
    * Otherwise, when not using an existing {@code JsonReader}, use {@link #newJsonReader(Reader)} * to construct one. *
  3. Call {@link TypeAdapter#read(JsonReader)} *
  4. Call {@link JsonReader#peek()} and verify that the result is {@link JsonToken#END_DOCUMENT} * to make sure there is no trailing data *
* * @see TypeToken * * @author Inderjeet Singh * @author Joel Leitch * @author Jesse Wilson */ public final class Gson { static final boolean DEFAULT_JSON_NON_EXECUTABLE = false; static final boolean DEFAULT_LENIENT = false; static final boolean DEFAULT_PRETTY_PRINT = false; static final boolean DEFAULT_ESCAPE_HTML = true; static final boolean DEFAULT_SERIALIZE_NULLS = false; static final boolean DEFAULT_COMPLEX_MAP_KEYS = false; static final boolean DEFAULT_SPECIALIZE_FLOAT_VALUES = false; static final boolean DEFAULT_USE_JDK_UNSAFE = true; static final String DEFAULT_DATE_PATTERN = null; static final FieldNamingStrategy DEFAULT_FIELD_NAMING_STRATEGY = FieldNamingPolicy.IDENTITY; static final ToNumberStrategy DEFAULT_OBJECT_TO_NUMBER_STRATEGY = ToNumberPolicy.DOUBLE; static final ToNumberStrategy DEFAULT_NUMBER_TO_NUMBER_STRATEGY = ToNumberPolicy.LAZILY_PARSED_NUMBER; private static final String JSON_NON_EXECUTABLE_PREFIX = ")]}'\n"; /** * This thread local guards against reentrant calls to {@link #getAdapter(TypeToken)}. * In certain object graphs, creating an adapter for a type may recursively * require an adapter for the same type! Without intervention, the recursive * lookup would stack overflow. We cheat by returning a proxy type adapter, * {@link FutureTypeAdapter}, which is wired up once the initial adapter has * been created. * *

The map stores the type adapters for ongoing {@code getAdapter} calls, * with the type token provided to {@code getAdapter} as key and either * {@code FutureTypeAdapter} or a regular {@code TypeAdapter} as value. */ private final ThreadLocal, TypeAdapter>> threadLocalAdapterResults = new ThreadLocal<>(); private final ConcurrentMap, TypeAdapter> typeTokenCache = new ConcurrentHashMap<>(); private final ConstructorConstructor constructorConstructor; private final JsonAdapterAnnotationTypeAdapterFactory jsonAdapterFactory; final List factories; final Excluder excluder; final FieldNamingStrategy fieldNamingStrategy; final Map> instanceCreators; final boolean serializeNulls; final boolean complexMapKeySerialization; final boolean generateNonExecutableJson; final boolean htmlSafe; final boolean prettyPrinting; final boolean lenient; final boolean serializeSpecialFloatingPointValues; final boolean useJdkUnsafe; final String datePattern; final int dateStyle; final int timeStyle; final LongSerializationPolicy longSerializationPolicy; final List builderFactories; final List builderHierarchyFactories; final ToNumberStrategy objectToNumberStrategy; final ToNumberStrategy numberToNumberStrategy; final List reflectionFilters; /** * Constructs a Gson object with default configuration. The default configuration has the * following settings: *

    *
  • The JSON generated by toJson methods is in compact representation. This * means that all the unneeded white-space is removed. You can change this behavior with * {@link GsonBuilder#setPrettyPrinting()}.
  • *
  • The generated JSON omits all the fields that are null. Note that nulls in arrays are * kept as is since an array is an ordered list. Moreover, if a field is not null, but its * generated JSON is empty, the field is kept. You can configure Gson to serialize null values * by setting {@link GsonBuilder#serializeNulls()}.
  • *
  • Gson provides default serialization and deserialization for Enums, {@link Map}, * {@link java.net.URL}, {@link java.net.URI}, {@link java.util.Locale}, {@link java.util.Date}, * {@link java.math.BigDecimal}, and {@link java.math.BigInteger} classes. If you would prefer * to change the default representation, you can do so by registering a type adapter through * {@link GsonBuilder#registerTypeAdapter(Type, Object)}.
  • *
  • The default Date format is same as {@link java.text.DateFormat#DEFAULT}. This format * ignores the millisecond portion of the date during serialization. You can change * this by invoking {@link GsonBuilder#setDateFormat(int)} or * {@link GsonBuilder#setDateFormat(String)}.
  • *
  • By default, Gson ignores the {@link com.google.gson.annotations.Expose} annotation. * You can enable Gson to serialize/deserialize only those fields marked with this annotation * through {@link GsonBuilder#excludeFieldsWithoutExposeAnnotation()}.
  • *
  • By default, Gson ignores the {@link com.google.gson.annotations.Since} annotation. You * can enable Gson to use this annotation through {@link GsonBuilder#setVersion(double)}.
  • *
  • The default field naming policy for the output JSON is same as in Java. So, a Java class * field versionNumber will be output as "versionNumber" in * JSON. The same rules are applied for mapping incoming JSON to the Java classes. You can * change this policy through {@link GsonBuilder#setFieldNamingPolicy(FieldNamingPolicy)}.
  • *
  • By default, Gson excludes transient or static fields from * consideration for serialization and deserialization. You can change this behavior through * {@link GsonBuilder#excludeFieldsWithModifiers(int...)}.
  • *
*/ public Gson() { this(Excluder.DEFAULT, DEFAULT_FIELD_NAMING_STRATEGY, Collections.>emptyMap(), DEFAULT_SERIALIZE_NULLS, DEFAULT_COMPLEX_MAP_KEYS, DEFAULT_JSON_NON_EXECUTABLE, DEFAULT_ESCAPE_HTML, DEFAULT_PRETTY_PRINT, DEFAULT_LENIENT, DEFAULT_SPECIALIZE_FLOAT_VALUES, DEFAULT_USE_JDK_UNSAFE, LongSerializationPolicy.DEFAULT, DEFAULT_DATE_PATTERN, DateFormat.DEFAULT, DateFormat.DEFAULT, Collections.emptyList(), Collections.emptyList(), Collections.emptyList(), DEFAULT_OBJECT_TO_NUMBER_STRATEGY, DEFAULT_NUMBER_TO_NUMBER_STRATEGY, Collections.emptyList()); } Gson(Excluder excluder, FieldNamingStrategy fieldNamingStrategy, Map> instanceCreators, boolean serializeNulls, boolean complexMapKeySerialization, boolean generateNonExecutableGson, boolean htmlSafe, boolean prettyPrinting, boolean lenient, boolean serializeSpecialFloatingPointValues, boolean useJdkUnsafe, LongSerializationPolicy longSerializationPolicy, String datePattern, int dateStyle, int timeStyle, List builderFactories, List builderHierarchyFactories, List factoriesToBeAdded, ToNumberStrategy objectToNumberStrategy, ToNumberStrategy numberToNumberStrategy, List reflectionFilters) { this.excluder = excluder; this.fieldNamingStrategy = fieldNamingStrategy; this.instanceCreators = instanceCreators; this.constructorConstructor = new ConstructorConstructor(instanceCreators, useJdkUnsafe, reflectionFilters); this.serializeNulls = serializeNulls; this.complexMapKeySerialization = complexMapKeySerialization; this.generateNonExecutableJson = generateNonExecutableGson; this.htmlSafe = htmlSafe; this.prettyPrinting = prettyPrinting; this.lenient = lenient; this.serializeSpecialFloatingPointValues = serializeSpecialFloatingPointValues; this.useJdkUnsafe = useJdkUnsafe; this.longSerializationPolicy = longSerializationPolicy; this.datePattern = datePattern; this.dateStyle = dateStyle; this.timeStyle = timeStyle; this.builderFactories = builderFactories; this.builderHierarchyFactories = builderHierarchyFactories; this.objectToNumberStrategy = objectToNumberStrategy; this.numberToNumberStrategy = numberToNumberStrategy; this.reflectionFilters = reflectionFilters; List factories = new ArrayList<>(); // built-in type adapters that cannot be overridden factories.add(TypeAdapters.JSON_ELEMENT_FACTORY); factories.add(ObjectTypeAdapter.getFactory(objectToNumberStrategy)); // the excluder must precede all adapters that handle user-defined types factories.add(excluder); // users' type adapters factories.addAll(factoriesToBeAdded); // type adapters for basic platform types factories.add(TypeAdapters.STRING_FACTORY); factories.add(TypeAdapters.INTEGER_FACTORY); factories.add(TypeAdapters.BOOLEAN_FACTORY); factories.add(TypeAdapters.BYTE_FACTORY); factories.add(TypeAdapters.SHORT_FACTORY); TypeAdapter longAdapter = longAdapter(longSerializationPolicy); factories.add(TypeAdapters.newFactory(long.class, Long.class, longAdapter)); factories.add(TypeAdapters.newFactory(double.class, Double.class, doubleAdapter(serializeSpecialFloatingPointValues))); factories.add(TypeAdapters.newFactory(float.class, Float.class, floatAdapter(serializeSpecialFloatingPointValues))); factories.add(NumberTypeAdapter.getFactory(numberToNumberStrategy)); factories.add(TypeAdapters.ATOMIC_INTEGER_FACTORY); factories.add(TypeAdapters.ATOMIC_BOOLEAN_FACTORY); factories.add(TypeAdapters.newFactory(AtomicLong.class, atomicLongAdapter(longAdapter))); factories.add(TypeAdapters.newFactory(AtomicLongArray.class, atomicLongArrayAdapter(longAdapter))); factories.add(TypeAdapters.ATOMIC_INTEGER_ARRAY_FACTORY); factories.add(TypeAdapters.CHARACTER_FACTORY); factories.add(TypeAdapters.STRING_BUILDER_FACTORY); factories.add(TypeAdapters.STRING_BUFFER_FACTORY); factories.add(TypeAdapters.newFactory(BigDecimal.class, TypeAdapters.BIG_DECIMAL)); factories.add(TypeAdapters.newFactory(BigInteger.class, TypeAdapters.BIG_INTEGER)); // Add adapter for LazilyParsedNumber because user can obtain it from Gson and then try to serialize it again factories.add(TypeAdapters.newFactory(LazilyParsedNumber.class, TypeAdapters.LAZILY_PARSED_NUMBER)); factories.add(TypeAdapters.URL_FACTORY); factories.add(TypeAdapters.URI_FACTORY); factories.add(TypeAdapters.UUID_FACTORY); factories.add(TypeAdapters.CURRENCY_FACTORY); factories.add(TypeAdapters.LOCALE_FACTORY); factories.add(TypeAdapters.INET_ADDRESS_FACTORY); factories.add(TypeAdapters.BIT_SET_FACTORY); factories.add(DateTypeAdapter.FACTORY); factories.add(TypeAdapters.CALENDAR_FACTORY); if (SqlTypesSupport.SUPPORTS_SQL_TYPES) { factories.add(SqlTypesSupport.TIME_FACTORY); factories.add(SqlTypesSupport.DATE_FACTORY); factories.add(SqlTypesSupport.TIMESTAMP_FACTORY); } factories.add(ArrayTypeAdapter.FACTORY); factories.add(TypeAdapters.CLASS_FACTORY); // type adapters for composite and user-defined types factories.add(new CollectionTypeAdapterFactory(constructorConstructor)); factories.add(new MapTypeAdapterFactory(constructorConstructor, complexMapKeySerialization)); this.jsonAdapterFactory = new JsonAdapterAnnotationTypeAdapterFactory(constructorConstructor); factories.add(jsonAdapterFactory); factories.add(TypeAdapters.ENUM_FACTORY); factories.add(new ReflectiveTypeAdapterFactory( constructorConstructor, fieldNamingStrategy, excluder, jsonAdapterFactory, reflectionFilters)); this.factories = Collections.unmodifiableList(factories); } /** * Returns a new GsonBuilder containing all custom factories and configuration used by the current * instance. * * @return a GsonBuilder instance. * @since 2.8.3 */ public GsonBuilder newBuilder() { return new GsonBuilder(this); } /** * @deprecated This method by accident exposes an internal Gson class; it might be removed in a * future version. */ @Deprecated public Excluder excluder() { return excluder; } /** * Returns the field naming strategy used by this Gson instance. * * @see GsonBuilder#setFieldNamingStrategy(FieldNamingStrategy) */ public FieldNamingStrategy fieldNamingStrategy() { return fieldNamingStrategy; } /** * Returns whether this Gson instance is serializing JSON object properties with * {@code null} values, or just omits them. * * @see GsonBuilder#serializeNulls() */ public boolean serializeNulls() { return serializeNulls; } /** * Returns whether this Gson instance produces JSON output which is * HTML-safe, that means all HTML characters are escaped. * * @see GsonBuilder#disableHtmlEscaping() */ public boolean htmlSafe() { return htmlSafe; } private TypeAdapter doubleAdapter(boolean serializeSpecialFloatingPointValues) { if (serializeSpecialFloatingPointValues) { return TypeAdapters.DOUBLE; } return new TypeAdapter() { @Override public Double read(JsonReader in) throws IOException { if (in.peek() == JsonToken.NULL) { in.nextNull(); return null; } return in.nextDouble(); } @Override public void write(JsonWriter out, Number value) throws IOException { if (value == null) { out.nullValue(); return; } double doubleValue = value.doubleValue(); checkValidFloatingPoint(doubleValue); out.value(doubleValue); } }; } private TypeAdapter floatAdapter(boolean serializeSpecialFloatingPointValues) { if (serializeSpecialFloatingPointValues) { return TypeAdapters.FLOAT; } return new TypeAdapter() { @Override public Float read(JsonReader in) throws IOException { if (in.peek() == JsonToken.NULL) { in.nextNull(); return null; } return (float) in.nextDouble(); } @Override public void write(JsonWriter out, Number value) throws IOException { if (value == null) { out.nullValue(); return; } float floatValue = value.floatValue(); checkValidFloatingPoint(floatValue); // For backward compatibility don't call `JsonWriter.value(float)` because that method has // been newly added and not all custom JsonWriter implementations might override it yet Number floatNumber = value instanceof Float ? value : floatValue; out.value(floatNumber); } }; } static void checkValidFloatingPoint(double value) { if (Double.isNaN(value) || Double.isInfinite(value)) { throw new IllegalArgumentException(value + " is not a valid double value as per JSON specification. To override this" + " behavior, use GsonBuilder.serializeSpecialFloatingPointValues() method."); } } private static TypeAdapter longAdapter(LongSerializationPolicy longSerializationPolicy) { if (longSerializationPolicy == LongSerializationPolicy.DEFAULT) { return TypeAdapters.LONG; } return new TypeAdapter() { @Override public Number read(JsonReader in) throws IOException { if (in.peek() == JsonToken.NULL) { in.nextNull(); return null; } return in.nextLong(); } @Override public void write(JsonWriter out, Number value) throws IOException { if (value == null) { out.nullValue(); return; } out.value(value.toString()); } }; } private static TypeAdapter atomicLongAdapter(final TypeAdapter longAdapter) { return new TypeAdapter() { @Override public void write(JsonWriter out, AtomicLong value) throws IOException { longAdapter.write(out, value.get()); } @Override public AtomicLong read(JsonReader in) throws IOException { Number value = longAdapter.read(in); return new AtomicLong(value.longValue()); } }.nullSafe(); } private static TypeAdapter atomicLongArrayAdapter(final TypeAdapter longAdapter) { return new TypeAdapter() { @Override public void write(JsonWriter out, AtomicLongArray value) throws IOException { out.beginArray(); for (int i = 0, length = value.length(); i < length; i++) { longAdapter.write(out, value.get(i)); } out.endArray(); } @Override public AtomicLongArray read(JsonReader in) throws IOException { List list = new ArrayList<>(); in.beginArray(); while (in.hasNext()) { long value = longAdapter.read(in).longValue(); list.add(value); } in.endArray(); int length = list.size(); AtomicLongArray array = new AtomicLongArray(length); for (int i = 0; i < length; ++i) { array.set(i, list.get(i)); } return array; } }.nullSafe(); } /** * Returns the type adapter for {@code type}. * *

When calling this method concurrently from multiple threads and requesting * an adapter for the same type this method may return different {@code TypeAdapter} * instances. However, that should normally not be an issue because {@code TypeAdapter} * implementations are supposed to be stateless. * * @throws IllegalArgumentException if this Gson instance cannot serialize and * deserialize {@code type}. */ public TypeAdapter getAdapter(TypeToken type) { Objects.requireNonNull(type, "type must not be null"); TypeAdapter cached = typeTokenCache.get(type); if (cached != null) { @SuppressWarnings("unchecked") TypeAdapter adapter = (TypeAdapter) cached; return adapter; } Map, TypeAdapter> threadCalls = threadLocalAdapterResults.get(); boolean isInitialAdapterRequest = false; if (threadCalls == null) { threadCalls = new HashMap<>(); threadLocalAdapterResults.set(threadCalls); isInitialAdapterRequest = true; } else { // the key and value type parameters always agree @SuppressWarnings("unchecked") TypeAdapter ongoingCall = (TypeAdapter) threadCalls.get(type); if (ongoingCall != null) { return ongoingCall; } } TypeAdapter candidate = null; try { FutureTypeAdapter call = new FutureTypeAdapter<>(); threadCalls.put(type, call); for (TypeAdapterFactory factory : factories) { candidate = factory.create(this, type); if (candidate != null) { call.setDelegate(candidate); // Replace future adapter with actual adapter threadCalls.put(type, candidate); break; } } } finally { if (isInitialAdapterRequest) { threadLocalAdapterResults.remove(); } } if (candidate == null) { throw new IllegalArgumentException("GSON (" + GsonBuildConfig.VERSION + ") cannot handle " + type); } if (isInitialAdapterRequest) { /* * Publish resolved adapters to all threads * Can only do this for the initial request because cyclic dependency TypeA -> TypeB -> TypeA * would otherwise publish adapter for TypeB which uses not yet resolved adapter for TypeA * See https://github.com/google/gson/issues/625 */ typeTokenCache.putAll(threadCalls); } return candidate; } /** * This method is used to get an alternate type adapter for the specified type. This is used * to access a type adapter that is overridden by a {@link TypeAdapterFactory} that you * may have registered. This features is typically used when you want to register a type * adapter that does a little bit of work but then delegates further processing to the Gson * default type adapter. Here is an example: *

Let's say we want to write a type adapter that counts the number of objects being read * from or written to JSON. We can achieve this by writing a type adapter factory that uses * the getDelegateAdapter method: *

 {@code
   *  class StatsTypeAdapterFactory implements TypeAdapterFactory {
   *    public int numReads = 0;
   *    public int numWrites = 0;
   *    public  TypeAdapter create(Gson gson, TypeToken type) {
   *      final TypeAdapter delegate = gson.getDelegateAdapter(this, type);
   *      return new TypeAdapter() {
   *        public void write(JsonWriter out, T value) throws IOException {
   *          ++numWrites;
   *          delegate.write(out, value);
   *        }
   *        public T read(JsonReader in) throws IOException {
   *          ++numReads;
   *          return delegate.read(in);
   *        }
   *      };
   *    }
   *  }
   *  } 
* This factory can now be used like this: *
 {@code
   *  StatsTypeAdapterFactory stats = new StatsTypeAdapterFactory();
   *  Gson gson = new GsonBuilder().registerTypeAdapterFactory(stats).create();
   *  // Call gson.toJson() and fromJson methods on objects
   *  System.out.println("Num JSON reads" + stats.numReads);
   *  System.out.println("Num JSON writes" + stats.numWrites);
   *  }
* Note that this call will skip all factories registered before {@code skipPast}. In case of * multiple TypeAdapterFactories registered it is up to the caller of this function to insure * that the order of registration does not prevent this method from reaching a factory they * would expect to reply from this call. * Note that since you can not override type adapter factories for String and Java primitive * types, our stats factory will not count the number of String or primitives that will be * read or written. * @param skipPast The type adapter factory that needs to be skipped while searching for * a matching type adapter. In most cases, you should just pass this (the type adapter * factory from where {@code getDelegateAdapter} method is being invoked). * @param type Type for which the delegate adapter is being searched for. * * @since 2.2 */ public TypeAdapter getDelegateAdapter(TypeAdapterFactory skipPast, TypeToken type) { // Hack. If the skipPast factory isn't registered, assume the factory is being requested via // our @JsonAdapter annotation. if (!factories.contains(skipPast)) { skipPast = jsonAdapterFactory; } boolean skipPastFound = false; for (TypeAdapterFactory factory : factories) { if (!skipPastFound) { if (factory == skipPast) { skipPastFound = true; } continue; } TypeAdapter candidate = factory.create(this, type); if (candidate != null) { return candidate; } } throw new IllegalArgumentException("GSON cannot serialize " + type); } /** * Returns the type adapter for {@code type}. * * @throws IllegalArgumentException if this Gson instance cannot serialize and * deserialize {@code type}. */ public TypeAdapter getAdapter(Class type) { return getAdapter(TypeToken.get(type)); } /** * This method serializes the specified object into its equivalent representation as a tree of * {@link JsonElement}s. This method should be used when the specified object is not a generic * type. This method uses {@link Class#getClass()} to get the type for the specified object, but * the {@code getClass()} loses the generic type information because of the Type Erasure feature * of Java. Note that this method works fine if any of the object fields are of generic type, * just the object itself should not be of a generic type. If the object is of generic type, use * {@link #toJsonTree(Object, Type)} instead. * * @param src the object for which JSON representation is to be created * @return JSON representation of {@code src}. * @since 1.4 * * @see #toJsonTree(Object, Type) */ public JsonElement toJsonTree(Object src) { if (src == null) { return JsonNull.INSTANCE; } return toJsonTree(src, src.getClass()); } /** * This method serializes the specified object, including those of generic types, into its * equivalent representation as a tree of {@link JsonElement}s. This method must be used if the * specified object is a generic type. For non-generic objects, use {@link #toJsonTree(Object)} * instead. * * @param src the object for which JSON representation is to be created * @param typeOfSrc The specific genericized type of src. You can obtain * this type by using the {@link com.google.gson.reflect.TypeToken} class. For example, * to get the type for {@code Collection}, you should use: *
   * Type typeOfSrc = new TypeToken<Collection<Foo>>(){}.getType();
   * 
* @return Json representation of {@code src} * @since 1.4 * * @see #toJsonTree(Object) */ public JsonElement toJsonTree(Object src, Type typeOfSrc) { JsonTreeWriter writer = new JsonTreeWriter(); toJson(src, typeOfSrc, writer); return writer.get(); } /** * This method serializes the specified object into its equivalent JSON representation. * This method should be used when the specified object is not a generic type. This method uses * {@link Class#getClass()} to get the type for the specified object, but the * {@code getClass()} loses the generic type information because of the Type Erasure feature * of Java. Note that this method works fine if any of the object fields are of generic type, * just the object itself should not be of a generic type. If the object is of generic type, use * {@link #toJson(Object, Type)} instead. If you want to write out the object to a * {@link Writer}, use {@link #toJson(Object, Appendable)} instead. * * @param src the object for which JSON representation is to be created * @return Json representation of {@code src}. * * @see #toJson(Object, Appendable) * @see #toJson(Object, Type) */ public String toJson(Object src) { if (src == null) { return toJson(JsonNull.INSTANCE); } return toJson(src, src.getClass()); } /** * This method serializes the specified object, including those of generic types, into its * equivalent JSON representation. This method must be used if the specified object is a generic * type. For non-generic objects, use {@link #toJson(Object)} instead. If you want to write out * the object to a {@link Appendable}, use {@link #toJson(Object, Type, Appendable)} instead. * * @param src the object for which JSON representation is to be created * @param typeOfSrc The specific genericized type of src. You can obtain * this type by using the {@link com.google.gson.reflect.TypeToken} class. For example, * to get the type for {@code Collection}, you should use: *
   * Type typeOfSrc = new TypeToken<Collection<Foo>>(){}.getType();
   * 
* @return JSON representation of {@code src} * * @see #toJson(Object, Type, Appendable) * @see #toJson(Object) */ public String toJson(Object src, Type typeOfSrc) { StringWriter writer = new StringWriter(); toJson(src, typeOfSrc, writer); return writer.toString(); } /** * This method serializes the specified object into its equivalent JSON representation and * writes it to the writer. * This method should be used when the specified object is not a generic type. This method uses * {@link Class#getClass()} to get the type for the specified object, but the * {@code getClass()} loses the generic type information because of the Type Erasure feature * of Java. Note that this method works fine if any of the object fields are of generic type, * just the object itself should not be of a generic type. If the object is of generic type, use * {@link #toJson(Object, Type, Appendable)} instead. * * @param src the object for which JSON representation is to be created * @param writer Writer to which the JSON representation needs to be written * @throws JsonIOException if there was a problem writing to the writer * @since 1.2 * * @see #toJson(Object) * @see #toJson(Object, Type, Appendable) */ public void toJson(Object src, Appendable writer) throws JsonIOException { if (src != null) { toJson(src, src.getClass(), writer); } else { toJson(JsonNull.INSTANCE, writer); } } /** * This method serializes the specified object, including those of generic types, into its * equivalent JSON representation and writes it to the writer. * This method must be used if the specified object is a generic type. For non-generic objects, * use {@link #toJson(Object, Appendable)} instead. * * @param src the object for which JSON representation is to be created * @param typeOfSrc The specific genericized type of src. You can obtain * this type by using the {@link com.google.gson.reflect.TypeToken} class. For example, * to get the type for {@code Collection}, you should use: *
   * Type typeOfSrc = new TypeToken<Collection<Foo>>(){}.getType();
   * 
* @param writer Writer to which the JSON representation of src needs to be written. * @throws JsonIOException if there was a problem writing to the writer * @since 1.2 * * @see #toJson(Object, Type) * @see #toJson(Object, Appendable) */ public void toJson(Object src, Type typeOfSrc, Appendable writer) throws JsonIOException { try { JsonWriter jsonWriter = newJsonWriter(Streams.writerForAppendable(writer)); toJson(src, typeOfSrc, jsonWriter); } catch (IOException e) { throw new JsonIOException(e); } } /** * Writes the JSON representation of {@code src} of type {@code typeOfSrc} to * {@code writer}. * *

The JSON data is written in {@linkplain JsonWriter#setLenient(boolean) lenient mode}, * regardless of the lenient mode setting of the provided writer. The lenient mode setting * of the writer is restored once this method returns. * *

The 'HTML-safe' and 'serialize {@code null}' settings of this {@code Gson} instance * (configured by the {@link GsonBuilder}) are applied, and the original settings of the * writer are restored once this method returns. * * @throws JsonIOException if there was a problem writing to the writer */ public void toJson(Object src, Type typeOfSrc, JsonWriter writer) throws JsonIOException { @SuppressWarnings("unchecked") TypeAdapter adapter = (TypeAdapter) getAdapter(TypeToken.get(typeOfSrc)); boolean oldLenient = writer.isLenient(); writer.setLenient(true); boolean oldHtmlSafe = writer.isHtmlSafe(); writer.setHtmlSafe(htmlSafe); boolean oldSerializeNulls = writer.getSerializeNulls(); writer.setSerializeNulls(serializeNulls); try { adapter.write(writer, src); } catch (IOException e) { throw new JsonIOException(e); } catch (AssertionError e) { throw new AssertionError("AssertionError (GSON " + GsonBuildConfig.VERSION + "): " + e.getMessage(), e); } finally { writer.setLenient(oldLenient); writer.setHtmlSafe(oldHtmlSafe); writer.setSerializeNulls(oldSerializeNulls); } } /** * Converts a tree of {@link JsonElement}s into its equivalent JSON representation. * * @param jsonElement root of a tree of {@link JsonElement}s * @return JSON String representation of the tree * @since 1.4 */ public String toJson(JsonElement jsonElement) { StringWriter writer = new StringWriter(); toJson(jsonElement, writer); return writer.toString(); } /** * Writes out the equivalent JSON for a tree of {@link JsonElement}s. * * @param jsonElement root of a tree of {@link JsonElement}s * @param writer Writer to which the JSON representation needs to be written * @throws JsonIOException if there was a problem writing to the writer * @since 1.4 */ public void toJson(JsonElement jsonElement, Appendable writer) throws JsonIOException { try { JsonWriter jsonWriter = newJsonWriter(Streams.writerForAppendable(writer)); toJson(jsonElement, jsonWriter); } catch (IOException e) { throw new JsonIOException(e); } } /** * Returns a new JSON writer configured for the settings on this Gson instance. * *

The following settings are considered: *

    *
  • {@link GsonBuilder#disableHtmlEscaping()}
  • *
  • {@link GsonBuilder#generateNonExecutableJson()}
  • *
  • {@link GsonBuilder#serializeNulls()}
  • *
  • {@link GsonBuilder#setLenient()}
  • *
  • {@link GsonBuilder#setPrettyPrinting()}
  • *
*/ public JsonWriter newJsonWriter(Writer writer) throws IOException { if (generateNonExecutableJson) { writer.write(JSON_NON_EXECUTABLE_PREFIX); } JsonWriter jsonWriter = new JsonWriter(writer); if (prettyPrinting) { jsonWriter.setIndent(" "); } jsonWriter.setHtmlSafe(htmlSafe); jsonWriter.setLenient(lenient); jsonWriter.setSerializeNulls(serializeNulls); return jsonWriter; } /** * Returns a new JSON reader configured for the settings on this Gson instance. * *

The following settings are considered: *

    *
  • {@link GsonBuilder#setLenient()}
  • *
*/ public JsonReader newJsonReader(Reader reader) { JsonReader jsonReader = new JsonReader(reader); jsonReader.setLenient(lenient); return jsonReader; } /** * Writes the JSON for {@code jsonElement} to {@code writer}. * *

The JSON data is written in {@linkplain JsonWriter#setLenient(boolean) lenient mode}, * regardless of the lenient mode setting of the provided writer. The lenient mode setting * of the writer is restored once this method returns. * *

The 'HTML-safe' and 'serialize {@code null}' settings of this {@code Gson} instance * (configured by the {@link GsonBuilder}) are applied, and the original settings of the * writer are restored once this method returns. * * @throws JsonIOException if there was a problem writing to the writer */ public void toJson(JsonElement jsonElement, JsonWriter writer) throws JsonIOException { boolean oldLenient = writer.isLenient(); writer.setLenient(true); boolean oldHtmlSafe = writer.isHtmlSafe(); writer.setHtmlSafe(htmlSafe); boolean oldSerializeNulls = writer.getSerializeNulls(); writer.setSerializeNulls(serializeNulls); try { Streams.write(jsonElement, writer); } catch (IOException e) { throw new JsonIOException(e); } catch (AssertionError e) { throw new AssertionError("AssertionError (GSON " + GsonBuildConfig.VERSION + "): " + e.getMessage(), e); } finally { writer.setLenient(oldLenient); writer.setHtmlSafe(oldHtmlSafe); writer.setSerializeNulls(oldSerializeNulls); } } /** * This method deserializes the specified JSON into an object of the specified class. It is not * suitable to use if the specified class is a generic type since it will not have the generic * type information because of the Type Erasure feature of Java. Therefore, this method should not * be used if the desired type is a generic type. Note that this method works fine if the any of * the fields of the specified object are generics, just the object itself should not be a * generic type. For the cases when the object is of generic type, invoke * {@link #fromJson(String, TypeToken)}. If you have the JSON in a {@link Reader} instead of * a String, use {@link #fromJson(Reader, Class)} instead. * *

An exception is thrown if the JSON string has multiple top-level JSON elements, or if there * is trailing data. Use {@link #fromJson(JsonReader, Type)} if this behavior is not desired. * * @param the type of the desired object * @param json the string from which the object is to be deserialized * @param classOfT the class of T * @return an object of type T from the string. Returns {@code null} if {@code json} is {@code null} * or if {@code json} is empty. * @throws JsonSyntaxException if json is not a valid representation for an object of type * classOfT * * @see #fromJson(Reader, Class) * @see #fromJson(String, TypeToken) */ public T fromJson(String json, Class classOfT) throws JsonSyntaxException { T object = fromJson(json, TypeToken.get(classOfT)); return Primitives.wrap(classOfT).cast(object); } /** * This method deserializes the specified JSON into an object of the specified type. This method * is useful if the specified object is a generic type. For non-generic objects, use * {@link #fromJson(String, Class)} instead. If you have the JSON in a {@link Reader} instead of * a String, use {@link #fromJson(Reader, Type)} instead. * *

Since {@code Type} is not parameterized by T, this method is not type-safe and * should be used carefully. If you are creating the {@code Type} from a {@link TypeToken}, * prefer using {@link #fromJson(String, TypeToken)} instead since its return type is based * on the {@code TypeToken} and is therefore more type-safe. * *

An exception is thrown if the JSON string has multiple top-level JSON elements, * or if there is trailing data. Use {@link #fromJson(JsonReader, Type)} if this behavior is * not desired. * * @param the type of the desired object * @param json the string from which the object is to be deserialized * @param typeOfT The specific genericized type of src * @return an object of type T from the string. Returns {@code null} if {@code json} is {@code null} * or if {@code json} is empty. * @throws JsonSyntaxException if json is not a valid representation for an object of type typeOfT * * @see #fromJson(Reader, Type) * @see #fromJson(String, Class) * @see #fromJson(String, TypeToken) */ @SuppressWarnings("unchecked") public T fromJson(String json, Type typeOfT) throws JsonSyntaxException { return (T) fromJson(json, TypeToken.get(typeOfT)); } /** * This method deserializes the specified JSON into an object of the specified type. This method * is useful if the specified object is a generic type. For non-generic objects, use * {@link #fromJson(String, Class)} instead. If you have the JSON in a {@link Reader} instead of * a String, use {@link #fromJson(Reader, TypeToken)} instead. * *

An exception is thrown if the JSON string has multiple top-level JSON elements, or if there * is trailing data. Use {@link #fromJson(JsonReader, TypeToken)} if this behavior is not desired. * * @param the type of the desired object * @param json the string from which the object is to be deserialized * @param typeOfT The specific genericized type of src. You should create an anonymous subclass of * {@code TypeToken} with the specific generic type arguments. For example, to get the type for * {@code Collection}, you should use: *

   * new TypeToken<Collection<Foo>>(){}
   * 
* @return an object of type T from the string. Returns {@code null} if {@code json} is {@code null} * or if {@code json} is empty. * @throws JsonSyntaxException if json is not a valid representation for an object of the type typeOfT * * @see #fromJson(Reader, TypeToken) * @see #fromJson(String, Class) * @since 2.10 */ public T fromJson(String json, TypeToken typeOfT) throws JsonSyntaxException { if (json == null) { return null; } StringReader reader = new StringReader(json); return fromJson(reader, typeOfT); } /** * This method deserializes the JSON read from the specified reader into an object of the * specified class. It is not suitable to use if the specified class is a generic type since it * will not have the generic type information because of the Type Erasure feature of Java. * Therefore, this method should not be used if the desired type is a generic type. Note that * this method works fine if any of the fields of the specified object are generics, just the * object itself should not be a generic type. For the cases when the object is of generic type, * invoke {@link #fromJson(Reader, TypeToken)}. If you have the JSON in a String form instead of a * {@link Reader}, use {@link #fromJson(String, Class)} instead. * *

An exception is thrown if the JSON data has multiple top-level JSON elements, or if there * is trailing data. Use {@link #fromJson(JsonReader, Type)} if this behavior is not desired. * * @param the type of the desired object * @param json the reader producing the JSON from which the object is to be deserialized. * @param classOfT the class of T * @return an object of type T from the Reader. Returns {@code null} if {@code json} is at EOF. * @throws JsonIOException if there was a problem reading from the Reader * @throws JsonSyntaxException if json is not a valid representation for an object of type typeOfT * @since 1.2 * * @see #fromJson(String, Class) * @see #fromJson(Reader, TypeToken) */ public T fromJson(Reader json, Class classOfT) throws JsonSyntaxException, JsonIOException { T object = fromJson(json, TypeToken.get(classOfT)); return Primitives.wrap(classOfT).cast(object); } /** * This method deserializes the JSON read from the specified reader into an object of the * specified type. This method is useful if the specified object is a generic type. For * non-generic objects, use {@link #fromJson(Reader, Class)} instead. If you have the JSON in a * String form instead of a {@link Reader}, use {@link #fromJson(String, Type)} instead. * *

Since {@code Type} is not parameterized by T, this method is not type-safe and * should be used carefully. If you are creating the {@code Type} from a {@link TypeToken}, * prefer using {@link #fromJson(Reader, TypeToken)} instead since its return type is based * on the {@code TypeToken} and is therefore more type-safe. * *

An exception is thrown if the JSON data has multiple top-level JSON elements, or if there * is trailing data. Use {@link #fromJson(JsonReader, Type)} if this behavior is not desired. * * @param the type of the desired object * @param json the reader producing JSON from which the object is to be deserialized * @param typeOfT The specific genericized type of src * @return an object of type T from the Reader. Returns {@code null} if {@code json} is at EOF. * @throws JsonIOException if there was a problem reading from the Reader * @throws JsonSyntaxException if json is not a valid representation for an object of type typeOfT * @since 1.2 * * @see #fromJson(String, Type) * @see #fromJson(Reader, Class) * @see #fromJson(Reader, TypeToken) */ @SuppressWarnings("unchecked") public T fromJson(Reader json, Type typeOfT) throws JsonIOException, JsonSyntaxException { return (T) fromJson(json, TypeToken.get(typeOfT)); } /** * This method deserializes the JSON read from the specified reader into an object of the * specified type. This method is useful if the specified object is a generic type. For * non-generic objects, use {@link #fromJson(Reader, Class)} instead. If you have the JSON in a * String form instead of a {@link Reader}, use {@link #fromJson(String, TypeToken)} instead. * *

An exception is thrown if the JSON data has multiple top-level JSON elements, or if there * is trailing data. Use {@link #fromJson(JsonReader, TypeToken)} if this behavior is not desired. * * @param the type of the desired object * @param json the reader producing JSON from which the object is to be deserialized * @param typeOfT The specific genericized type of src. You should create an anonymous subclass of * {@code TypeToken} with the specific generic type arguments. For example, to get the type for * {@code Collection}, you should use: *

   * new TypeToken<Collection<Foo>>(){}
   * 
* @return an object of type T from the Reader. Returns {@code null} if {@code json} is at EOF. * @throws JsonIOException if there was a problem reading from the Reader * @throws JsonSyntaxException if json is not a valid representation for an object of type of typeOfT * * @see #fromJson(String, TypeToken) * @see #fromJson(Reader, Class) * @since 2.10 */ public T fromJson(Reader json, TypeToken typeOfT) throws JsonIOException, JsonSyntaxException { JsonReader jsonReader = newJsonReader(json); T object = fromJson(jsonReader, typeOfT); assertFullConsumption(object, jsonReader); return object; } private static void assertFullConsumption(Object obj, JsonReader reader) { try { if (obj != null && reader.peek() != JsonToken.END_DOCUMENT) { throw new JsonSyntaxException("JSON document was not fully consumed."); } } catch (MalformedJsonException e) { throw new JsonSyntaxException(e); } catch (IOException e) { throw new JsonIOException(e); } } // fromJson(JsonReader, Class) is unfortunately missing and cannot be added now without breaking // source compatibility in certain cases, see https://github.com/google/gson/pull/1700#discussion_r973764414 /** * Reads the next JSON value from {@code reader} and converts it to an object * of type {@code typeOfT}. Returns {@code null}, if the {@code reader} is at EOF. * *

Since {@code Type} is not parameterized by T, this method is not type-safe and * should be used carefully. If you are creating the {@code Type} from a {@link TypeToken}, * prefer using {@link #fromJson(JsonReader, TypeToken)} instead since its return type is based * on the {@code TypeToken} and is therefore more type-safe. If the provided type is a * {@code Class} the {@code TypeToken} can be created with {@link TypeToken#get(Class)}. * *

Unlike the other {@code fromJson} methods, no exception is thrown if the JSON data has * multiple top-level JSON elements, or if there is trailing data. * *

The JSON data is parsed in {@linkplain JsonReader#setLenient(boolean) lenient mode}, * regardless of the lenient mode setting of the provided reader. The lenient mode setting * of the reader is restored once this method returns. * * @param the type of the desired object * @param reader the reader whose next JSON value should be deserialized * @param typeOfT The specific genericized type of src * @return an object of type T from the JsonReader. Returns {@code null} if {@code reader} is at EOF. * @throws JsonIOException if there was a problem reading from the JsonReader * @throws JsonSyntaxException if json is not a valid representation for an object of type typeOfT * * @see #fromJson(Reader, Type) * @see #fromJson(JsonReader, TypeToken) */ @SuppressWarnings("unchecked") public T fromJson(JsonReader reader, Type typeOfT) throws JsonIOException, JsonSyntaxException { return (T) fromJson(reader, TypeToken.get(typeOfT)); } /** * Reads the next JSON value from {@code reader} and converts it to an object * of type {@code typeOfT}. Returns {@code null}, if the {@code reader} is at EOF. * This method is useful if the specified object is a generic type. For non-generic objects, * {@link #fromJson(JsonReader, Type)} can be called, or {@link TypeToken#get(Class)} can * be used to create the type token. * *

Unlike the other {@code fromJson} methods, no exception is thrown if the JSON data has * multiple top-level JSON elements, or if there is trailing data. * *

The JSON data is parsed in {@linkplain JsonReader#setLenient(boolean) lenient mode}, * regardless of the lenient mode setting of the provided reader. The lenient mode setting * of the reader is restored once this method returns. * * @param the type of the desired object * @param reader the reader whose next JSON value should be deserialized * @param typeOfT The specific genericized type of src. You should create an anonymous subclass of * {@code TypeToken} with the specific generic type arguments. For example, to get the type for * {@code Collection}, you should use: *

   * new TypeToken<Collection<Foo>>(){}
   * 
* @return an object of type T from the JsonReader. Returns {@code null} if {@code reader} is at EOF. * @throws JsonIOException if there was a problem reading from the JsonReader * @throws JsonSyntaxException if json is not a valid representation for an object of the type typeOfT * * @see #fromJson(Reader, TypeToken) * @see #fromJson(JsonReader, Type) * @since 2.10 */ public T fromJson(JsonReader reader, TypeToken typeOfT) throws JsonIOException, JsonSyntaxException { boolean isEmpty = true; boolean oldLenient = reader.isLenient(); reader.setLenient(true); try { reader.peek(); isEmpty = false; TypeAdapter typeAdapter = getAdapter(typeOfT); return typeAdapter.read(reader); } catch (EOFException e) { /* * For compatibility with JSON 1.5 and earlier, we return null for empty * documents instead of throwing. */ if (isEmpty) { return null; } throw new JsonSyntaxException(e); } catch (IllegalStateException e) { throw new JsonSyntaxException(e); } catch (IOException e) { // TODO(inder): Figure out whether it is indeed right to rethrow this as JsonSyntaxException throw new JsonSyntaxException(e); } catch (AssertionError e) { throw new AssertionError("AssertionError (GSON " + GsonBuildConfig.VERSION + "): " + e.getMessage(), e); } finally { reader.setLenient(oldLenient); } } /** * This method deserializes the JSON read from the specified parse tree into an object of the * specified type. It is not suitable to use if the specified class is a generic type since it * will not have the generic type information because of the Type Erasure feature of Java. * Therefore, this method should not be used if the desired type is a generic type. Note that * this method works fine if any of the fields of the specified object are generics, just the * object itself should not be a generic type. For the cases when the object is of generic type, * invoke {@link #fromJson(JsonElement, TypeToken)}. * * @param the type of the desired object * @param json the root of the parse tree of {@link JsonElement}s from which the object is to * be deserialized * @param classOfT The class of T * @return an object of type T from the JSON. Returns {@code null} if {@code json} is {@code null} * or if {@code json} is empty. * @throws JsonSyntaxException if json is not a valid representation for an object of type classOfT * @since 1.3 * * @see #fromJson(Reader, Class) * @see #fromJson(JsonElement, TypeToken) */ public T fromJson(JsonElement json, Class classOfT) throws JsonSyntaxException { T object = fromJson(json, TypeToken.get(classOfT)); return Primitives.wrap(classOfT).cast(object); } /** * This method deserializes the JSON read from the specified parse tree into an object of the * specified type. This method is useful if the specified object is a generic type. For * non-generic objects, use {@link #fromJson(JsonElement, Class)} instead. * *

Since {@code Type} is not parameterized by T, this method is not type-safe and * should be used carefully. If you are creating the {@code Type} from a {@link TypeToken}, * prefer using {@link #fromJson(JsonElement, TypeToken)} instead since its return type is based * on the {@code TypeToken} and is therefore more type-safe. * * @param the type of the desired object * @param json the root of the parse tree of {@link JsonElement}s from which the object is to * be deserialized * @param typeOfT The specific genericized type of src * @return an object of type T from the JSON. Returns {@code null} if {@code json} is {@code null} * or if {@code json} is empty. * @throws JsonSyntaxException if json is not a valid representation for an object of type typeOfT * @since 1.3 * * @see #fromJson(Reader, Type) * @see #fromJson(JsonElement, Class) * @see #fromJson(JsonElement, TypeToken) */ @SuppressWarnings("unchecked") public T fromJson(JsonElement json, Type typeOfT) throws JsonSyntaxException { return (T) fromJson(json, TypeToken.get(typeOfT)); } /** * This method deserializes the JSON read from the specified parse tree into an object of the * specified type. This method is useful if the specified object is a generic type. For * non-generic objects, use {@link #fromJson(JsonElement, Class)} instead. * * @param the type of the desired object * @param json the root of the parse tree of {@link JsonElement}s from which the object is to * be deserialized * @param typeOfT The specific genericized type of src. You should create an anonymous subclass of * {@code TypeToken} with the specific generic type arguments. For example, to get the type for * {@code Collection}, you should use: *

   * new TypeToken<Collection<Foo>>(){}
   * 
* @return an object of type T from the JSON. Returns {@code null} if {@code json} is {@code null} * or if {@code json} is empty. * @throws JsonSyntaxException if json is not a valid representation for an object of type typeOfT * * @see #fromJson(Reader, TypeToken) * @see #fromJson(JsonElement, Class) * @since 2.10 */ public T fromJson(JsonElement json, TypeToken typeOfT) throws JsonSyntaxException { if (json == null) { return null; } return fromJson(new JsonTreeReader(json), typeOfT); } /** * Proxy type adapter for cyclic type graphs. * *

Important: Setting the delegate adapter is not thread-safe; instances of * {@code FutureTypeAdapter} must only be published to other threads after the delegate * has been set. * * @see Gson#threadLocalAdapterResults */ static class FutureTypeAdapter extends SerializationDelegatingTypeAdapter { private TypeAdapter delegate = null; public void setDelegate(TypeAdapter typeAdapter) { if (delegate != null) { throw new AssertionError("Delegate is already set"); } delegate = typeAdapter; } private TypeAdapter delegate() { TypeAdapter delegate = this.delegate; if (delegate == null) { // Can occur when adapter is leaked to other thread or when adapter is used for (de-)serialization // directly within the TypeAdapterFactory which requested it throw new IllegalStateException("Adapter for type with cyclic dependency has been used" + " before dependency has been resolved"); } return delegate; } @Override public TypeAdapter getSerializationDelegate() { return delegate(); } @Override public T read(JsonReader in) throws IOException { return delegate().read(in); } @Override public void write(JsonWriter out, T value) throws IOException { delegate().write(out, value); } } @Override public String toString() { return "{serializeNulls:" + serializeNulls + ",factories:" + factories + ",instanceCreators:" + constructorConstructor + "}"; } }