package io.prestosql.jdbc.$internal.jackson.databind.ser;
import java.math.BigDecimal;
import java.math.BigInteger;
import java.net.InetAddress;
import java.net.InetSocketAddress;
import java.nio.ByteBuffer;
import java.util.*;
import java.util.concurrent.atomic.AtomicReference;
import io.prestosql.jdbc.$internal.jackson.annotation.JsonFormat;
import io.prestosql.jdbc.$internal.jackson.annotation.JsonIgnoreProperties;
import io.prestosql.jdbc.$internal.jackson.annotation.JsonInclude;
import io.prestosql.jdbc.$internal.jackson.databind.*;
import io.prestosql.jdbc.$internal.jackson.databind.annotation.JsonSerialize;
import io.prestosql.jdbc.$internal.jackson.databind.cfg.SerializerFactoryConfig;
import io.prestosql.jdbc.$internal.jackson.databind.ext.OptionalHandlerFactory;
import io.prestosql.jdbc.$internal.jackson.databind.introspect.*;
import io.prestosql.jdbc.$internal.jackson.databind.jsontype.NamedType;
import io.prestosql.jdbc.$internal.jackson.databind.jsontype.TypeResolverBuilder;
import io.prestosql.jdbc.$internal.jackson.databind.jsontype.TypeSerializer;
import io.prestosql.jdbc.$internal.jackson.databind.ser.impl.*;
import io.prestosql.jdbc.$internal.jackson.databind.ser.std.*;
import io.prestosql.jdbc.$internal.jackson.databind.type.*;
import io.prestosql.jdbc.$internal.jackson.databind.util.*;
/**
* Factory class that can provide serializers for standard JDK classes,
* as well as custom classes that extend standard classes or implement
* one of "well-known" interfaces (such as {@link java.util.Collection}).
*
* Since all the serializers are eagerly instantiated, and there is
* no additional introspection or customizability of these types,
* this factory is essentially stateless.
*/
@SuppressWarnings("serial")
public abstract class BasicSerializerFactory
extends SerializerFactory
implements java.io.Serializable
{
/*
/**********************************************************
/* Configuration, lookup tables/maps
/**********************************************************
*/
/**
* Since these are all JDK classes, we shouldn't have to worry
* about ClassLoader used to load them. Rather, we can just
* use the class name, and keep things simple and efficient.
*/
protected final static HashMap> _concrete;
/**
* Actually it may not make much sense to eagerly instantiate all
* kinds of serializers: so this Map actually contains class references,
* not instances
*/
protected final static HashMap>> _concreteLazy;
static {
HashMap>> concLazy
= new HashMap>>();
HashMap> concrete
= new HashMap>();
/* String and string-like types (note: date types explicitly
* not included -- can use either textual or numeric serialization)
*/
concrete.put(String.class.getName(), new StringSerializer());
final ToStringSerializer sls = ToStringSerializer.instance;
concrete.put(StringBuffer.class.getName(), sls);
concrete.put(StringBuilder.class.getName(), sls);
concrete.put(Character.class.getName(), sls);
concrete.put(Character.TYPE.getName(), sls);
// Primitives/wrappers for primitives (primitives needed for Beans)
NumberSerializers.addAll(concrete);
concrete.put(Boolean.TYPE.getName(), new BooleanSerializer(true));
concrete.put(Boolean.class.getName(), new BooleanSerializer(false));
// Other numbers, more complicated
concrete.put(BigInteger.class.getName(), new NumberSerializer(BigInteger.class));
concrete.put(BigDecimal.class.getName(),new NumberSerializer(BigDecimal.class));
// Other discrete non-container types:
// First, Date/Time zoo:
concrete.put(Calendar.class.getName(), CalendarSerializer.instance);
concrete.put(java.util.Date.class.getName(), DateSerializer.instance);
// And then other standard non-structured JDK types
for (Map.Entry,Object> en : StdJdkSerializers.all()) {
Object value = en.getValue();
if (value instanceof JsonSerializer>) {
concrete.put(en.getKey().getName(), (JsonSerializer>) value);
} else {
@SuppressWarnings("unchecked")
Class extends JsonSerializer>> cls = (Class extends JsonSerializer>>) value;
concLazy.put(en.getKey().getName(), cls);
}
}
// Jackson-specific type(s)
// (Q: can this ever be sub-classed?)
concLazy.put(TokenBuffer.class.getName(), TokenBufferSerializer.class);
_concrete = concrete;
_concreteLazy = concLazy;
}
/*
/**********************************************************
/* Configuration
/**********************************************************
*/
/**
* Configuration settings for this factory; immutable instance (just like this
* factory), new version created via copy-constructor (fluent-style)
*/
protected final SerializerFactoryConfig _factoryConfig;
/*
/**********************************************************
/* Life cycle
/**********************************************************
*/
/**
* We will provide default constructor to allow sub-classing,
* but make it protected so that no non-singleton instances of
* the class will be instantiated.
*/
protected BasicSerializerFactory(SerializerFactoryConfig config) {
_factoryConfig = (config == null) ? new SerializerFactoryConfig() : config;
}
/**
* Method for getting current {@link SerializerFactoryConfig}.
*
* Note that since instances are immutable, you can NOT change settings
* by accessing an instance and calling methods: this will simply create
* new instance of config object.
*/
public SerializerFactoryConfig getFactoryConfig() {
return _factoryConfig;
}
/**
* Method used for creating a new instance of this factory, but with different
* configuration. Reason for specifying factory method (instead of plain constructor)
* is to allow proper sub-classing of factories.
*
* Note that custom sub-classes generally must override implementation
* of this method, as it usually requires instantiating a new instance of
* factory type. Check out javadocs for
* {@link io.prestosql.jdbc.$internal.jackson.databind.ser.BeanSerializerFactory} for more details.
*/
public abstract SerializerFactory withConfig(SerializerFactoryConfig config);
/**
* Convenience method for creating a new factory instance with an additional
* serializer provider.
*/
@Override
public final SerializerFactory withAdditionalSerializers(Serializers additional) {
return withConfig(_factoryConfig.withAdditionalSerializers(additional));
}
/**
* Convenience method for creating a new factory instance with an additional
* key serializer provider.
*/
@Override
public final SerializerFactory withAdditionalKeySerializers(Serializers additional) {
return withConfig(_factoryConfig.withAdditionalKeySerializers(additional));
}
/**
* Convenience method for creating a new factory instance with additional bean
* serializer modifier.
*/
@Override
public final SerializerFactory withSerializerModifier(BeanSerializerModifier modifier) {
return withConfig(_factoryConfig.withSerializerModifier(modifier));
}
/*
/**********************************************************
/* SerializerFactory impl
/**********************************************************
*/
// Implemented by sub-classes
@Override
public abstract JsonSerializer createSerializer(SerializerProvider prov,
JavaType type)
throws JsonMappingException;
@Override // since 2.11
@SuppressWarnings("unchecked")
public JsonSerializer createKeySerializer(SerializerProvider ctxt,
JavaType keyType, JsonSerializer defaultImpl) throws JsonMappingException
{
// 16-Oct-2019, tatu: use to only introspect class annotations but we'll
// need methods too for `@JsonValue` later; and custom lookup might want it, too
final SerializationConfig config = ctxt.getConfig();
BeanDescription beanDesc = config.introspect(keyType);
JsonSerializer> ser = null;
// Minor optimization: to avoid constructing beanDesc, bail out if none registered
if (_factoryConfig.hasKeySerializers()) {
// Only thing we have here are module-provided key serializers:
for (Serializers serializers : _factoryConfig.keySerializers()) {
ser = serializers.findSerializer(config, keyType, beanDesc);
if (ser != null) {
break;
}
}
}
if (ser == null) {
// [databind#2452]: Support `@JsonSerialize(keyUsing = ...)` -- new in 2.11
ser = _findKeySerializer(ctxt, beanDesc.getClassInfo());
if (ser == null) {
ser = defaultImpl;
if (ser == null) {
ser = StdKeySerializers.getStdKeySerializer(config, keyType.getRawClass(), false);
// As per [databind#47], also need to support @JsonValue
if (ser == null) {
AnnotatedMember am = beanDesc.findJsonValueAccessor();
if (am != null) {
final Class> rawType = am.getRawType();
JsonSerializer> delegate = StdKeySerializers.getStdKeySerializer(config,
rawType, true);
if (config.canOverrideAccessModifiers()) {
ClassUtil.checkAndFixAccess(am.getMember(),
config.isEnabled(MapperFeature.OVERRIDE_PUBLIC_ACCESS_MODIFIERS));
}
ser = new JsonValueSerializer(am, delegate);
} else {
ser = StdKeySerializers.getFallbackKeySerializer(config, keyType.getRawClass());
}
}
}
}
}
// [databind#120]: Allow post-processing
if (_factoryConfig.hasSerializerModifiers()) {
for (BeanSerializerModifier mod : _factoryConfig.serializerModifiers()) {
ser = mod.modifyKeySerializer(config, keyType, beanDesc, ser);
}
}
return (JsonSerializer) ser;
}
// Old method: to be removed from 3.0 -- similar to above but can't look for "keyUsing"
@Override
@SuppressWarnings("unchecked")
@Deprecated // since 2.11
public JsonSerializer createKeySerializer(SerializationConfig config,
JavaType keyType, JsonSerializer defaultImpl)
{
BeanDescription beanDesc = config.introspect(keyType);
JsonSerializer> ser = null;
if (_factoryConfig.hasKeySerializers()) {
for (Serializers serializers : _factoryConfig.keySerializers()) {
ser = serializers.findSerializer(config, keyType, beanDesc);
if (ser != null) {
break;
}
}
}
if (ser == null) {
ser = defaultImpl;
if (ser == null) {
ser = StdKeySerializers.getStdKeySerializer(config, keyType.getRawClass(), false);
if (ser == null) {
AnnotatedMember am = beanDesc.findJsonValueAccessor();
if (am != null) {
final Class> rawType = am.getRawType();
JsonSerializer> delegate = StdKeySerializers.getStdKeySerializer(config,
rawType, true);
if (config.canOverrideAccessModifiers()) {
ClassUtil.checkAndFixAccess(am.getMember(),
config.isEnabled(MapperFeature.OVERRIDE_PUBLIC_ACCESS_MODIFIERS));
}
ser = new JsonValueSerializer(am, delegate);
} else {
ser = StdKeySerializers.getFallbackKeySerializer(config, keyType.getRawClass());
}
}
}
}
if (_factoryConfig.hasSerializerModifiers()) {
for (BeanSerializerModifier mod : _factoryConfig.serializerModifiers()) {
ser = mod.modifyKeySerializer(config, keyType, beanDesc, ser);
}
}
return (JsonSerializer) ser;
}
/**
* Method called to construct a type serializer for values with given declared
* base type. This is called for values other than those of bean property
* types.
*/
@Override
public TypeSerializer createTypeSerializer(SerializationConfig config,
JavaType baseType)
{
BeanDescription bean = config.introspectClassAnnotations(baseType.getRawClass());
AnnotatedClass ac = bean.getClassInfo();
AnnotationIntrospector ai = config.getAnnotationIntrospector();
TypeResolverBuilder> b = ai.findTypeResolver(config, ac, baseType);
/* Ok: if there is no explicit type info handler, we may want to
* use a default. If so, config object knows what to use.
*/
Collection subtypes = null;
if (b == null) {
b = config.getDefaultTyper(baseType);
} else {
subtypes = config.getSubtypeResolver().collectAndResolveSubtypesByClass(config, ac);
}
if (b == null) {
return null;
}
// 10-Jun-2015, tatu: Since not created for Bean Property, no need for post-processing
// wrt EXTERNAL_PROPERTY
return b.buildTypeSerializer(config, baseType, subtypes);
}
/*
/**********************************************************
/* Additional API for other core classes
/**********************************************************
*/
protected abstract Iterable customSerializers();
/*
/**********************************************************
/* Overridable secondary serializer accessor methods
/**********************************************************
*/
/**
* Method that will use fast lookup (and identity comparison) methods to
* see if we know serializer to use for given type.
*/
protected final JsonSerializer> findSerializerByLookup(JavaType type,
SerializationConfig config, BeanDescription beanDesc,
boolean staticTyping)
{
Class> raw = type.getRawClass();
String clsName = raw.getName();
JsonSerializer> ser = _concrete.get(clsName);
if (ser == null) {
Class extends JsonSerializer>> serClass = _concreteLazy.get(clsName);
if (serClass != null) {
// 07-Jan-2017, tatu: Should never fail (since we control constructors),
// but if it does will throw `IllegalArgumentException` with description,
// which we could catch, re-title.
return ClassUtil.createInstance(serClass, false);
}
}
return ser;
}
/**
* Method called to see if one of primary per-class annotations
* (or related, like implementing of {@link JsonSerializable})
* determines the serializer to use.
*
* Currently handles things like:
*
* If type implements {@link JsonSerializable}, use that
*
* If type has {@link io.prestosql.jdbc.$internal.jackson.annotation.JsonValue} annotation (or equivalent), build serializer
* based on that property
*
*
*
* @since 2.0
*/
protected final JsonSerializer> findSerializerByAnnotations(SerializerProvider prov,
JavaType type, BeanDescription beanDesc)
throws JsonMappingException
{
Class> raw = type.getRawClass();
// First: JsonSerializable?
if (JsonSerializable.class.isAssignableFrom(raw)) {
return SerializableSerializer.instance;
}
// Second: @JsonValue for any type
AnnotatedMember valueAccessor = beanDesc.findJsonValueAccessor();
if (valueAccessor != null) {
if (prov.canOverrideAccessModifiers()) {
ClassUtil.checkAndFixAccess(valueAccessor.getMember(),
prov.isEnabled(MapperFeature.OVERRIDE_PUBLIC_ACCESS_MODIFIERS));
}
JsonSerializer ser = findSerializerFromAnnotation(prov, valueAccessor);
return new JsonValueSerializer(valueAccessor, ser);
}
// No well-known annotations...
return null;
}
/**
* Method for checking if we can determine serializer to use based on set of
* known primary types, checking for set of known base types (exact matches
* having been compared against with findSerializerByLookup
).
* This does not include "secondary" interfaces, but
* mostly concrete or abstract base classes.
*/
protected final JsonSerializer> findSerializerByPrimaryType(SerializerProvider prov,
JavaType type, BeanDescription beanDesc,
boolean staticTyping)
throws JsonMappingException
{
if (type.isEnumType()) {
return buildEnumSerializer(prov.getConfig(), type, beanDesc);
}
final Class> raw = type.getRawClass();
// Then check for optional/external serializers
JsonSerializer> ser = findOptionalStdSerializer(prov, type, beanDesc, staticTyping);
if (ser != null) {
return ser;
}
if (Calendar.class.isAssignableFrom(raw)) {
return CalendarSerializer.instance;
}
if (java.util.Date.class.isAssignableFrom(raw)) {
return DateSerializer.instance;
}
if (Map.Entry.class.isAssignableFrom(raw)) {
// 18-Oct-2015, tatu: With 2.7, need to dig type info:
JavaType mapEntryType = type.findSuperType(Map.Entry.class);
// 28-Apr-2015, tatu: TypeFactory does it all for us already so
JavaType kt = mapEntryType.containedTypeOrUnknown(0);
JavaType vt = mapEntryType.containedTypeOrUnknown(1);
return buildMapEntrySerializer(prov, type, beanDesc, staticTyping, kt, vt);
}
if (ByteBuffer.class.isAssignableFrom(raw)) {
return new ByteBufferSerializer();
}
if (InetAddress.class.isAssignableFrom(raw)) {
return new InetAddressSerializer();
}
if (InetSocketAddress.class.isAssignableFrom(raw)) {
return new InetSocketAddressSerializer();
}
if (TimeZone.class.isAssignableFrom(raw)) {
return new TimeZoneSerializer();
}
if (java.nio.charset.Charset.class.isAssignableFrom(raw)) {
return ToStringSerializer.instance;
}
if (Number.class.isAssignableFrom(raw)) {
// 21-May-2014, tatu: Couple of alternatives actually
JsonFormat.Value format = beanDesc.findExpectedFormat(null);
if (format != null) {
switch (format.getShape()) {
case STRING:
return ToStringSerializer.instance;
case OBJECT: // need to bail out to let it be serialized as POJO
case ARRAY: // or, I guess ARRAY; otherwise no point in speculating
return null;
default:
}
}
return NumberSerializer.instance;
}
return null;
}
/**
* Overridable method called after checking all other types.
*
* @since 2.2
*/
protected JsonSerializer> findOptionalStdSerializer(SerializerProvider prov,
JavaType type, BeanDescription beanDesc, boolean staticTyping)
throws JsonMappingException
{
return OptionalHandlerFactory.instance.findSerializer(prov.getConfig(), type, beanDesc);
}
/**
* Reflection-based serialized find method, which checks if
* given class implements one of recognized "add-on" interfaces.
* Add-on here means a role that is usually or can be a secondary
* trait: for example,
* bean classes may implement {@link Iterable}, but their main
* function is usually something else. The reason for
*/
protected final JsonSerializer> findSerializerByAddonType(SerializationConfig config,
JavaType javaType, BeanDescription beanDesc, boolean staticTyping) throws JsonMappingException
{
Class> rawType = javaType.getRawClass();
if (Iterator.class.isAssignableFrom(rawType)) {
JavaType[] params = config.getTypeFactory().findTypeParameters(javaType, Iterator.class);
JavaType vt = (params == null || params.length != 1) ?
TypeFactory.unknownType() : params[0];
return buildIteratorSerializer(config, javaType, beanDesc, staticTyping, vt);
}
if (Iterable.class.isAssignableFrom(rawType)) {
JavaType[] params = config.getTypeFactory().findTypeParameters(javaType, Iterable.class);
JavaType vt = (params == null || params.length != 1) ?
TypeFactory.unknownType() : params[0];
return buildIterableSerializer(config, javaType, beanDesc, staticTyping, vt);
}
if (CharSequence.class.isAssignableFrom(rawType)) {
return ToStringSerializer.instance;
}
return null;
}
/**
* Helper method called to check if a class or method
* has an annotation
* (@link io.prestosql.jdbc.$internal.jackson.databind.annotation.JsonSerialize#using)
* that tells the class to use for serialization.
* Returns null if no such annotation found.
*/
@SuppressWarnings("unchecked")
protected JsonSerializer findSerializerFromAnnotation(SerializerProvider prov,
Annotated a)
throws JsonMappingException
{
Object serDef = prov.getAnnotationIntrospector().findSerializer(a);
if (serDef == null) {
return null;
}
JsonSerializer ser = prov.serializerInstance(a, serDef);
// One more thing however: may need to also apply a converter:
return (JsonSerializer) findConvertingSerializer(prov, a, ser);
}
/**
* Helper method that will check whether given annotated entity (usually class,
* but may also be a property accessor) indicates that a {@link Converter} is to
* be used; and if so, to construct and return suitable serializer for it.
* If not, will simply return given serializer as is.
*/
protected JsonSerializer> findConvertingSerializer(SerializerProvider prov,
Annotated a, JsonSerializer> ser)
throws JsonMappingException
{
Converter conv = findConverter(prov, a);
if (conv == null) {
return ser;
}
JavaType delegateType = conv.getOutputType(prov.getTypeFactory());
return new StdDelegatingSerializer(conv, delegateType, ser);
}
protected Converter findConverter(SerializerProvider prov,
Annotated a)
throws JsonMappingException
{
Object convDef = prov.getAnnotationIntrospector().findSerializationConverter(a);
if (convDef == null) {
return null;
}
return prov.converterInstance(a, convDef);
}
/*
/**********************************************************
/* Factory methods, container types:
/**********************************************************
*/
/**
* @since 2.1
*/
protected JsonSerializer> buildContainerSerializer(SerializerProvider prov,
JavaType type, BeanDescription beanDesc, boolean staticTyping)
throws JsonMappingException
{
final SerializationConfig config = prov.getConfig();
/* [databind#23], 15-Mar-2013, tatu: must force static handling of root value type,
* with just one important exception: if value type is "untyped", let's
* leave it as is; no clean way to make it work.
*/
if (!staticTyping && type.useStaticType()) {
if (!type.isContainerType() || !type.getContentType().isJavaLangObject()) {
staticTyping = true;
}
}
// Let's see what we can learn about element/content/value type, type serializer for it:
JavaType elementType = type.getContentType();
TypeSerializer elementTypeSerializer = createTypeSerializer(config,
elementType);
// if elements have type serializer, cannot force static typing:
if (elementTypeSerializer != null) {
staticTyping = false;
}
JsonSerializer elementValueSerializer = _findContentSerializer(prov,
beanDesc.getClassInfo());
if (type.isMapLikeType()) { // implements java.util.Map
MapLikeType mlt = (MapLikeType) type;
/* 29-Sep-2012, tatu: This is actually too early to (try to) find
* key serializer from property annotations, and can lead to caching
* issues (see [databind#75]). Instead, must be done from 'createContextual()' call.
* But we do need to check class annotations.
*/
JsonSerializer keySerializer = _findKeySerializer(prov, beanDesc.getClassInfo());
if (mlt.isTrueMapType()) {
return buildMapSerializer(prov, (MapType) mlt, beanDesc, staticTyping,
keySerializer, elementTypeSerializer, elementValueSerializer);
}
// With Map-like, just 2 options: (1) Custom, (2) Annotations
JsonSerializer> ser = null;
MapLikeType mlType = (MapLikeType) type;
for (Serializers serializers : customSerializers()) { // (1) Custom
ser = serializers.findMapLikeSerializer(config,
mlType, beanDesc, keySerializer, elementTypeSerializer, elementValueSerializer);
if (ser != null) {
break;
}
}
if (ser == null) { // (2) Annotations-based ones:
ser = findSerializerByAnnotations(prov, type, beanDesc);
}
if (ser != null) {
if (_factoryConfig.hasSerializerModifiers()) {
for (BeanSerializerModifier mod : _factoryConfig.serializerModifiers()) {
ser = mod.modifyMapLikeSerializer(config, mlType, beanDesc, ser);
}
}
}
return ser;
}
if (type.isCollectionLikeType()) {
CollectionLikeType clt = (CollectionLikeType) type;
if (clt.isTrueCollectionType()) {
return buildCollectionSerializer(prov, (CollectionType) clt, beanDesc, staticTyping,
elementTypeSerializer, elementValueSerializer);
}
// With Map-like, just 2 options: (1) Custom, (2) Annotations
JsonSerializer> ser = null;
CollectionLikeType clType = (CollectionLikeType) type;
for (Serializers serializers : customSerializers()) { // (1) Custom
ser = serializers.findCollectionLikeSerializer(config,
clType, beanDesc, elementTypeSerializer, elementValueSerializer);
if (ser != null) {
break;
}
}
if (ser == null) { // (2) Annotations-based ones:
ser = findSerializerByAnnotations(prov, type, beanDesc);
}
if (ser != null) {
if (_factoryConfig.hasSerializerModifiers()) {
for (BeanSerializerModifier mod : _factoryConfig.serializerModifiers()) {
ser = mod.modifyCollectionLikeSerializer(config, clType, beanDesc, ser);
}
}
}
return ser;
}
if (type.isArrayType()) {
return buildArraySerializer(prov, (ArrayType) type, beanDesc, staticTyping,
elementTypeSerializer, elementValueSerializer);
}
return null;
}
/**
* Helper method that handles configuration details when constructing serializers for
* {@link java.util.List} types that support efficient by-index access
*
* @since 2.1
*/
protected JsonSerializer> buildCollectionSerializer(SerializerProvider prov,
CollectionType type, BeanDescription beanDesc, boolean staticTyping,
TypeSerializer elementTypeSerializer, JsonSerializer elementValueSerializer)
throws JsonMappingException
{
SerializationConfig config = prov.getConfig();
JsonSerializer> ser = null;
// Order of lookups:
// 1. Custom serializers
// 2. Annotations (@JsonValue, @JsonDeserialize)
// 3. Defaults
for (Serializers serializers : customSerializers()) { // (1) Custom
ser = serializers.findCollectionSerializer(config,
type, beanDesc, elementTypeSerializer, elementValueSerializer);
if (ser != null) {
break;
}
}
if (ser == null) {
ser = findSerializerByAnnotations(prov, type, beanDesc); // (2) Annotations
if (ser == null) {
// We may also want to use serialize Collections "as beans", if (and only if)
// this is specified with `@JsonFormat(shape=Object)`
JsonFormat.Value format = beanDesc.findExpectedFormat(null);
if ((format != null) && format.getShape() == JsonFormat.Shape.OBJECT) {
return null;
}
Class> raw = type.getRawClass();
if (EnumSet.class.isAssignableFrom(raw)) {
// this may or may not be available (Class doesn't; type of field/method does)
JavaType enumType = type.getContentType();
// and even if nominally there is something, only use if it really is enum
if (!enumType.isEnumImplType()) { // usually since it's `Enum.class`
enumType = null;
}
ser = buildEnumSetSerializer(enumType);
} else {
Class> elementRaw = type.getContentType().getRawClass();
if (isIndexedList(raw)) {
if (elementRaw == String.class) {
// [JACKSON-829] Must NOT use if we have custom serializer
if (ClassUtil.isJacksonStdImpl(elementValueSerializer)) {
ser = IndexedStringListSerializer.instance;
}
} else {
ser = buildIndexedListSerializer(type.getContentType(), staticTyping,
elementTypeSerializer, elementValueSerializer);
}
} else if (elementRaw == String.class) {
// [JACKSON-829] Must NOT use if we have custom serializer
if (ClassUtil.isJacksonStdImpl(elementValueSerializer)) {
ser = StringCollectionSerializer.instance;
}
}
if (ser == null) {
ser = buildCollectionSerializer(type.getContentType(), staticTyping,
elementTypeSerializer, elementValueSerializer);
}
}
}
}
// [databind#120]: Allow post-processing
if (_factoryConfig.hasSerializerModifiers()) {
for (BeanSerializerModifier mod : _factoryConfig.serializerModifiers()) {
ser = mod.modifyCollectionSerializer(config, type, beanDesc, ser);
}
}
return ser;
}
/*
/**********************************************************
/* Factory methods, for Collections
/**********************************************************
*/
protected boolean isIndexedList(Class> cls)
{
return RandomAccess.class.isAssignableFrom(cls);
}
public ContainerSerializer> buildIndexedListSerializer(JavaType elemType,
boolean staticTyping, TypeSerializer vts, JsonSerializer valueSerializer) {
return new IndexedListSerializer(elemType, staticTyping, vts, valueSerializer);
}
public ContainerSerializer> buildCollectionSerializer(JavaType elemType,
boolean staticTyping, TypeSerializer vts, JsonSerializer valueSerializer) {
return new CollectionSerializer(elemType, staticTyping, vts, valueSerializer);
}
public JsonSerializer> buildEnumSetSerializer(JavaType enumType) {
return new EnumSetSerializer(enumType);
}
/*
/**********************************************************
/* Factory methods, for Maps
/**********************************************************
*/
/**
* Helper method that handles configuration details when constructing serializers for
* {@link java.util.Map} types.
*/
protected JsonSerializer> buildMapSerializer(SerializerProvider prov,
MapType type, BeanDescription beanDesc,
boolean staticTyping, JsonSerializer keySerializer,
TypeSerializer elementTypeSerializer, JsonSerializer elementValueSerializer)
throws JsonMappingException
{
// [databind#467]: This is where we could allow serialization "as POJO": But! It's
// nasty to undo, and does not apply on per-property basis. So, hardly optimal
JsonFormat.Value format = beanDesc.findExpectedFormat(null);
if ((format != null) && format.getShape() == JsonFormat.Shape.OBJECT) {
return null;
}
JsonSerializer> ser = null;
// Order of lookups:
// 1. Custom serializers
// 2. Annotations (@JsonValue, @JsonDeserialize)
// 3. Defaults
final SerializationConfig config = prov.getConfig();
for (Serializers serializers : customSerializers()) { // (1) Custom
ser = serializers.findMapSerializer(config, type, beanDesc,
keySerializer, elementTypeSerializer, elementValueSerializer);
if (ser != null) { break; }
}
if (ser == null) {
ser = findSerializerByAnnotations(prov, type, beanDesc); // (2) Annotations
if (ser == null) {
Object filterId = findFilterId(config, beanDesc);
// 01-May-2016, tatu: Which base type to use here gets tricky, since
// most often it ought to be `Map` or `EnumMap`, but due to abstract
// mapping it will more likely be concrete type like `HashMap`.
// So, for time being, just pass `Map.class`
JsonIgnoreProperties.Value ignorals = config.getDefaultPropertyIgnorals(Map.class,
beanDesc.getClassInfo());
Set ignored = (ignorals == null) ? null
: ignorals.findIgnoredForSerialization();
MapSerializer mapSer = MapSerializer.construct(ignored,
type, staticTyping, elementTypeSerializer,
keySerializer, elementValueSerializer, filterId);
ser = _checkMapContentInclusion(prov, beanDesc, mapSer);
}
}
// [databind#120]: Allow post-processing
if (_factoryConfig.hasSerializerModifiers()) {
for (BeanSerializerModifier mod : _factoryConfig.serializerModifiers()) {
ser = mod.modifyMapSerializer(config, type, beanDesc, ser);
}
}
return ser;
}
/**
* Helper method that does figures out content inclusion value to use, if any,
* and construct re-configured {@link MapSerializer} appropriately.
*
* @since 2.9
*/
@SuppressWarnings("deprecation")
protected MapSerializer _checkMapContentInclusion(SerializerProvider prov,
BeanDescription beanDesc, MapSerializer mapSer)
throws JsonMappingException
{
final JavaType contentType = mapSer.getContentType();
JsonInclude.Value inclV = _findInclusionWithContent(prov, beanDesc,
contentType, Map.class);
// Need to support global legacy setting, for now:
JsonInclude.Include incl = (inclV == null) ? JsonInclude.Include.USE_DEFAULTS : inclV.getContentInclusion();
if (incl == JsonInclude.Include.USE_DEFAULTS
|| incl == JsonInclude.Include.ALWAYS) {
if (!prov.isEnabled(SerializationFeature.WRITE_NULL_MAP_VALUES)) {
return mapSer.withContentInclusion(null, true);
}
return mapSer;
}
// NOTE: mostly copied from `PropertyBuilder`; would be nice to refactor
// but code is not identical nor are these types related
Object valueToSuppress;
boolean suppressNulls = true; // almost always, but possibly not with CUSTOM
switch (incl) {
case NON_DEFAULT:
valueToSuppress = BeanUtil.getDefaultValue(contentType);
if (valueToSuppress != null) {
if (valueToSuppress.getClass().isArray()) {
valueToSuppress = ArrayBuilders.getArrayComparator(valueToSuppress);
}
}
break;
case NON_ABSENT: // new with 2.6, to support Guava/JDK8 Optionals
// and for referential types, also "empty", which in their case means "absent"
valueToSuppress = contentType.isReferenceType()
? MapSerializer.MARKER_FOR_EMPTY : null;
break;
case NON_EMPTY:
valueToSuppress = MapSerializer.MARKER_FOR_EMPTY;
break;
case CUSTOM: // new with 2.9
valueToSuppress = prov.includeFilterInstance(null, inclV.getContentFilter());
if (valueToSuppress == null) { // is this legal?
suppressNulls = true;
} else {
suppressNulls = prov.includeFilterSuppressNulls(valueToSuppress);
}
break;
case NON_NULL:
default: // should not matter but...
valueToSuppress = null;
break;
}
return mapSer.withContentInclusion(valueToSuppress, suppressNulls);
}
/**
* @since 2.9
*/
protected JsonSerializer> buildMapEntrySerializer(SerializerProvider prov,
JavaType type, BeanDescription beanDesc, boolean staticTyping,
JavaType keyType, JavaType valueType)
throws JsonMappingException
{
// [databind#865]: Allow serialization "as POJO" -- note: to undo, declare
// serialization as `Shape.NATURAL` instead; that's JSON Object too.
JsonFormat.Value formatOverride = prov.getDefaultPropertyFormat(Map.Entry.class);
JsonFormat.Value formatFromAnnotation = beanDesc.findExpectedFormat(null);
JsonFormat.Value format = JsonFormat.Value.merge(formatFromAnnotation, formatOverride);
if (format.getShape() == JsonFormat.Shape.OBJECT) {
return null;
}
MapEntrySerializer ser = new MapEntrySerializer(valueType, keyType, valueType,
staticTyping, createTypeSerializer(prov.getConfig(), valueType), null);
final JavaType contentType = ser.getContentType();
JsonInclude.Value inclV = _findInclusionWithContent(prov, beanDesc,
contentType, Map.Entry.class);
// Need to support global legacy setting, for now:
JsonInclude.Include incl = (inclV == null) ? JsonInclude.Include.USE_DEFAULTS : inclV.getContentInclusion();
if (incl == JsonInclude.Include.USE_DEFAULTS
|| incl == JsonInclude.Include.ALWAYS) {
return ser;
}
// NOTE: mostly copied from `PropertyBuilder`; would be nice to refactor
// but code is not identical nor are these types related
Object valueToSuppress;
boolean suppressNulls = true; // almost always, but possibly not with CUSTOM
switch (incl) {
case NON_DEFAULT:
valueToSuppress = BeanUtil.getDefaultValue(contentType);
if (valueToSuppress != null) {
if (valueToSuppress.getClass().isArray()) {
valueToSuppress = ArrayBuilders.getArrayComparator(valueToSuppress);
}
}
break;
case NON_ABSENT:
valueToSuppress = contentType.isReferenceType()
? MapSerializer.MARKER_FOR_EMPTY : null;
break;
case NON_EMPTY:
valueToSuppress = MapSerializer.MARKER_FOR_EMPTY;
break;
case CUSTOM:
valueToSuppress = prov.includeFilterInstance(null, inclV.getContentFilter());
if (valueToSuppress == null) { // is this legal?
suppressNulls = true;
} else {
suppressNulls = prov.includeFilterSuppressNulls(valueToSuppress);
}
break;
case NON_NULL:
default: // should not matter but...
valueToSuppress = null;
break;
}
return ser.withContentInclusion(valueToSuppress, suppressNulls);
}
/**
* Helper method used for finding inclusion definitions for structured
* container types like Map
s and referential types
* (like AtomicReference
).
*
* @param contentType Declared full content type of container
* @param configType Raw base type under which `configOverride`, if any, needs to be defined
*/
protected JsonInclude.Value _findInclusionWithContent(SerializerProvider prov,
BeanDescription beanDesc,
JavaType contentType, Class> configType)
throws JsonMappingException
{
final SerializationConfig config = prov.getConfig();
// Defaulting gets complicated because we might have two distinct
// axis to consider: Container type itself , and then value (content) type.
// Start with Container-defaults, then use more-specific value override, if any.
// Start by getting global setting, overridden by Map-type-override
JsonInclude.Value inclV = beanDesc.findPropertyInclusion(config.getDefaultPropertyInclusion());
inclV = config.getDefaultPropertyInclusion(configType, inclV);
// and then merge content-type overrides, if any. But note that there's
// content-to-value inclusion shift we have to do
JsonInclude.Value valueIncl = config.getDefaultPropertyInclusion(contentType.getRawClass(), null);
if (valueIncl != null) {
switch (valueIncl.getValueInclusion()) {
case USE_DEFAULTS:
break;
case CUSTOM:
inclV = inclV.withContentFilter(valueIncl.getContentFilter());
break;
default:
inclV = inclV.withContentInclusion(valueIncl.getValueInclusion());
}
}
return inclV;
}
/*
/**********************************************************
/* Factory methods, for Arrays
/**********************************************************
*/
/**
* Helper method that handles configuration details when constructing serializers for
* Object[]
(and subtypes, except for String).
*/
protected JsonSerializer> buildArraySerializer(SerializerProvider prov,
ArrayType type, BeanDescription beanDesc,
boolean staticTyping,
TypeSerializer elementTypeSerializer, JsonSerializer elementValueSerializer)
throws JsonMappingException
{
// 25-Jun-2015, tatu: Note that unlike with Collection(Like) and Map(Like) types, array
// types cannot be annotated (in theory I guess we could have mix-ins but... ?)
// so we need not do primary annotation lookup here.
// So all we need is (1) Custom, (2) Default array serializers
SerializationConfig config = prov.getConfig();
JsonSerializer> ser = null;
for (Serializers serializers : customSerializers()) { // (1) Custom
ser = serializers.findArraySerializer(config,
type, beanDesc, elementTypeSerializer, elementValueSerializer);
if (ser != null) {
break;
}
}
if (ser == null) {
Class> raw = type.getRawClass();
// Important: do NOT use standard serializers if non-standard element value serializer specified
if (elementValueSerializer == null || ClassUtil.isJacksonStdImpl(elementValueSerializer)) {
if (String[].class == raw) {
ser = StringArraySerializer.instance;
} else {
// other standard types?
ser = StdArraySerializers.findStandardImpl(raw);
}
}
if (ser == null) {
ser = new ObjectArraySerializer(type.getContentType(), staticTyping, elementTypeSerializer,
elementValueSerializer);
}
}
// [databind#120]: Allow post-processing
if (_factoryConfig.hasSerializerModifiers()) {
for (BeanSerializerModifier mod : _factoryConfig.serializerModifiers()) {
ser = mod.modifyArraySerializer(config, type, beanDesc, ser);
}
}
return ser;
}
/*
/**********************************************************
/* Factory methods for Reference types
/* (demoted from BeanSF down here in 2.9)
/**********************************************************
*/
/**
* @since 2.7
*/
public JsonSerializer> findReferenceSerializer(SerializerProvider prov, ReferenceType refType,
BeanDescription beanDesc, boolean staticTyping)
throws JsonMappingException
{
JavaType contentType = refType.getContentType();
TypeSerializer contentTypeSerializer = contentType.getTypeHandler();
final SerializationConfig config = prov.getConfig();
if (contentTypeSerializer == null) {
contentTypeSerializer = createTypeSerializer(config, contentType);
}
JsonSerializer contentSerializer = contentType.getValueHandler();
for (Serializers serializers : customSerializers()) {
JsonSerializer> ser = serializers.findReferenceSerializer(config, refType, beanDesc,
contentTypeSerializer, contentSerializer);
if (ser != null) {
return ser;
}
}
if (refType.isTypeOrSubTypeOf(AtomicReference.class)) {
return buildAtomicReferenceSerializer(prov, refType, beanDesc, staticTyping,
contentTypeSerializer, contentSerializer);
}
return null;
}
protected JsonSerializer> buildAtomicReferenceSerializer(SerializerProvider prov,
ReferenceType refType, BeanDescription beanDesc, boolean staticTyping,
TypeSerializer contentTypeSerializer, JsonSerializer contentSerializer)
throws JsonMappingException
{
final JavaType contentType = refType.getReferencedType();
JsonInclude.Value inclV = _findInclusionWithContent(prov, beanDesc,
contentType, AtomicReference.class);
// Need to support global legacy setting, for now:
JsonInclude.Include incl = (inclV == null) ? JsonInclude.Include.USE_DEFAULTS : inclV.getContentInclusion();
Object valueToSuppress;
boolean suppressNulls;
if (incl == JsonInclude.Include.USE_DEFAULTS
|| incl == JsonInclude.Include.ALWAYS) {
valueToSuppress = null;
suppressNulls = false;
} else {
suppressNulls = true;
switch (incl) {
case NON_DEFAULT:
valueToSuppress = BeanUtil.getDefaultValue(contentType);
if (valueToSuppress != null) {
if (valueToSuppress.getClass().isArray()) {
valueToSuppress = ArrayBuilders.getArrayComparator(valueToSuppress);
}
}
break;
case NON_ABSENT:
valueToSuppress = contentType.isReferenceType()
? MapSerializer.MARKER_FOR_EMPTY : null;
break;
case NON_EMPTY:
valueToSuppress = MapSerializer.MARKER_FOR_EMPTY;
break;
case CUSTOM:
valueToSuppress = prov.includeFilterInstance(null, inclV.getContentFilter());
if (valueToSuppress == null) { // is this legal?
suppressNulls = true;
} else {
suppressNulls = prov.includeFilterSuppressNulls(valueToSuppress);
}
break;
case NON_NULL:
default: // should not matter but...
valueToSuppress = null;
break;
}
}
AtomicReferenceSerializer ser = new AtomicReferenceSerializer(refType, staticTyping,
contentTypeSerializer, contentSerializer);
return ser.withContentInclusion(valueToSuppress, suppressNulls);
}
/*
/**********************************************************
/* Factory methods, for non-container types
/**********************************************************
*/
/**
* @since 2.5
*/
protected JsonSerializer> buildIteratorSerializer(SerializationConfig config,
JavaType type, BeanDescription beanDesc, boolean staticTyping,
JavaType valueType)
throws JsonMappingException
{
return new IteratorSerializer(valueType, staticTyping, createTypeSerializer(config, valueType));
}
/**
* @since 2.5
*/
protected JsonSerializer> buildIterableSerializer(SerializationConfig config,
JavaType type, BeanDescription beanDesc, boolean staticTyping,
JavaType valueType)
throws JsonMappingException
{
return new IterableSerializer(valueType, staticTyping, createTypeSerializer(config, valueType));
}
protected JsonSerializer> buildEnumSerializer(SerializationConfig config,
JavaType type, BeanDescription beanDesc)
throws JsonMappingException
{
/* As per [databind#24], may want to use alternate shape, serialize as JSON Object.
* Challenge here is that EnumSerializer does not know how to produce
* POJO style serialization, so we must handle that special case separately;
* otherwise pass it to EnumSerializer.
*/
JsonFormat.Value format = beanDesc.findExpectedFormat(null);
if (format != null && format.getShape() == JsonFormat.Shape.OBJECT) {
// one special case: suppress serialization of "getDeclaringClass()"...
((BasicBeanDescription) beanDesc).removeProperty("declaringClass");
// returning null will mean that eventually BeanSerializer gets constructed
return null;
}
@SuppressWarnings("unchecked")
Class> enumClass = (Class>) type.getRawClass();
JsonSerializer> ser = EnumSerializer.construct(enumClass, config, beanDesc, format);
// [databind#120]: Allow post-processing
if (_factoryConfig.hasSerializerModifiers()) {
for (BeanSerializerModifier mod : _factoryConfig.serializerModifiers()) {
ser = mod.modifyEnumSerializer(config, type, beanDesc, ser);
}
}
return ser;
}
/*
/**********************************************************
/* Other helper methods
/**********************************************************
*/
/**
* Helper method called to try to find whether there is an annotation in the
* class that indicates key serializer to use.
* If so, will try to instantiate key serializer and return it; otherwise returns null.
*/
protected JsonSerializer _findKeySerializer(SerializerProvider prov,
Annotated a)
throws JsonMappingException
{
AnnotationIntrospector intr = prov.getAnnotationIntrospector();
Object serDef = intr.findKeySerializer(a);
if (serDef != null) {
return prov.serializerInstance(a, serDef);
}
return null;
}
/**
* Helper method called to try to find whether there is an annotation in the
* class that indicates content ("value") serializer to use.
* If so, will try to instantiate value serializer and return it; otherwise returns null.
*/
protected JsonSerializer _findContentSerializer(SerializerProvider prov,
Annotated a)
throws JsonMappingException
{
AnnotationIntrospector intr = prov.getAnnotationIntrospector();
Object serDef = intr.findContentSerializer(a);
if (serDef != null) {
return prov.serializerInstance(a, serDef);
}
return null;
}
/**
* Method called to find filter that is configured to be used with bean
* serializer being built, if any.
*/
protected Object findFilterId(SerializationConfig config, BeanDescription beanDesc) {
return config.getAnnotationIntrospector().findFilterId((Annotated)beanDesc.getClassInfo());
}
/**
* Helper method to check whether global settings and/or class
* annotations for the bean class indicate that static typing
* (declared types) should be used for properties.
* (instead of dynamic runtime types).
*
* @since 2.1 (earlier had variant with additional 'property' parameter)
*/
protected boolean usesStaticTyping(SerializationConfig config,
BeanDescription beanDesc, TypeSerializer typeSer)
{
/* 16-Aug-2010, tatu: If there is a (value) type serializer, we cannot force
* static typing; that would make it impossible to handle expected subtypes
*/
if (typeSer != null) {
return false;
}
AnnotationIntrospector intr = config.getAnnotationIntrospector();
JsonSerialize.Typing t = intr.findSerializationTyping(beanDesc.getClassInfo());
if (t != null && t != JsonSerialize.Typing.DEFAULT_TYPING) {
return (t == JsonSerialize.Typing.STATIC);
}
return config.isEnabled(MapperFeature.USE_STATIC_TYPING);
}
// Commented out in 2.9
/*
protected Class> _verifyAsClass(Object src, String methodName, Class> noneClass)
{
if (src == null) {
return null;
}
if (!(src instanceof Class)) {
throw new IllegalStateException("AnnotationIntrospector."+methodName+"() returned value of type "+src.getClass().getName()+": expected type JsonSerializer or Class instead");
}
Class> cls = (Class>) src;
if (cls == noneClass || ClassUtil.isBogusClass(cls)) {
return null;
}
return cls;
}
*/
}