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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 static com.google.gson.Gson.DEFAULT_COMPLEX_MAP_KEYS;
import static com.google.gson.Gson.DEFAULT_DATE_PATTERN;
import static com.google.gson.Gson.DEFAULT_ESCAPE_HTML;
import static com.google.gson.Gson.DEFAULT_JSON_NON_EXECUTABLE;
import static com.google.gson.Gson.DEFAULT_LENIENT;
import static com.google.gson.Gson.DEFAULT_NUMBER_TO_NUMBER_STRATEGY;
import static com.google.gson.Gson.DEFAULT_OBJECT_TO_NUMBER_STRATEGY;
import static com.google.gson.Gson.DEFAULT_PRETTY_PRINT;
import static com.google.gson.Gson.DEFAULT_SERIALIZE_NULLS;
import static com.google.gson.Gson.DEFAULT_SPECIALIZE_FLOAT_VALUES;
import static com.google.gson.Gson.DEFAULT_USE_JDK_UNSAFE;

import com.google.gson.annotations.Since;
import com.google.gson.annotations.Until;
import com.google.gson.internal.$Gson$Preconditions;
import com.google.gson.internal.Excluder;
import com.google.gson.internal.bind.DefaultDateTypeAdapter;
import com.google.gson.internal.bind.TreeTypeAdapter;
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.JsonWriter;
import java.lang.reflect.Type;
import java.text.DateFormat;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Date;
import java.util.HashMap;
import java.util.LinkedList;
import java.util.List;
import java.util.Map;
import java.util.Objects;

/**
 * 

Use this builder to construct a {@link Gson} instance when you need to set configuration * options other than the default. For {@link Gson} with default configuration, it is simpler to * use {@code new Gson()}. {@code GsonBuilder} is best used by creating it, and then invoking its * various configuration methods, and finally calling create.

* *

The following is an example shows how to use the {@code GsonBuilder} to construct a Gson * instance: * *

 * Gson gson = new GsonBuilder()
 *     .registerTypeAdapter(Id.class, new IdTypeAdapter())
 *     .enableComplexMapKeySerialization()
 *     .serializeNulls()
 *     .setDateFormat(DateFormat.LONG)
 *     .setFieldNamingPolicy(FieldNamingPolicy.UPPER_CAMEL_CASE)
 *     .setPrettyPrinting()
 *     .setVersion(1.0)
 *     .create();
 * 
* *

NOTES: *

    *
  • the order of invocation of configuration methods does not matter.
  • *
  • The default serialization of {@link Date} and its subclasses in Gson does * not contain time-zone information. So, if you are using date/time instances, * use {@code GsonBuilder} and its {@code setDateFormat} methods.
  • *
* * @author Inderjeet Singh * @author Joel Leitch * @author Jesse Wilson */ public final class GsonBuilder { private Excluder excluder = Excluder.DEFAULT; private LongSerializationPolicy longSerializationPolicy = LongSerializationPolicy.DEFAULT; private FieldNamingStrategy fieldNamingPolicy = FieldNamingPolicy.IDENTITY; private final Map> instanceCreators = new HashMap<>(); private final List factories = new ArrayList<>(); /** tree-style hierarchy factories. These come after factories for backwards compatibility. */ private final List hierarchyFactories = new ArrayList<>(); private boolean serializeNulls = DEFAULT_SERIALIZE_NULLS; private String datePattern = DEFAULT_DATE_PATTERN; private int dateStyle = DateFormat.DEFAULT; private int timeStyle = DateFormat.DEFAULT; private boolean complexMapKeySerialization = DEFAULT_COMPLEX_MAP_KEYS; private boolean serializeSpecialFloatingPointValues = DEFAULT_SPECIALIZE_FLOAT_VALUES; private boolean escapeHtmlChars = DEFAULT_ESCAPE_HTML; private boolean prettyPrinting = DEFAULT_PRETTY_PRINT; private boolean generateNonExecutableJson = DEFAULT_JSON_NON_EXECUTABLE; private boolean lenient = DEFAULT_LENIENT; private boolean useJdkUnsafe = DEFAULT_USE_JDK_UNSAFE; private ToNumberStrategy objectToNumberStrategy = DEFAULT_OBJECT_TO_NUMBER_STRATEGY; private ToNumberStrategy numberToNumberStrategy = DEFAULT_NUMBER_TO_NUMBER_STRATEGY; private final LinkedList reflectionFilters = new LinkedList<>(); /** * Creates a GsonBuilder instance that can be used to build Gson with various configuration * settings. GsonBuilder follows the builder pattern, and it is typically used by first * invoking various configuration methods to set desired options, and finally calling * {@link #create()}. */ public GsonBuilder() { } /** * Constructs a GsonBuilder instance from a Gson instance. The newly constructed GsonBuilder * has the same configuration as the previously built Gson instance. * * @param gson the gson instance whose configuration should by applied to a new GsonBuilder. */ GsonBuilder(Gson gson) { this.excluder = gson.excluder; this.fieldNamingPolicy = gson.fieldNamingStrategy; this.instanceCreators.putAll(gson.instanceCreators); this.serializeNulls = gson.serializeNulls; this.complexMapKeySerialization = gson.complexMapKeySerialization; this.generateNonExecutableJson = gson.generateNonExecutableJson; this.escapeHtmlChars = gson.htmlSafe; this.prettyPrinting = gson.prettyPrinting; this.lenient = gson.lenient; this.serializeSpecialFloatingPointValues = gson.serializeSpecialFloatingPointValues; this.longSerializationPolicy = gson.longSerializationPolicy; this.datePattern = gson.datePattern; this.dateStyle = gson.dateStyle; this.timeStyle = gson.timeStyle; this.factories.addAll(gson.builderFactories); this.hierarchyFactories.addAll(gson.builderHierarchyFactories); this.useJdkUnsafe = gson.useJdkUnsafe; this.objectToNumberStrategy = gson.objectToNumberStrategy; this.numberToNumberStrategy = gson.numberToNumberStrategy; this.reflectionFilters.addAll(gson.reflectionFilters); } /** * Configures Gson to enable versioning support. Versioning support works based on the * annotation types {@link Since} and {@link Until}. It allows including or excluding fields * and classes based on the specified version. See the documentation of these annotation * types for more information. * *

By default versioning support is disabled and usage of {@code @Since} and {@code @Until} * has no effect. * * @param version the version number to use. * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern * @throws IllegalArgumentException if the version number is NaN or negative * @see Since * @see Until */ public GsonBuilder setVersion(double version) { if (Double.isNaN(version) || version < 0.0) { throw new IllegalArgumentException("Invalid version: " + version); } excluder = excluder.withVersion(version); return this; } /** * Configures Gson to excludes all class fields that have the specified modifiers. By default, * Gson will exclude all fields marked {@code transient} or {@code static}. This method will * override that behavior. * *

This is a convenience method which behaves as if an {@link ExclusionStrategy} which * excludes these fields was {@linkplain #setExclusionStrategies(ExclusionStrategy...) registered with this builder}. * * @param modifiers the field modifiers. You must use the modifiers specified in the * {@link java.lang.reflect.Modifier} class. For example, * {@link java.lang.reflect.Modifier#TRANSIENT}, * {@link java.lang.reflect.Modifier#STATIC}. * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern */ public GsonBuilder excludeFieldsWithModifiers(int... modifiers) { Objects.requireNonNull(modifiers); excluder = excluder.withModifiers(modifiers); return this; } /** * Makes the output JSON non-executable in Javascript by prefixing the generated JSON with some * special text. This prevents attacks from third-party sites through script sourcing. See * Gson Issue 42 * for details. * * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern * @since 1.3 */ public GsonBuilder generateNonExecutableJson() { this.generateNonExecutableJson = true; return this; } /** * Configures Gson to exclude all fields from consideration for serialization and deserialization * that do not have the {@link com.google.gson.annotations.Expose} annotation. * *

This is a convenience method which behaves as if an {@link ExclusionStrategy} which excludes * these fields was {@linkplain #setExclusionStrategies(ExclusionStrategy...) registered with this builder}. * * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern */ public GsonBuilder excludeFieldsWithoutExposeAnnotation() { excluder = excluder.excludeFieldsWithoutExposeAnnotation(); return this; } /** * Configure Gson to serialize null fields. By default, Gson omits all fields that are null * during serialization. * * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern * @since 1.2 */ public GsonBuilder serializeNulls() { this.serializeNulls = true; return this; } /** * Enabling this feature will only change the serialized form if the map key is * a complex type (i.e. non-primitive) in its serialized JSON * form. The default implementation of map serialization uses {@code toString()} * on the key; however, when this is called then one of the following cases * apply: * *

Maps as JSON objects * *

For this case, assume that a type adapter is registered to serialize and * deserialize some {@code Point} class, which contains an x and y coordinate, * to/from the JSON Primitive string value {@code "(x,y)"}. The Java map would * then be serialized as a {@link JsonObject}. * *

Below is an example: *

  {@code
   *   Gson gson = new GsonBuilder()
   *       .register(Point.class, new MyPointTypeAdapter())
   *       .enableComplexMapKeySerialization()
   *       .create();
   *
   *   Map original = new LinkedHashMap<>();
   *   original.put(new Point(5, 6), "a");
   *   original.put(new Point(8, 8), "b");
   *   System.out.println(gson.toJson(original, type));
   * }
* The above code prints this JSON object:
  {@code
   *   {
   *     "(5,6)": "a",
   *     "(8,8)": "b"
   *   }
   * }
* *

Maps as JSON arrays * *

For this case, assume that a type adapter was NOT registered for some * {@code Point} class, but rather the default Gson serialization is applied. * In this case, some {@code new Point(2,3)} would serialize as {@code * {"x":2,"y":3}}. * *

Given the assumption above, a {@code Map} will be * serialize as an array of arrays (can be viewed as an entry set of pairs). * *

Below is an example of serializing complex types as JSON arrays: *

 {@code
   *   Gson gson = new GsonBuilder()
   *       .enableComplexMapKeySerialization()
   *       .create();
   *
   *   Map original = new LinkedHashMap<>();
   *   original.put(new Point(5, 6), "a");
   *   original.put(new Point(8, 8), "b");
   *   System.out.println(gson.toJson(original, type));
   * }
   * 
* * The JSON output would look as follows: *
   {@code
   *   [
   *     [
   *       {
   *         "x": 5,
   *         "y": 6
   *       },
   *       "a"
   *     ],
   *     [
   *       {
   *         "x": 8,
   *         "y": 8
   *       },
   *       "b"
   *     ]
   *   ]
   * }
* * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern * @since 1.7 */ public GsonBuilder enableComplexMapKeySerialization() { complexMapKeySerialization = true; return this; } /** * Configures Gson to exclude inner classes (= non-{@code static} nested classes) during serialization * and deserialization. This is a convenience method which behaves as if an {@link ExclusionStrategy} * which excludes inner classes was {@linkplain #setExclusionStrategies(ExclusionStrategy...) registered with this builder}. * This means inner classes will be serialized as JSON {@code null}, and will be deserialized as * Java {@code null} with their JSON data being ignored. And fields with an inner class as type will * be ignored during serialization and deserialization. * *

By default Gson serializes and deserializes inner classes, but ignores references to the * enclosing instance. Deserialization might not be possible at all when {@link #disableJdkUnsafe()} * is used (and no custom {@link InstanceCreator} is registered), or it can lead to unexpected * {@code NullPointerException}s when the deserialized instance is used afterwards. * *

In general using inner classes with Gson should be avoided; they should be converted to {@code static} * nested classes if possible. * * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern * @since 1.3 */ public GsonBuilder disableInnerClassSerialization() { excluder = excluder.disableInnerClassSerialization(); return this; } /** * Configures Gson to apply a specific serialization policy for {@code Long} and {@code long} * objects. * * @param serializationPolicy the particular policy to use for serializing longs. * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern * @since 1.3 */ public GsonBuilder setLongSerializationPolicy(LongSerializationPolicy serializationPolicy) { this.longSerializationPolicy = Objects.requireNonNull(serializationPolicy); return this; } /** * Configures Gson to apply a specific naming policy to an object's fields during serialization * and deserialization. * *

This method just delegates to {@link #setFieldNamingStrategy(FieldNamingStrategy)}. */ public GsonBuilder setFieldNamingPolicy(FieldNamingPolicy namingConvention) { return setFieldNamingStrategy(namingConvention); } /** * Configures Gson to apply a specific naming strategy to an object's fields during * serialization and deserialization. * *

The created Gson instance might only use the field naming strategy once for a * field and cache the result. It is not guaranteed that the strategy will be used * again every time the value of a field is serialized or deserialized. * * @param fieldNamingStrategy the naming strategy to apply to the fields * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern * @since 1.3 */ public GsonBuilder setFieldNamingStrategy(FieldNamingStrategy fieldNamingStrategy) { this.fieldNamingPolicy = Objects.requireNonNull(fieldNamingStrategy); return this; } /** * Configures Gson to apply a specific number strategy during deserialization of {@link Object}. * * @param objectToNumberStrategy the actual object-to-number strategy * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern * @see ToNumberPolicy#DOUBLE The default object-to-number strategy * @since 2.8.9 */ public GsonBuilder setObjectToNumberStrategy(ToNumberStrategy objectToNumberStrategy) { this.objectToNumberStrategy = Objects.requireNonNull(objectToNumberStrategy); return this; } /** * Configures Gson to apply a specific number strategy during deserialization of {@link Number}. * * @param numberToNumberStrategy the actual number-to-number strategy * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern * @see ToNumberPolicy#LAZILY_PARSED_NUMBER The default number-to-number strategy * @since 2.8.9 */ public GsonBuilder setNumberToNumberStrategy(ToNumberStrategy numberToNumberStrategy) { this.numberToNumberStrategy = Objects.requireNonNull(numberToNumberStrategy); return this; } /** * Configures Gson to apply a set of exclusion strategies during both serialization and * deserialization. Each of the {@code strategies} will be applied as a disjunction rule. * This means that if one of the {@code strategies} suggests that a field (or class) should be * skipped then that field (or object) is skipped during serialization/deserialization. * The strategies are added to the existing strategies (if any); the existing strategies * are not replaced. * *

Fields are excluded for serialization and deserialization when * {@link ExclusionStrategy#shouldSkipField(FieldAttributes) shouldSkipField} returns {@code true}, * or when {@link ExclusionStrategy#shouldSkipClass(Class) shouldSkipClass} returns {@code true} * for the field type. Gson behaves as if the field did not exist; its value is not serialized * and on deserialization if a JSON member with this name exists it is skipped by default.
* When objects of an excluded type (as determined by * {@link ExclusionStrategy#shouldSkipClass(Class) shouldSkipClass}) are serialized a * JSON null is written to output, and when deserialized the JSON value is skipped and * {@code null} is returned. * *

The created Gson instance might only use an exclusion strategy once for a field or * class and cache the result. It is not guaranteed that the strategy will be used again * every time the value of a field or a class is serialized or deserialized. * * @param strategies the set of strategy object to apply during object (de)serialization. * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern * @since 1.4 */ public GsonBuilder setExclusionStrategies(ExclusionStrategy... strategies) { Objects.requireNonNull(strategies); for (ExclusionStrategy strategy : strategies) { excluder = excluder.withExclusionStrategy(strategy, true, true); } return this; } /** * Configures Gson to apply the passed in exclusion strategy during serialization. * If this method is invoked numerous times with different exclusion strategy objects * then the exclusion strategies that were added will be applied as a disjunction rule. * This means that if one of the added exclusion strategies suggests that a field (or * class) should be skipped then that field (or object) is skipped during its * serialization. * *

See the documentation of {@link #setExclusionStrategies(ExclusionStrategy...)} * for a detailed description of the effect of exclusion strategies. * * @param strategy an exclusion strategy to apply during serialization. * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern * @since 1.7 */ public GsonBuilder addSerializationExclusionStrategy(ExclusionStrategy strategy) { Objects.requireNonNull(strategy); excluder = excluder.withExclusionStrategy(strategy, true, false); return this; } /** * Configures Gson to apply the passed in exclusion strategy during deserialization. * If this method is invoked numerous times with different exclusion strategy objects * then the exclusion strategies that were added will be applied as a disjunction rule. * This means that if one of the added exclusion strategies suggests that a field (or * class) should be skipped then that field (or object) is skipped during its * deserialization. * *

See the documentation of {@link #setExclusionStrategies(ExclusionStrategy...)} * for a detailed description of the effect of exclusion strategies. * * @param strategy an exclusion strategy to apply during deserialization. * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern * @since 1.7 */ public GsonBuilder addDeserializationExclusionStrategy(ExclusionStrategy strategy) { Objects.requireNonNull(strategy); excluder = excluder.withExclusionStrategy(strategy, false, true); return this; } /** * Configures Gson to output Json that fits in a page for pretty printing. This option only * affects Json serialization. * * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern */ public GsonBuilder setPrettyPrinting() { prettyPrinting = true; return this; } /** * Configures Gson to allow JSON data which does not strictly comply with the JSON specification. * *

Note: Due to legacy reasons most methods of Gson are always lenient, regardless of * whether this builder method is used. * * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern * @see JsonReader#setLenient(boolean) * @see JsonWriter#setLenient(boolean) */ public GsonBuilder setLenient() { lenient = true; return this; } /** * By default, Gson escapes HTML characters such as < > etc. Use this option to configure * Gson to pass-through HTML characters as is. * * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern * @since 1.3 */ public GsonBuilder disableHtmlEscaping() { this.escapeHtmlChars = false; return this; } /** * Configures Gson to serialize {@code Date} objects according to the pattern provided. You can * call this method or {@link #setDateFormat(int)} multiple times, but only the last invocation * will be used to decide the serialization format. * *

The date format will be used to serialize and deserialize {@link java.util.Date} and in case * the {@code java.sql} module is present, also {@link java.sql.Timestamp} and {@link java.sql.Date}. * *

Note that this pattern must abide by the convention provided by {@code SimpleDateFormat} * class. See the documentation in {@link java.text.SimpleDateFormat} for more information on * valid date and time patterns.

* * @param pattern the pattern that dates will be serialized/deserialized to/from * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern * @since 1.2 */ public GsonBuilder setDateFormat(String pattern) { // TODO(Joel): Make this fail fast if it is an invalid date format this.datePattern = pattern; return this; } /** * Configures Gson to to serialize {@code Date} objects according to the style value provided. * You can call this method or {@link #setDateFormat(String)} multiple times, but only the last * invocation will be used to decide the serialization format. * *

Note that this style value should be one of the predefined constants in the * {@code DateFormat} class. See the documentation in {@link java.text.DateFormat} for more * information on the valid style constants.

* * @param style the predefined date style that date objects will be serialized/deserialized * to/from * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern * @since 1.2 */ public GsonBuilder setDateFormat(int style) { this.dateStyle = style; this.datePattern = null; return this; } /** * Configures Gson to to serialize {@code Date} objects according to the style value provided. * You can call this method or {@link #setDateFormat(String)} multiple times, but only the last * invocation will be used to decide the serialization format. * *

Note that this style value should be one of the predefined constants in the * {@code DateFormat} class. See the documentation in {@link java.text.DateFormat} for more * information on the valid style constants.

* * @param dateStyle the predefined date style that date objects will be serialized/deserialized * to/from * @param timeStyle the predefined style for the time portion of the date objects * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern * @since 1.2 */ public GsonBuilder setDateFormat(int dateStyle, int timeStyle) { this.dateStyle = dateStyle; this.timeStyle = timeStyle; this.datePattern = null; return this; } /** * Configures Gson for custom serialization or deserialization. This method combines the * registration of an {@link TypeAdapter}, {@link InstanceCreator}, {@link JsonSerializer}, and a * {@link JsonDeserializer}. It is best used when a single object {@code typeAdapter} implements * all the required interfaces for custom serialization with Gson. If a type adapter was * previously registered for the specified {@code type}, it is overwritten. * *

This registers the type specified and no other types: you must manually register related * types! For example, applications registering {@code boolean.class} should also register {@code * Boolean.class}. * *

{@link JsonSerializer} and {@link JsonDeserializer} are made "{@code null}-safe". This * means when trying to serialize {@code null}, Gson will write a JSON {@code null} and the * serializer is not called. Similarly when deserializing a JSON {@code null}, Gson will emit * {@code null} without calling the deserializer. If it is desired to handle {@code null} values, * a {@link TypeAdapter} should be used instead. * * @param type the type definition for the type adapter being registered * @param typeAdapter This object must implement at least one of the {@link TypeAdapter}, * {@link InstanceCreator}, {@link JsonSerializer}, and a {@link JsonDeserializer} interfaces. * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern */ public GsonBuilder registerTypeAdapter(Type type, Object typeAdapter) { Objects.requireNonNull(type); $Gson$Preconditions.checkArgument(typeAdapter instanceof JsonSerializer || typeAdapter instanceof JsonDeserializer || typeAdapter instanceof InstanceCreator || typeAdapter instanceof TypeAdapter); if (typeAdapter instanceof InstanceCreator) { instanceCreators.put(type, (InstanceCreator) typeAdapter); } if (typeAdapter instanceof JsonSerializer || typeAdapter instanceof JsonDeserializer) { TypeToken typeToken = TypeToken.get(type); factories.add(TreeTypeAdapter.newFactoryWithMatchRawType(typeToken, typeAdapter)); } if (typeAdapter instanceof TypeAdapter) { @SuppressWarnings({"unchecked", "rawtypes"}) TypeAdapterFactory factory = TypeAdapters.newFactory(TypeToken.get(type), (TypeAdapter)typeAdapter); factories.add(factory); } return this; } /** * Register a factory for type adapters. Registering a factory is useful when the type * adapter needs to be configured based on the type of the field being processed. Gson * is designed to handle a large number of factories, so you should consider registering * them to be at par with registering an individual type adapter. * *

The created Gson instance might only use the factory once to create an adapter for * a specific type and cache the result. It is not guaranteed that the factory will be used * again every time the type is serialized or deserialized. * * @since 2.1 */ public GsonBuilder registerTypeAdapterFactory(TypeAdapterFactory factory) { Objects.requireNonNull(factory); factories.add(factory); return this; } /** * Configures Gson for custom serialization or deserialization for an inheritance type hierarchy. * This method combines the registration of a {@link TypeAdapter}, {@link JsonSerializer} and * a {@link JsonDeserializer}. If a type adapter was previously registered for the specified * type hierarchy, it is overridden. If a type adapter is registered for a specific type in * the type hierarchy, it will be invoked instead of the one registered for the type hierarchy. * * @param baseType the class definition for the type adapter being registered for the base class * or interface * @param typeAdapter This object must implement at least one of {@link TypeAdapter}, * {@link JsonSerializer} or {@link JsonDeserializer} interfaces. * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern * @since 1.7 */ public GsonBuilder registerTypeHierarchyAdapter(Class baseType, Object typeAdapter) { Objects.requireNonNull(baseType); $Gson$Preconditions.checkArgument(typeAdapter instanceof JsonSerializer || typeAdapter instanceof JsonDeserializer || typeAdapter instanceof TypeAdapter); if (typeAdapter instanceof JsonDeserializer || typeAdapter instanceof JsonSerializer) { hierarchyFactories.add(TreeTypeAdapter.newTypeHierarchyFactory(baseType, typeAdapter)); } if (typeAdapter instanceof TypeAdapter) { @SuppressWarnings({"unchecked", "rawtypes"}) TypeAdapterFactory factory = TypeAdapters.newTypeHierarchyFactory(baseType, (TypeAdapter)typeAdapter); factories.add(factory); } return this; } /** * Section 2.4 of JSON specification disallows * special double values (NaN, Infinity, -Infinity). However, * Javascript * specification (see section 4.3.20, 4.3.22, 4.3.23) allows these values as valid Javascript * values. Moreover, most JavaScript engines will accept these special values in JSON without * problem. So, at a practical level, it makes sense to accept these values as valid JSON even * though JSON specification disallows them. * *

Gson always accepts these special values during deserialization. However, it outputs * strictly compliant JSON. Hence, if it encounters a float value {@link Float#NaN}, * {@link Float#POSITIVE_INFINITY}, {@link Float#NEGATIVE_INFINITY}, or a double value * {@link Double#NaN}, {@link Double#POSITIVE_INFINITY}, {@link Double#NEGATIVE_INFINITY}, it * will throw an {@link IllegalArgumentException}. This method provides a way to override the * default behavior when you know that the JSON receiver will be able to handle these special * values. * * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern * @since 1.3 */ public GsonBuilder serializeSpecialFloatingPointValues() { this.serializeSpecialFloatingPointValues = true; return this; } /** * Disables usage of JDK's {@code sun.misc.Unsafe}. * *

By default Gson uses {@code Unsafe} to create instances of classes which don't have * a no-args constructor. However, {@code Unsafe} might not be available for all Java * runtimes. For example Android does not provide {@code Unsafe}, or only with limited * functionality. Additionally {@code Unsafe} creates instances without executing any * constructor or initializer block, or performing initialization of field values. This can * lead to surprising and difficult to debug errors. * Therefore, to get reliable behavior regardless of which runtime is used, and to detect * classes which cannot be deserialized in an early stage of development, this method allows * disabling usage of {@code Unsafe}. * * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern * @since 2.9.0 */ public GsonBuilder disableJdkUnsafe() { this.useJdkUnsafe = false; return this; } /** * Adds a reflection access filter. A reflection access filter prevents Gson from using * reflection for the serialization and deserialization of certain classes. The logic in * the filter specifies which classes those are. * *

Filters will be invoked in reverse registration order, that is, the most recently * added filter will be invoked first. * *

By default Gson has no filters configured and will try to use reflection for * all classes for which no {@link TypeAdapter} has been registered, and for which no * built-in Gson {@code TypeAdapter} exists. * *

The created Gson instance might only use an access filter once for a class or its * members and cache the result. It is not guaranteed that the filter will be used again * every time a class or its members are accessed during serialization or deserialization. * * @param filter filter to add * @return a reference to this {@code GsonBuilder} object to fulfill the "Builder" pattern * @since 2.9.1 */ public GsonBuilder addReflectionAccessFilter(ReflectionAccessFilter filter) { Objects.requireNonNull(filter); reflectionFilters.addFirst(filter); return this; } /** * Creates a {@link Gson} instance based on the current configuration. This method is free of * side-effects to this {@code GsonBuilder} instance and hence can be called multiple times. * * @return an instance of Gson configured with the options currently set in this builder */ public Gson create() { List factories = new ArrayList<>(this.factories.size() + this.hierarchyFactories.size() + 3); factories.addAll(this.factories); Collections.reverse(factories); List hierarchyFactories = new ArrayList<>(this.hierarchyFactories); Collections.reverse(hierarchyFactories); factories.addAll(hierarchyFactories); addTypeAdaptersForDate(datePattern, dateStyle, timeStyle, factories); return new Gson(excluder, fieldNamingPolicy, new HashMap<>(instanceCreators), serializeNulls, complexMapKeySerialization, generateNonExecutableJson, escapeHtmlChars, prettyPrinting, lenient, serializeSpecialFloatingPointValues, useJdkUnsafe, longSerializationPolicy, datePattern, dateStyle, timeStyle, new ArrayList<>(this.factories), new ArrayList<>(this.hierarchyFactories), factories, objectToNumberStrategy, numberToNumberStrategy, new ArrayList<>(reflectionFilters)); } private void addTypeAdaptersForDate(String datePattern, int dateStyle, int timeStyle, List factories) { TypeAdapterFactory dateAdapterFactory; boolean sqlTypesSupported = SqlTypesSupport.SUPPORTS_SQL_TYPES; TypeAdapterFactory sqlTimestampAdapterFactory = null; TypeAdapterFactory sqlDateAdapterFactory = null; if (datePattern != null && !datePattern.trim().isEmpty()) { dateAdapterFactory = DefaultDateTypeAdapter.DateType.DATE.createAdapterFactory(datePattern); if (sqlTypesSupported) { sqlTimestampAdapterFactory = SqlTypesSupport.TIMESTAMP_DATE_TYPE.createAdapterFactory(datePattern); sqlDateAdapterFactory = SqlTypesSupport.DATE_DATE_TYPE.createAdapterFactory(datePattern); } } else if (dateStyle != DateFormat.DEFAULT && timeStyle != DateFormat.DEFAULT) { dateAdapterFactory = DefaultDateTypeAdapter.DateType.DATE.createAdapterFactory(dateStyle, timeStyle); if (sqlTypesSupported) { sqlTimestampAdapterFactory = SqlTypesSupport.TIMESTAMP_DATE_TYPE.createAdapterFactory(dateStyle, timeStyle); sqlDateAdapterFactory = SqlTypesSupport.DATE_DATE_TYPE.createAdapterFactory(dateStyle, timeStyle); } } else { return; } factories.add(dateAdapterFactory); if (sqlTypesSupported) { factories.add(sqlTimestampAdapterFactory); factories.add(sqlDateAdapterFactory); } } }





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