/** * Method called to create a type information serializer for values of given * non-container property * if one is needed. If not needed (no polymorphic handling configured), should * return null. * * @param baseType Declared type to use as the base type for type information serializer * * @return Type serializer to use for property values, if one is needed; null if not. * * @since 1.5 */ public TypeSerializer findPropertyTypeSerializer(JavaType baseType, SerializationConfig config, AnnotatedMember accessor, BeanProperty property) throws JsonMappingException { AnnotationIntrospector ai = config.getAnnotationIntrospector(); TypeResolverBuilder<?> b = ai.findPropertyTypeResolver(config, accessor, baseType); // Defaulting: if no annotations on member, check value class if (b == null) { return createTypeSerializer(config, baseType, property); } Collection<NamedType> subtypes = config.getSubtypeResolver().collectAndResolveSubtypes(accessor, config, ai); return b.buildTypeSerializer(config, baseType, subtypes, property); }
/** * Method called to create a type information deserializer for values of * given non-container property, if one is needed. * If not needed (no polymorphic handling configured for property), should return null. *<p> * Note that this method is only called for non-container bean properties, * and not for values in container types or root values (or container properties) * * @param baseType Declared base type of the value to deserializer (actual * deserializer type will be this type or its subtype) * * @return Type deserializer to use for given base type, if one is needed; null if not. * * @since 1.5 */ public TypeDeserializer findPropertyTypeDeserializer(DeserializationConfig config, JavaType baseType, AnnotatedMember annotated, BeanProperty property) throws JsonMappingException { AnnotationIntrospector ai = config.getAnnotationIntrospector(); TypeResolverBuilder<?> b = ai.findPropertyTypeResolver(config, annotated, baseType); // Defaulting: if no annotations on member, check value class if (b == null) { return findTypeDeserializer(config, baseType, property); } // but if annotations found, may need to resolve subtypes: Collection<NamedType> subtypes = config.getSubtypeResolver().collectAndResolveSubtypes(annotated, config, ai); return b.buildTypeDeserializer(config, baseType, subtypes, property); }
/** * Method called to find and create a type information deserializer for values of * given container (list, array, map) property, if one is needed. * If not needed (no polymorphic handling configured for property), should return null. *<p> * Note that this method is only called for container bean properties, * and not for values in container types or root values (or non-container properties) * * @param containerType Type of property; must be a container type * @param propertyEntity Field or method that contains container property * * @since 1.5 */ public TypeDeserializer findPropertyContentTypeDeserializer(DeserializationConfig config, JavaType containerType, AnnotatedMember propertyEntity, BeanProperty property) throws JsonMappingException { AnnotationIntrospector ai = config.getAnnotationIntrospector(); TypeResolverBuilder<?> b = ai.findPropertyContentTypeResolver(config, propertyEntity, containerType); JavaType contentType = containerType.getContentType(); // Defaulting: if no annotations on member, check class if (b == null) { return findTypeDeserializer(config, contentType, property); } // but if annotations found, may need to resolve subtypes: Collection<NamedType> subtypes = config.getSubtypeResolver().collectAndResolveSubtypes(propertyEntity, config, ai); return b.buildTypeDeserializer(config, contentType, subtypes, property); }
/** * Method called to create a type information serializer for values of given * container property * if one is needed. If not needed (no polymorphic handling configured), should * return null. * * @param containerType Declared type of the container to use as the base type for type information serializer * * @return Type serializer to use for property value contents, if one is needed; null if not. * * @since 1.5 */ public TypeSerializer findPropertyContentTypeSerializer(JavaType containerType, SerializationConfig config, AnnotatedMember accessor, BeanProperty property) throws JsonMappingException { JavaType contentType = containerType.getContentType(); AnnotationIntrospector ai = config.getAnnotationIntrospector(); TypeResolverBuilder<?> b = ai.findPropertyContentTypeResolver(config, accessor, containerType); // Defaulting: if no annotations on member, check value class if (b == null) { return createTypeSerializer(config, contentType, property); } Collection<NamedType> subtypes = config.getSubtypeResolver().collectAndResolveSubtypes(accessor, config, ai); return b.buildTypeSerializer(config, contentType, subtypes, property); }
/** * 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, BeanProperty property) { BasicBeanDescription 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<NamedType> subtypes = null; if (b == null) { b = config.getDefaultTyper(baseType); } else { subtypes = config.getSubtypeResolver().collectAndResolveSubtypes(ac, config, ai); } return (b == null) ? null : b.buildTypeSerializer(config, baseType, subtypes, property); }
subtypes = config.getSubtypeResolver().collectAndResolveSubtypes(ac, config, ai);
/** * Method called to create a type information serializer for values of given * non-container property * if one is needed. If not needed (no polymorphic handling configured), should * return null. * * @param baseType Declared type to use as the base type for type information serializer * * @return Type serializer to use for property values, if one is needed; null if not. * * @since 1.5 */ public TypeSerializer findPropertyTypeSerializer(JavaType baseType, SerializationConfig config, AnnotatedMember accessor, BeanProperty property) throws JsonMappingException { AnnotationIntrospector ai = config.getAnnotationIntrospector(); TypeResolverBuilder<?> b = ai.findPropertyTypeResolver(config, accessor, baseType); // Defaulting: if no annotations on member, check value class if (b == null) { return createTypeSerializer(config, baseType, property); } Collection<NamedType> subtypes = config.getSubtypeResolver().collectAndResolveSubtypes(accessor, config, ai); return b.buildTypeSerializer(config, baseType, subtypes, property); }
/** * Method called to create a type information deserializer for values of * given non-container property, if one is needed. * If not needed (no polymorphic handling configured for property), should return null. *<p> * Note that this method is only called for non-container bean properties, * and not for values in container types or root values (or container properties) * * @param baseType Declared base type of the value to deserializer (actual * deserializer type will be this type or its subtype) * * @return Type deserializer to use for given base type, if one is needed; null if not. * * @since 1.5 */ public TypeDeserializer findPropertyTypeDeserializer(DeserializationConfig config, JavaType baseType, AnnotatedMember annotated, BeanProperty property) throws JsonMappingException { AnnotationIntrospector ai = config.getAnnotationIntrospector(); TypeResolverBuilder<?> b = ai.findPropertyTypeResolver(config, annotated, baseType); // Defaulting: if no annotations on member, check value class if (b == null) { return findTypeDeserializer(config, baseType, property); } // but if annotations found, may need to resolve subtypes: Collection<NamedType> subtypes = config.getSubtypeResolver().collectAndResolveSubtypes(annotated, config, ai); return b.buildTypeDeserializer(config, baseType, subtypes, property); }
/** * Method called to create a type information serializer for values of given * container property * if one is needed. If not needed (no polymorphic handling configured), should * return null. * * @param containerType Declared type of the container to use as the base type for type information serializer * * @return Type serializer to use for property value contents, if one is needed; null if not. * * @since 1.5 */ public TypeSerializer findPropertyContentTypeSerializer(JavaType containerType, SerializationConfig config, AnnotatedMember accessor, BeanProperty property) throws JsonMappingException { JavaType contentType = containerType.getContentType(); AnnotationIntrospector ai = config.getAnnotationIntrospector(); TypeResolverBuilder<?> b = ai.findPropertyContentTypeResolver(config, accessor, containerType); // Defaulting: if no annotations on member, check value class if (b == null) { return createTypeSerializer(config, contentType, property); } Collection<NamedType> subtypes = config.getSubtypeResolver().collectAndResolveSubtypes(accessor, config, ai); return b.buildTypeSerializer(config, contentType, subtypes, property); }
/** * Method called to find and create a type information deserializer for values of * given container (list, array, map) property, if one is needed. * If not needed (no polymorphic handling configured for property), should return null. *<p> * Note that this method is only called for container bean properties, * and not for values in container types or root values (or non-container properties) * * @param containerType Type of property; must be a container type * @param propertyEntity Field or method that contains container property * * @since 1.5 */ public TypeDeserializer findPropertyContentTypeDeserializer(DeserializationConfig config, JavaType containerType, AnnotatedMember propertyEntity, BeanProperty property) throws JsonMappingException { AnnotationIntrospector ai = config.getAnnotationIntrospector(); TypeResolverBuilder<?> b = ai.findPropertyContentTypeResolver(config, propertyEntity, containerType); JavaType contentType = containerType.getContentType(); // Defaulting: if no annotations on member, check class if (b == null) { return findTypeDeserializer(config, contentType, property); } // but if annotations found, may need to resolve subtypes: Collection<NamedType> subtypes = config.getSubtypeResolver().collectAndResolveSubtypes(propertyEntity, config, ai); return b.buildTypeDeserializer(config, contentType, subtypes, property); }
/** * 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, BeanProperty property) { BasicBeanDescription 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<NamedType> subtypes = null; if (b == null) { b = config.getDefaultTyper(baseType); } else { subtypes = config.getSubtypeResolver().collectAndResolveSubtypes(ac, config, ai); } return (b == null) ? null : b.buildTypeSerializer(config, baseType, subtypes, property); }
subtypes = config.getSubtypeResolver().collectAndResolveSubtypes(ac, config, ai);
/** * Method called to create a type information serializer for values of given * non-container property * if one is needed. If not needed (no polymorphic handling configured), should * return null. * * @param baseType Declared type to use as the base type for type information serializer * * @return Type serializer to use for property values, if one is needed; null if not. * * @since 1.5 */ public TypeSerializer findPropertyTypeSerializer(JavaType baseType, SerializationConfig config, AnnotatedMember accessor, BeanProperty property) throws JsonMappingException { AnnotationIntrospector ai = config.getAnnotationIntrospector(); TypeResolverBuilder<?> b = ai.findPropertyTypeResolver(config, accessor, baseType); // Defaulting: if no annotations on member, check value class if (b == null) { return createTypeSerializer(config, baseType, property); } Collection<NamedType> subtypes = config.getSubtypeResolver().collectAndResolveSubtypes(accessor, config, ai); return b.buildTypeSerializer(config, baseType, subtypes, property); }
/** * Method called to create a type information serializer for values of given * non-container property * if one is needed. If not needed (no polymorphic handling configured), should * return null. * * @param baseType Declared type to use as the base type for type information serializer * * @return Type serializer to use for property values, if one is needed; null if not. * * @since 1.5 */ public TypeSerializer findPropertyTypeSerializer(JavaType baseType, SerializationConfig config, AnnotatedMember accessor, BeanProperty property) throws JsonMappingException { AnnotationIntrospector ai = config.getAnnotationIntrospector(); TypeResolverBuilder<?> b = ai.findPropertyTypeResolver(config, accessor, baseType); // Defaulting: if no annotations on member, check value class if (b == null) { return createTypeSerializer(config, baseType, property); } Collection<NamedType> subtypes = config.getSubtypeResolver().collectAndResolveSubtypes(accessor, config, ai); return b.buildTypeSerializer(config, baseType, subtypes, property); }
/** * Method called to create a type information serializer for values of given * container property * if one is needed. If not needed (no polymorphic handling configured), should * return null. * * @param containerType Declared type of the container to use as the base type for type information serializer * * @return Type serializer to use for property value contents, if one is needed; null if not. * * @since 1.5 */ public TypeSerializer findPropertyContentTypeSerializer(JavaType containerType, SerializationConfig config, AnnotatedMember accessor, BeanProperty property) throws JsonMappingException { JavaType contentType = containerType.getContentType(); AnnotationIntrospector ai = config.getAnnotationIntrospector(); TypeResolverBuilder<?> b = ai.findPropertyContentTypeResolver(config, accessor, containerType); // Defaulting: if no annotations on member, check value class if (b == null) { return createTypeSerializer(config, contentType, property); } Collection<NamedType> subtypes = config.getSubtypeResolver().collectAndResolveSubtypes(accessor, config, ai); return b.buildTypeSerializer(config, contentType, subtypes, property); }
/** * Method called to create a type information serializer for values of given * container property * if one is needed. If not needed (no polymorphic handling configured), should * return null. * * @param containerType Declared type of the container to use as the base type for type information serializer * * @return Type serializer to use for property value contents, if one is needed; null if not. * * @since 1.5 */ public TypeSerializer findPropertyContentTypeSerializer(JavaType containerType, SerializationConfig config, AnnotatedMember accessor, BeanProperty property) throws JsonMappingException { JavaType contentType = containerType.getContentType(); AnnotationIntrospector ai = config.getAnnotationIntrospector(); TypeResolverBuilder<?> b = ai.findPropertyContentTypeResolver(config, accessor, containerType); // Defaulting: if no annotations on member, check value class if (b == null) { return createTypeSerializer(config, contentType, property); } Collection<NamedType> subtypes = config.getSubtypeResolver().collectAndResolveSubtypes(accessor, config, ai); return b.buildTypeSerializer(config, contentType, subtypes, property); }
@Override public TypeDeserializer findTypeDeserializer(DeserializationConfig config, JavaType baseType, BeanProperty property) { Class<?> cls = baseType.getRawClass(); BasicBeanDescription bean = config.introspectClassAnnotations(cls); 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<NamedType> subtypes = null; if (b == null) { b = config.getDefaultTyper(baseType); if (b == null) { return null; } } else { subtypes = config.getSubtypeResolver().collectAndResolveSubtypes(ac, config, ai); } return b.buildTypeDeserializer(config, baseType, subtypes, property); }
/** * 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, BeanProperty property) { BasicBeanDescription 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<NamedType> subtypes = null; if (b == null) { b = config.getDefaultTyper(baseType); } else { subtypes = config.getSubtypeResolver().collectAndResolveSubtypes(ac, config, ai); } return (b == null) ? null : b.buildTypeSerializer(config, baseType, subtypes, property); }
/** * 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, BeanProperty property) { BasicBeanDescription 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<NamedType> subtypes = null; if (b == null) { b = config.getDefaultTyper(baseType); } else { subtypes = config.getSubtypeResolver().collectAndResolveSubtypes(ac, config, ai); } return (b == null) ? null : b.buildTypeSerializer(config, baseType, subtypes, property); }
/** * 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, BeanProperty property) { BasicBeanDescription 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<NamedType> subtypes = null; if (b == null) { b = config.getDefaultTyper(baseType); } else { subtypes = config.getSubtypeResolver().collectAndResolveSubtypes(ac, config, ai); } return (b == null) ? null : b.buildTypeSerializer(config, baseType, subtypes, property); }