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package com.fasterxml.jackson.databind;

import java.lang.annotation.Annotation;
import java.util.*;

import com.fasterxml.jackson.annotation.*;
import com.fasterxml.jackson.core.Version;
import com.fasterxml.jackson.core.Versioned;

import com.fasterxml.jackson.databind.annotation.JsonPOJOBuilder;
import com.fasterxml.jackson.databind.annotation.JsonSerialize;
import com.fasterxml.jackson.databind.cfg.MapperConfig;
import com.fasterxml.jackson.databind.deser.ValueInstantiator;
import com.fasterxml.jackson.databind.introspect.*;
import com.fasterxml.jackson.databind.jsontype.NamedType;
import com.fasterxml.jackson.databind.jsontype.TypeResolverBuilder;
import com.fasterxml.jackson.databind.ser.BeanPropertyWriter;
import com.fasterxml.jackson.databind.util.Converter;
import com.fasterxml.jackson.databind.util.NameTransformer;

/**
 * Abstract class that defines API used for introspecting annotation-based
 * configuration for serialization and deserialization. Separated
 * so that different sets of annotations can be supported, and support
 * plugged-in dynamically.
 *

* Although default implementations are based on using annotations as the only * (or at least main) information source, custom implementations are not limited * in such a way, and in fact there is no expectation they should be. So the name * is bit of misnomer; this is a general configuration introspection facility. *

* NOTE: due to rapid addition of new methods (and changes to existing methods), * it is strongly recommended that custom implementations should not directly * extend this class, but rather extend {@link NopAnnotationIntrospector}. * This way added methods will not break backwards compatibility of custom annotation * introspectors. */ @SuppressWarnings("serial") public abstract class AnnotationIntrospector implements Versioned, java.io.Serializable { /* /********************************************************************** /* Helper types /********************************************************************** */ /** * Value type used with managed and back references; contains type and * logic name, used to link related references */ public static class ReferenceProperty { public enum Type { /** * Reference property that Jackson manages and that is serialized normally (by serializing * reference object), but is used for resolving back references during * deserialization. * Usually this can be defined by using * {@link com.fasterxml.jackson.annotation.JsonManagedReference} */ MANAGED_REFERENCE /** * Reference property that Jackson manages by suppressing it during serialization, * and reconstructing during deserialization. * Usually this can be defined by using * {@link com.fasterxml.jackson.annotation.JsonBackReference} */ ,BACK_REFERENCE ; } private final Type _type; private final String _name; public ReferenceProperty(Type t, String n) { _type = t; _name = n; } public static ReferenceProperty managed(String name) { return new ReferenceProperty(Type.MANAGED_REFERENCE, name); } public static ReferenceProperty back(String name) { return new ReferenceProperty(Type.BACK_REFERENCE, name); } public Type getType() { return _type; } public String getName() { return _name; } public boolean isManagedReference() { return _type == Type.MANAGED_REFERENCE; } public boolean isBackReference() { return _type == Type.BACK_REFERENCE; } } /** * Add-on extension used for XML-specific configuration, needed to decouple * format module functionality from pluggable introspection functionality * (especially JAXB-annotation related one). * * @since 2.13 */ public interface XmlExtensions { /** * Method that can be called to figure out generic namespace * property for an annotated object. * * @param config Configuration settings in effect * @param ann Annotated entity to introspect * * @return Null if annotated thing does not define any * namespace information; non-null namespace (which may * be empty String) otherwise. */ public String findNamespace(MapperConfig config, Annotated ann); /** * Method used to check whether given annotated element * (field, method, constructor parameter) has indicator that suggests * it be output as an XML attribute or not (if not, then as element) * * @param config Configuration settings in effect * @param ann Annotated entity to introspect * * @return Null if no indicator found; {@code True} or {@code False} otherwise */ public Boolean isOutputAsAttribute(MapperConfig config, Annotated ann); /** * Method used to check whether given annotated element * (field, method, constructor parameter) has indicator that suggests * it should be serialized as text, without element wrapper. * * @param config Configuration settings in effect * @param ann Annotated entity to introspect * * @return Null if no indicator found; {@code True} or {@code False} otherwise */ public Boolean isOutputAsText(MapperConfig config, Annotated ann); /** * Method used to check whether given annotated element * (field, method, constructor parameter) has indicator that suggests * it should be wrapped in a CDATA tag. * * @param config Configuration settings in effect * @param ann Annotated entity to introspect * * @return Null if no indicator found; {@code True} or {@code False} otherwise */ public Boolean isOutputAsCData(MapperConfig config, Annotated ann); } /* /********************************************************************** /* Factory methods /********************************************************************** */ /** * Factory method for accessing "no operation" implementation * of introspector: instance that will never find any annotation-based * configuration. * * @return "no operation" instance */ public static AnnotationIntrospector nopInstance() { return NopAnnotationIntrospector.instance; } public static AnnotationIntrospector pair(AnnotationIntrospector a1, AnnotationIntrospector a2) { return new AnnotationIntrospectorPair(a1, a2); } /* /********************************************************** /* Access to possibly chained introspectors /********************************************************** */ /** * Method that can be used to collect all "real" introspectors that * this introspector contains, if any; or this introspector * if it is not a container. Used to get access to all container * introspectors in their priority order. *

* Default implementation returns a Singleton list with this introspector * as contents. * This usually works for sub-classes, except for proxy or delegating "container * introspectors" which need to override implementation. * * @return Collection of all introspectors starting with this one, in case * multiple introspectors are chained */ public Collection allIntrospectors() { return Collections.singletonList(this); } /** * Method that can be used to collect all "real" introspectors that * this introspector contains, if any; or this introspector * if it is not a container. Used to get access to all container * introspectors in their priority order. *

* Default implementation adds this introspector in result; this usually * works for sub-classes, except for proxy or delegating "container * introspectors" which need to override implementation. * * @param result Container to add introspectors to * * @return Passed in {@code Collection} filled with introspectors as explained * above */ public Collection allIntrospectors(Collection result) { result.add(this); return result; } /* /********************************************************** /* Default Versioned impl /********************************************************** */ @Override public abstract Version version(); /* /********************************************************** /* Meta-annotations (annotations for annotation types) /********************************************************** */ /** * Method for checking whether given annotation is considered an * annotation bundle: if so, all meta-annotations it has will * be used instead of annotation ("bundle") itself. * * @param ann Annotated entity to introspect * * @return True if given annotation is considered an annotation * bundle; false if not */ public boolean isAnnotationBundle(Annotation ann) { return false; } /* /********************************************************** /* Annotations for Object Id handling /********************************************************** */ /** * Method for checking whether given annotated thing * (type, or accessor) indicates that values * referenced (values of type of annotated class, or * values referenced by annotated property; latter * having precedence) should include Object Identifier, * and if so, specify details of Object Identity used. * * @param ann Annotated entity to introspect * * @return Details of Object Id as explained above, if Object Id * handling to be applied; {@code null} otherwise. */ public ObjectIdInfo findObjectIdInfo(Annotated ann) { return null; } /** * Method for figuring out additional properties of an Object Identity reference * * @param ann Annotated entity to introspect * @param objectIdInfo (optional) Base Object Id information, if any; {@code null} if none * * @return {@link ObjectIdInfo} augmented with possible additional information * * @since 2.1 */ public ObjectIdInfo findObjectReferenceInfo(Annotated ann, ObjectIdInfo objectIdInfo) { return objectIdInfo; } /* /********************************************************** /* General class annotations /********************************************************** */ /** * Method for locating name used as "root name" (for use by * some serializers when outputting root-level object -- mostly * for XML compatibility purposes) for given class, if one * is defined. Returns null if no declaration found; can return * explicit empty String, which is usually ignored as well as null. *

* NOTE: method signature changed in 2.1, to return {@link PropertyName} * instead of String. * * @param ac Annotated class to introspect * * @return Root name to use, if any; {@code null} if not */ public PropertyName findRootName(AnnotatedClass ac) { return null; } /** * Method for checking whether properties that have specified type * (class, not generics aware) should be completely ignored for * serialization and deserialization purposes. * * @param ac Annotated class to introspect * * @return Boolean.TRUE if properties of type should be ignored; * Boolean.FALSE if they are not to be ignored, null for default * handling (which is 'do not ignore') */ public Boolean isIgnorableType(AnnotatedClass ac) { return null; } /** * Method for finding information about properties to ignore either by * name, or by more general specification ("ignore all unknown"). * This method combines multiple aspects of ignorals and deprecates * earlier methods such as * {@link #findPropertiesToIgnore(Annotated, boolean)} and * {@link #findIgnoreUnknownProperties(AnnotatedClass)}. * * @param config Configuration settings in effect (for serialization or deserialization) * @param ann Annotated entity (Class, Accessor) to introspect * * @return Property ignoral settings to use; * {@code JsonIgnoreProperties.Value.empty()} for defaults (should not return {@code null}) * * @since 2.12 (to replace {@code findPropertyIgnorals()}) */ public JsonIgnoreProperties.Value findPropertyIgnoralByName(MapperConfig config, Annotated ann) { // In 2.12, remove redirection in future return findPropertyIgnorals(ann); } /** * Method for finding information about names of properties to included. * This is typically used to strictly limit properties to include based * on fully defined set of names ("allow-listing"), as opposed to excluding * potential properties by exclusion ("deny-listing"). * * @param config Configuration settings in effect (for serialization or deserialization) * @param ann Annotated entity (Class, Accessor) to introspect * * @return Property inclusion settings to use; * {@code JsonIncludeProperties.Value.all()} for defaults (should not return {@code null}) * * @since 2.12 */ public JsonIncludeProperties.Value findPropertyInclusionByName(MapperConfig config, Annotated ann) { return JsonIncludeProperties.Value.all(); } /** * Method for finding if annotated class has associated filter; and if so, * to return id that is used to locate filter. * * @param ann Annotated entity to introspect * * @return Id of the filter to use for filtering properties of annotated * class, if any; or null if none found. */ public Object findFilterId(Annotated ann) { return null; } /** * Method for finding {@link PropertyNamingStrategy} for given * class, if any specified by annotations; and if so, either return * a {@link PropertyNamingStrategy} instance, or Class to use for * creating instance * * @param ac Annotated class to introspect * * @return Sub-class or instance of {@link PropertyNamingStrategy}, if one * is specified for given class; null if not. * * @since 2.1 */ public Object findNamingStrategy(AnnotatedClass ac) { return null; } /** * Method used to check whether specified class defines a human-readable * description to use for documentation. * There are no further definitions for contents; for example, whether * these may be marked up using HTML (or something like wiki format like Markup) * is not defined. * * @param ac Annotated class to introspect * * @return Human-readable description, if any. * * @since 2.7 */ public String findClassDescription(AnnotatedClass ac) { return null; } /** * @param forSerialization True if requesting properties to ignore for serialization; * false if for deserialization * @param ac Annotated class to introspect * * @return Array of names of properties to ignore * * @since 2.6 * * @deprecated Since 2.8, use {@link #findPropertyIgnoralByName} instead */ @Deprecated // since 2.8 public String[] findPropertiesToIgnore(Annotated ac, boolean forSerialization) { return null; } /** * Method for checking whether an annotation indicates that all unknown properties * should be ignored. * * @param ac Annotated class to introspect * * @return True if class has something indicating "ignore [all] unknown properties" * * @deprecated Since 2.8, use {@link #findPropertyIgnoralByName} instead */ @Deprecated // since 2.8 public Boolean findIgnoreUnknownProperties(AnnotatedClass ac) { return null; } /** * @param ac Annotated class to introspect * * @since 2.8 * @deprecated 2.12, use {@link #findPropertyIgnoralByName} instead. * * @return Property ignoral settings to use; * {@code JsonIgnoreProperties.Value.empty()} for defaults (should not return {@code null}) */ @Deprecated // since 2.12 public JsonIgnoreProperties.Value findPropertyIgnorals(Annotated ac) { return JsonIgnoreProperties.Value.empty(); } /* /********************************************************** /* Property auto-detection /********************************************************** */ /** * Method for checking if annotations indicate changes to minimum visibility levels * needed for auto-detecting property elements (fields, methods, constructors). * A baseline checker is given, and introspector is to either return it as is * (if no annotations are found), or build and return a derived instance (using * checker's build methods). * * @param ac Annotated class to introspect * @param checker Default visibility settings in effect before any override * * @return Visibility settings after possible annotation-based overrides */ public VisibilityChecker findAutoDetectVisibility(AnnotatedClass ac, VisibilityChecker checker) { return checker; } /* /********************************************************** /* Annotations for Polymorphic type handling /********************************************************** */ /** * Method for checking if given class has annotations that indicate * that specific type resolver is to be used for handling instances. * This includes not only * instantiating resolver builder, but also configuring it based on * relevant annotations (not including ones checked with a call to * {@link #findSubtypes} * * @param config Configuration settings in effect (for serialization or deserialization) * @param ac Annotated class to check for annotations * @param baseType Base java type of value for which resolver is to be found * * @return Type resolver builder for given type, if one found; null if none */ public TypeResolverBuilder findTypeResolver(MapperConfig config, AnnotatedClass ac, JavaType baseType) { return null; } /** * Method for checking if given property entity (field or method) has annotations * that indicate that specific type resolver is to be used for handling instances. * This includes not only * instantiating resolver builder, but also configuring it based on * relevant annotations (not including ones checked with a call to * {@link #findSubtypes} * * @param config Configuration settings in effect (for serialization or deserialization) * @param am Annotated member (field or method) to check for annotations * @param baseType Base java type of property for which resolver is to be found * * @return Type resolver builder for properties of given entity, if one found; * null if none */ public TypeResolverBuilder findPropertyTypeResolver(MapperConfig config, AnnotatedMember am, JavaType baseType) { return null; } /** * Method for checking if given structured property entity (field or method that * has nominal value of Map, Collection or array type) has annotations * that indicate that specific type resolver is to be used for handling type * information of contained values. * This includes not only * instantiating resolver builder, but also configuring it based on * relevant annotations (not including ones checked with a call to * {@link #findSubtypes} * * @param config Configuration settings in effect (for serialization or deserialization) * @param am Annotated member (field or method) to check for annotations * @param containerType Type of property for which resolver is to be found (must be a container type) * * @return Type resolver builder for values contained in properties of given entity, * if one found; null if none */ public TypeResolverBuilder findPropertyContentTypeResolver(MapperConfig config, AnnotatedMember am, JavaType containerType) { return null; } /** * Method for locating annotation-specified subtypes related to annotated * entity (class, method, field). Note that this is only guaranteed to be * a list of directly * declared subtypes, no recursive processing is guarantees (i.e. caller * has to do it if/as necessary) * * @param a Annotated entity (class, field/method) to check for annotations * * @return List of subtype definitions found if any; {@code null} if none */ public List findSubtypes(Annotated a) { return null; } /** * Method for checking if specified type has explicit name. * * @param ac Class to check for type name annotations * * @return Explicit type name (aka Type Id) found, if any; {@code null} if none */ public String findTypeName(AnnotatedClass ac) { return null; } /** * Method for checking whether given accessor claims to represent * type id: if so, its value may be used as an override, * instead of generated type id. * * @param am Annotated accessor (field/method/constructor parameter) to check for annotations * * @return Boolean to indicate whether member is a type id or not, if annotation * found; {@code null} if no information found. */ public Boolean isTypeId(AnnotatedMember am) { return null; } /* /********************************************************** /* General member (field, method/constructor) annotations /********************************************************** */ /** * Method for checking if given member indicates that it is part * of a reference (parent/child). */ public ReferenceProperty findReferenceType(AnnotatedMember member) { return null; } /** * Method called to check whether given property is marked to be "unwrapped" * when being serialized (and appropriately handled in reverse direction, * i.e. expect unwrapped representation during deserialization). * Return value is the name transformation to use, if wrapping/unwrapping * should be done, or null if not -- note that transformation may simply * be identity transformation (no changes). */ public NameTransformer findUnwrappingNameTransformer(AnnotatedMember member) { return null; } /** * Method called to check whether given property is marked to * be ignored. This is used to determine whether to ignore * properties, on per-property basis, usually combining * annotations from multiple accessors (getters, setters, fields, * constructor parameters). */ public boolean hasIgnoreMarker(AnnotatedMember m) { return false; } /** * Method called to find out whether given member expectes a value * to be injected, and if so, what is the identifier of the value * to use during injection. * Type if identifier needs to be compatible with provider of * values (of type {@link InjectableValues}); often a simple String * id is used. * * @param m Member to check * * @return Identifier of value to inject, if any; null if no injection * indicator is found * * @since 2.9 */ public JacksonInject.Value findInjectableValue(AnnotatedMember m) { // 05-Apr-2017, tatu: Just for 2.9, call deprecated method to help // with some cases of overrides for legacy code Object id = findInjectableValueId(m); if (id != null) { return JacksonInject.Value.forId(id); } return null; } /** * Method that can be called to check whether this member has * an annotation that suggests whether value for matching property * is required or not. */ public Boolean hasRequiredMarker(AnnotatedMember m) { return null; } /** * Method for checking if annotated property (represented by a field or * getter/setter method) has definitions for views it is to be included in. * If null is returned, no view definitions exist and property is always * included (or always excluded as per default view inclusion configuration); * otherwise it will only be included for views included in returned * array. View matches are checked using class inheritance rules (sub-classes * inherit inclusions of super-classes) *

* Since 2.9 this method may also be called to find "default view(s)" for * {@link AnnotatedClass} * * @param a Annotated property (represented by a method, field or ctor parameter) * @return Array of views (represented by classes) that the property is included in; * if null, always included (same as returning array containing Object.class) */ public Class[] findViews(Annotated a) { return null; } /** * Method for finding format annotations for property or class. * Return value is typically used by serializers and/or * deserializers to customize presentation aspects of the * serialized value. * * @since 2.1 */ public JsonFormat.Value findFormat(Annotated memberOrClass) { return JsonFormat.Value.empty(); } /** * Method used to check if specified property has annotation that indicates * that it should be wrapped in an element; and if so, name to use. * Note that not all serializers and deserializers support use this method: * currently (2.1) it is only used by XML-backed handlers. * * @return Wrapper name to use, if any, or {@link PropertyName#USE_DEFAULT} * to indicate that no wrapper element should be used. * * @since 2.1 */ public PropertyName findWrapperName(Annotated ann) { return null; } /** * Method for finding suggested default value (as simple textual serialization) * for the property. While core databind does not make any use of it, it is exposed * for extension modules to use: an expected use is generation of schema representations * and documentation. * * @since 2.5 */ public String findPropertyDefaultValue(Annotated ann) { return null; } /** * Method used to check whether specified property member (accessor * or mutator) defines human-readable description to use for documentation. * There are no further definitions for contents; for example, whether * these may be marked up using HTML is not defined. * * @return Human-readable description, if any. * * @since 2.3 */ public String findPropertyDescription(Annotated ann) { return null; } /** * Method used to check whether specified property member (accessor * or mutator) defines numeric index, and if so, what is the index value. * Possible use cases for index values included use by underlying data format * (some binary formats mandate use of index instead of name) and ordering * of properties (for documentation, or during serialization). * * @since 2.4 * * @return Explicitly specified index for the property, if any */ public Integer findPropertyIndex(Annotated ann) { return null; } /** * Method for finding implicit name for a property that given annotated * member (field, method, creator parameter) may represent. * This is different from explicit, annotation-based property name, in that * it is "weak" and does not either proof that a property exists (for example, * if visibility is not high enough), or override explicit names. * In practice this method is used to introspect optional names for creator * parameters (which may or may not be available and cannot be detected * by standard databind); or to provide alternate name mangling for * fields, getters and/or setters. * * @since 2.4 */ public String findImplicitPropertyName(AnnotatedMember member) { return null; } /** * Method called to find if given property has alias(es) defined. * * @return `null` if member has no information; otherwise a `List` (possibly * empty) of aliases to use. * * @since 2.9 */ public List findPropertyAliases(Annotated ann) { return null; } /** * Method for finding optional access definition for a property, annotated * on one of its accessors. If a definition for read-only, write-only * or read-write cases, visibility rules may be modified. Note, however, * that even more specific annotations (like one for ignoring specific accessor) * may further override behavior of the access definition. * * @since 2.6 */ public JsonProperty.Access findPropertyAccess(Annotated ann) { return null; } /** * Method called in cases where a class has two methods eligible to be used * for the same logical property, and default logic is not enough to figure * out clear precedence. Introspector may try to choose one to use; or, if * unable, return `null` to indicate it cannot resolve the problem. * * @since 2.7 */ public AnnotatedMethod resolveSetterConflict(MapperConfig config, AnnotatedMethod setter1, AnnotatedMethod setter2) { return null; } /** * Method called on fields that are eligible candidates for properties * (that is, non-static member fields), but not necessarily selected (may * or may not be visible), to let fields affect name linking. * Call will be made after finding implicit name (which by default is just * name of the field, but may be overridden by introspector), but before * discovering other accessors. * If non-null name returned, it is to be used to find other accessors (getters, * setters, creator parameters) and replace their implicit names with that * of field's implicit name (assuming they differ). *

* Specific example (and initial use case is for support Kotlin's "is getter" * matching (see * Kotling Interop * for details), in which field like '{@code isOpen}' would have implicit name of * "isOpen", match getter {@code getOpen()} and setter {@code setOpen(boolean)}, * but use logical external name of "isOpen" (and not implicit name of getter/setter, "open"!). * To achieve this, field implicit name needs to remain "isOpen" but this method needs * to return name {@code PropertyName.construct("open")}: doing so will "pull in" getter * and/or setter, and rename them as "isOpen". * * @param config Effective mapper configuration in use * @param f Field to check * @param implName Implicit name of the field; usually name of field itself but not always, * used as the target name for accessors to rename. * * @return Name used to find other accessors to rename, if any; {@code null} to indicate * no renaming * * @since 2.11 */ public PropertyName findRenameByField(MapperConfig config, AnnotatedField f, PropertyName implName) { return null; } /** * @deprecated Since 2.9 Use {@link #findInjectableValue} instead */ @Deprecated // since 2.9 public Object findInjectableValueId(AnnotatedMember m) { return null; } /* /********************************************************** /* Serialization: general annotations /********************************************************** */ /** * Method for getting a serializer definition on specified method * or field. Type of definition is either instance (of type {@link JsonSerializer}) * or Class (of {@code Class} implementation subtype); * if value of different type is returned, a runtime exception may be thrown by caller. */ public Object findSerializer(Annotated am) { return null; } /** * Method for getting a serializer definition for keys of associated {@code java.util.Map} property. * Type of definition is either instance (of type {@link JsonSerializer}) * or Class (of type {@code Class}); * if value of different type is returned, a runtime exception may be thrown by caller. */ public Object findKeySerializer(Annotated am) { return null; } /** * Method for getting a serializer definition for content (values) of * associated Collection, array or {@code Map} property. * Type of definition is either instance (of type {@link JsonSerializer}) * or Class (of type {@code Class}); * if value of different * type is returned, a runtime exception may be thrown by caller. */ public Object findContentSerializer(Annotated am) { return null; } /** * Method for getting a serializer definition for serializer to use * for nulls (null values) of associated property or type. * * @since 2.3 */ public Object findNullSerializer(Annotated am) { return null; } /** * Method for accessing declared typing mode annotated (if any). * This is used for type detection, unless more granular settings * (such as actual exact type; or serializer to use which means * no type information is needed) take precedence. * * @return Typing mode to use, if annotation is found; null otherwise */ public JsonSerialize.Typing findSerializationTyping(Annotated a) { return null; } /** * Method for finding {@link Converter} that annotated entity * (property or class) has indicated to be used as part of * serialization. If not null, either has to be actual * {@link Converter} instance, or class for such converter; * and resulting converter will be used first to convert property * value to converter target type, and then serializer for that * type is used for actual serialization. *

* This feature is typically used to convert internal values into types * that Jackson can convert. *

* Note also that this feature does not necessarily work well with polymorphic * type handling, or object identity handling; if such features are needed * an explicit serializer is usually better way to handle serialization. * * @param a Annotated property (field, method) or class to check for * annotations * * @since 2.2 */ public Object findSerializationConverter(Annotated a) { return null; } /** * Method for finding {@link Converter} that annotated property * has indicated needs to be used for values of container type * (this also means that method should only be called for properties * of container types, List/Map/array properties). *

* If not null, either has to be actual * {@link Converter} instance, or class for such converter; * and resulting converter will be used first to convert property * value to converter target type, and then serializer for that * type is used for actual serialization. *

* Other notes are same as those for {@link #findSerializationConverter} * * @param a Annotated property (field, method) to check. * * @since 2.2 */ public Object findSerializationContentConverter(AnnotatedMember a) { return null; } /** * Method for checking inclusion criteria for a type (Class) or property (yes, method * name is bit unfortunate -- not just for properties!). * In case of class, acts as the default for properties POJO contains; for properties * acts as override for class defaults and possible global defaults. * * @since 2.6 */ public JsonInclude.Value findPropertyInclusion(Annotated a) { return JsonInclude.Value.empty(); } /** * Method for checking whether given annotated entity (class, method, * field) defines which Bean/Map properties are to be included in * serialization. * If no annotation is found, method should return given second * argument; otherwise value indicated by the annotation. *

* Note that meaning of inclusion value depends on whether it is for * a Class or property (field/method/constructor): in former case, * it is the default for all properties; in latter case it is specific * override for annotated property. * * @return Enumerated value indicating which properties to include * in serialization * * @deprecated Since 2.7 Use {@link #findPropertyInclusion} instead */ @Deprecated // since 2.7 public JsonInclude.Include findSerializationInclusion(Annotated a, JsonInclude.Include defValue) { return defValue; } /** * Method for checking whether content (entries) of a {@link java.util.Map} property * are to be included during serialization or not. * NOTE: this is NOT called for POJO properties, or array/Collection elements. * * @since 2.5 * * @deprecated Since 2.7 Use {@link #findPropertyInclusion} instead */ @Deprecated // since 2.7 public JsonInclude.Include findSerializationInclusionForContent(Annotated a, JsonInclude.Include defValue) { return defValue; } /* /********************************************************** /* Serialization: type refinements /********************************************************** */ /** * Method called to find out possible type refinements to use * for deserialization, including not just value itself but * key and/or content type, if type has those. * * @since 2.7 */ public JavaType refineSerializationType(final MapperConfig config, final Annotated a, final JavaType baseType) throws JsonMappingException { return baseType; } /** * @deprecated Since 2.7 call {@link #refineSerializationType} instead */ @Deprecated // since 2.7 public Class findSerializationType(Annotated a) { return null; } /** * @deprecated Since 2.7 call {@link #refineSerializationType} instead */ @Deprecated // since 2.7 public Class findSerializationKeyType(Annotated am, JavaType baseType) { return null; } /** * @deprecated Since 2.7 call {@link #refineSerializationType} instead */ @Deprecated // since 2.7 public Class findSerializationContentType(Annotated am, JavaType baseType) { return null; } /* /********************************************************** /* Serialization: class annotations /********************************************************** */ /** * Method for accessing defined property serialization order (which may be * partial). May return null if no ordering is defined. */ public String[] findSerializationPropertyOrder(AnnotatedClass ac) { return null; } /** * Method for checking whether an annotation indicates that serialized properties * for which no explicit is defined should be alphabetically (lexicograpically) * ordered */ public Boolean findSerializationSortAlphabetically(Annotated ann) { return null; } /** * Method for adding possible virtual properties to be serialized along * with regular properties. * * @since 2.5 */ public void findAndAddVirtualProperties(MapperConfig config, AnnotatedClass ac, List properties) { } /* /********************************************************** /* Serialization: property annotations /********************************************************** */ /** * Method for checking whether given property accessors (method, * field) has an annotation that suggests property name to use * for serialization. * Should return null if no annotation * is found; otherwise a non-null name (possibly * {@link PropertyName#USE_DEFAULT}, which means "use default heuristics"). * * @param a Property accessor to check * * @return Name to use if found; null if not. * * @since 2.1 */ public PropertyName findNameForSerialization(Annotated a) { return null; } /** * Method for checking whether given method has an annotation * that suggests the return value of annotated field or method * should be used as "the key" of the object instance; usually * serialized as a primitive value such as String or number. * * @return {@link Boolean#TRUE} if such annotation is found and is not disabled; * {@link Boolean#FALSE} if disabled annotation (block) is found (to indicate * accessor is definitely NOT to be used "as value"); or `null` if no * information found. * * @since 2.12 */ public Boolean hasAsKey(MapperConfig config, Annotated a) { return null; } /** * Method for checking whether given method has an annotation * that suggests that the return value of annotated method * should be used as "the value" of the object instance; usually * serialized as a primitive value such as String or number. * * @return {@link Boolean#TRUE} if such annotation is found and is not disabled; * {@link Boolean#FALSE} if disabled annotation (block) is found (to indicate * accessor is definitely NOT to be used "as value"); or `null` if no * information found. * * @since 2.9 */ public Boolean hasAsValue(Annotated a) { // 20-Nov-2016, tatu: Delegate in 2.9; remove redirect from later versions if (a instanceof AnnotatedMethod) { if (hasAsValueAnnotation((AnnotatedMethod) a)) { return true; } } return null; } /** * Method for checking whether given method has an annotation * that suggests that the method is to serve as "any setter"; * method to be used for accessing set of miscellaneous "extra" * properties, often bound with matching "any setter" method. * * @param ann Annotated entity to check * * @return True if such annotation is found (and is not disabled), * false otherwise * * @since 2.9 */ public Boolean hasAnyGetter(Annotated ann) { // 21-Nov-2016, tatu: Delegate in 2.9; remove redirect from later versions if (ann instanceof AnnotatedMethod) { if (hasAnyGetterAnnotation((AnnotatedMethod) ann)) { return true; } } return null; } /** * Method for efficiently figuring out which if given set of Enum values * have explicitly defined name. Method will overwrite entries in incoming names * array with explicit names found, if any, leaving other entries unmodified. * * @param enumType Type of Enumeration * @param enumValues Values of enumeration * @param names Matching declared names of enumeration values (with indexes * matching {@code enumValues} entries) * * @return Array of names to use (possible {@code names} passed as argument) * * @since 2.7 */ public String[] findEnumValues(Class enumType, Enum[] enumValues, String[] names) { // 18-Oct-2016, tatu: In 2.8 delegated to deprecated method; not so in 2.9 and beyond return names; } /** * Method that is related to {@link #findEnumValues} but is called to check if * there are alternative names (aliased) that can be accepted for entries, in * addition to primary names introspected earlier. * If so, these aliases should be returned in {@code aliases} {@link List} passed * as argument (and initialized for proper size by caller). * * @param enumType Type of Enumeration * @param enumValues Values of enumeration * @param aliases (in/out) Pre-allocated array where aliases found, if any, may be * added (in indexes matching those of {@code enumValues}) * * @since 2.11 */ public void findEnumAliases(Class enumType, Enum[] enumValues, String[][] aliases) { ; } /** * Finds the Enum value that should be considered the default value, if possible. * * @param enumCls The Enum class to scan for the default value * * @return null if none found or it's not possible to determine one * * @since 2.8 */ public Enum findDefaultEnumValue(Class> enumCls) { return null; } /** * Method for determining the String value to use for serializing * given enumeration entry; used when serializing enumerations * as Strings (the standard method). * * @param value Enum value to introspect * * @return Serialized enum value. * * @deprecated Since 2.8: use {@link #findEnumValues} instead because this method * does not properly handle override settings (defaults to enum.name * without indicating whether that is explicit or not), and is inefficient to * call one-by-one. */ @Deprecated public String findEnumValue(Enum value) { return value.name(); } /** * @param am Annotated method to check * * @deprecated Since 2.9 Use {@link #hasAsValue(Annotated)} instead. */ @Deprecated // since 2.9 public boolean hasAsValueAnnotation(AnnotatedMethod am) { return false; } /** * @param am Annotated method to check * * @deprecated Since 2.9 Use {@link #hasAnyGetter} instead */ @Deprecated public boolean hasAnyGetterAnnotation(AnnotatedMethod am) { return false; } /* /********************************************************** /* Deserialization: general annotations /********************************************************** */ /** * Method for getting a deserializer definition on specified method * or field. * Type of definition is either instance (of type {@link JsonDeserializer}) * or Class (of type {@code Class&}); * type is returned, a runtime exception may be thrown by caller. */ public Object findDeserializer(Annotated am) { return null; } /** * Method for getting a deserializer definition for keys of * associated Map property. * Type of definition is either instance (of type {@link JsonDeserializer}) * or Class (of type {@code Class}); * if value of different * type is returned, a runtime exception may be thrown by caller. */ public Object findKeyDeserializer(Annotated am) { return null; } /** * Method for getting a deserializer definition for content (values) of * associated Collection, array or * Map property. * Type of definition is either instance (of type {@link JsonDeserializer}) * or Class (of type {@code Class}); * if value of different * type is returned, a runtime exception may be thrown by caller. */ public Object findContentDeserializer(Annotated am) { return null; } /** * Method for finding {@link Converter} that annotated entity * (property or class) has indicated to be used as part of * deserialization. * If not null, either has to be actual * {@link Converter} instance, or class for such converter; * and resulting converter will be used after Jackson has deserializer * data into intermediate type (Converter input type), and Converter * needs to convert this into its target type to be set as property value. *

* This feature is typically used to convert intermediate Jackson types * (that default deserializers can produce) into custom type instances. *

* Note also that this feature does not necessarily work well with polymorphic * type handling, or object identity handling; if such features are needed * an explicit deserializer is usually better way to handle deserialization. * * @param a Annotated property (field, method) or class to check for * annotations * * @since 2.2 */ public Object findDeserializationConverter(Annotated a) { return null; } /** * Method for finding {@link Converter} that annotated property * has indicated needs to be used for values of container type * (this also means that method should only be called for properties * of container types, List/Map/array properties). *

* If not null, either has to be actual * {@link Converter} instance, or class for such converter; * and resulting converter will be used after Jackson has deserializer * data into intermediate type (Converter input type), and Converter * needs to convert this into its target type to be set as property value. *

* Other notes are same as those for {@link #findDeserializationConverter} * * @param a Annotated property (field, method) to check. * * @since 2.2 */ public Object findDeserializationContentConverter(AnnotatedMember a) { return null; } /* /********************************************************** /* Deserialization: type refinements /********************************************************** */ /** * Method called to find out possible type refinements to use * for deserialization. * * @since 2.7 */ public JavaType refineDeserializationType(final MapperConfig config, final Annotated a, final JavaType baseType) throws JsonMappingException { return baseType; } /** * Method for accessing annotated type definition that a * property can have, to be used as the type for deserialization * instead of the static (declared) type. * Type is usually narrowing conversion (i.e.subtype of declared type). * Declared return type of the method is also considered acceptable. * * @param ann Annotated entity to introspect * @param baseType Assumed type before considering annotations * * @return Class to use for deserialization instead of declared type * * @deprecated Since 2.7 call {@link #refineDeserializationType} instead */ @Deprecated public Class findDeserializationType(Annotated ann, JavaType baseType) { return null; } /** * Method for accessing additional narrowing type definition that a * method can have, to define more specific key type to use. * It should be only be used with {@link java.util.Map} types. * * @param ann Annotated entity to introspect * @param baseKeyType Assumed key type before considering annotations * * @return Class specifying more specific type to use instead of * declared type, if annotation found; null if not * * @deprecated Since 2.7 call {@link #refineDeserializationType} instead */ @Deprecated public Class findDeserializationKeyType(Annotated ann, JavaType baseKeyType) { return null; } /** * Method for accessing additional narrowing type definition that a * method can have, to define more specific content type to use; * content refers to Map values and Collection/array elements. * It should be only be used with Map, Collection and array types. * * @param ann Annotated entity to introspect * @param baseContentType Assumed content (value) type before considering annotations * * @return Class specifying more specific type to use instead of * declared type, if annotation found; null if not * * @deprecated Since 2.7 call {@link #refineDeserializationType} instead */ @Deprecated public Class findDeserializationContentType(Annotated ann, JavaType baseContentType) { return null; } /* /********************************************************** /* Deserialization: class annotations /********************************************************** */ /** * Method getting {@link ValueInstantiator} to use for given * type (class): return value can either be an instance of * instantiator, or class of instantiator to create. * * @param ac Annotated class to introspect * * @return Either {@link ValueInstantiator} instance to use, or * {@link Class} of one to create; or {@code null} if no annotations * found to indicate custom value instantiator. */ public Object findValueInstantiator(AnnotatedClass ac) { return null; } /** * Method for finding Builder object to use for constructing * value instance and binding data (sort of combining value * instantiators that can construct, and deserializers * that can bind data). *

* Note that unlike accessors for some helper Objects, this * method does not allow returning instances: the reason is * that builders have state, and a separate instance needs * to be created for each deserialization call. * * @param ac Annotated class to introspect * * @return Builder class to use, if annotation found; {@code null} if not. * * @since 2.0 */ public Class findPOJOBuilder(AnnotatedClass ac) { return null; } /** * @param ac Annotated class to introspect * * @return Builder settings to use, if any found; {@code null} if not. * * @since 2.0 */ public JsonPOJOBuilder.Value findPOJOBuilderConfig(AnnotatedClass ac) { return null; } /* /********************************************************** /* Deserialization: property annotations /********************************************************** */ /** * Method for checking whether given property accessors (method, * field) has an annotation that suggests property name to use * for deserialization (reading JSON into POJOs). * Should return null if no annotation * is found; otherwise a non-null name (possibly * {@link PropertyName#USE_DEFAULT}, which means "use default heuristics"). * * @param ann Annotated entity to check * * @return Name to use if found; {@code null} if not. * * @since 2.1 */ public PropertyName findNameForDeserialization(Annotated ann) { return null; } /** * Method for checking whether given method has an annotation * that suggests that the method is to serve as "any setter"; * method to be used for setting values of any properties for * which no dedicated setter method is found. * * @param ann Annotated entity to check * * @return {@code Boolean.TRUE} or {@code Boolean.FALSE} if explicit * "any setter" marker found; {@code null} otherwise. * * @since 2.9 */ public Boolean hasAnySetter(Annotated ann) { return null; } /** * Method for finding possible settings for property, given annotations * on an accessor. * * @param ann Annotated entity to check * * @return Setter info value found, if any; * {@code JsonSetter.Value.empty()} if none (should not return {@code null}) * * @since 2.9 */ public JsonSetter.Value findSetterInfo(Annotated ann) { return JsonSetter.Value.empty(); } /** * Method for finding merge settings for property, if any. * * @param ann Annotated entity to check * * @return {@code Boolean.TRUE} or {@code Boolean.FALSE} if explicit * merge enable/disable found; {@code null} otherwise. * * @since 2.9 */ public Boolean findMergeInfo(Annotated ann) { return null; } /** * Method called to check whether potential Creator (constructor or static factory * method) has explicit annotation to indicate it as actual Creator; and if so, * which {@link com.fasterxml.jackson.annotation.JsonCreator.Mode} to use. *

* NOTE: caller needs to consider possibility of both `null` (no annotation found) * and {@link com.fasterxml.jackson.annotation.JsonCreator.Mode#DISABLED} (annotation found, * but disabled); latter is necessary as marker in case multiple introspectors are chained, * as well as possibly as when using mix-in annotations. * * @param config Configuration settings in effect (for serialization or deserialization) * @param ann Annotated accessor (usually constructor or static method) to check * * @return Creator mode found, if any; {@code null} if none * * @since 2.9 */ public JsonCreator.Mode findCreatorAnnotation(MapperConfig config, Annotated ann) { // 13-Sep-2016, tatu: for backwards compatibility, implement using delegation /// (remove from version AFTER 2.9) if (hasCreatorAnnotation(ann)) { JsonCreator.Mode mode = findCreatorBinding(ann); if (mode == null) { mode = JsonCreator.Mode.DEFAULT; } return mode; } return null; } /** * Method for checking whether given annotated item (method, constructor) * has an annotation * that suggests that the method is a "creator" (aka factory) * method to be used for construct new instances of deserialized * values. * * @param ann Annotated entity to check * * @return True if such annotation is found (and is not disabled), * false otherwise * * @deprecated Since 2.9 use {@link #findCreatorAnnotation} instead. */ @Deprecated public boolean hasCreatorAnnotation(Annotated ann) { return false; } /** * Method for finding indication of creator binding mode for * a creator (something for which {@link #hasCreatorAnnotation} returns * true), for cases where there may be ambiguity (currently: single-argument * creator with implicit but no explicit name for the argument). * * @param ann Annotated entity to check * * @return Creator mode found, if any; {@code null} if none * * @since 2.5 * @deprecated Since 2.9 use {@link #findCreatorAnnotation} instead. */ @Deprecated public JsonCreator.Mode findCreatorBinding(Annotated ann) { return null; } /** * @param am Annotated method to check * * @deprecated Since 2.9 use {@link #hasAnySetter} instead. * * @return {@code true} if "any-setter" annotation was found; {@code false} otherwise */ @Deprecated // since 2.9 public boolean hasAnySetterAnnotation(AnnotatedMethod am) { return false; } /* /********************************************************** /* Overridable methods: may be used as low-level extension /* points. /********************************************************** */ /** * Method that should be used by sub-classes for ALL * annotation access; * overridable so * that sub-classes may, if they choose to, mangle actual access to * block access ("hide" annotations) or perhaps change it. *

* Default implementation is simply: * * return annotated.getAnnotation(annoClass); * * * @param Annotation type being checked * @param ann Annotated entity to check for specified annotation * @param annoClass Type of annotation to find * * @return Value of given annotation (as per {@code annoClass}), if entity * has one; {@code null} otherwise * * @since 2.5 */ protected A _findAnnotation(Annotated ann, Class annoClass) { return ann.getAnnotation(annoClass); } /** * Method that should be used by sub-classes for ALL * annotation existence access; * overridable so that sub-classes may, if they choose to, mangle actual access to * block access ("hide" annotations) or perhaps change value seen. *

* Default implementation is simply: * * return annotated.hasAnnotation(annoClass); * * * @param ann Annotated entity to check for specified annotation * @param annoClass Type of annotation to find * * @return {@code true} if specified annotation exists in given entity; {@code false} if not * * @since 2.5 */ protected boolean _hasAnnotation(Annotated ann, Class annoClass) { return ann.hasAnnotation(annoClass); } /** * Alternative lookup method that is used to see if annotation has at least one of * annotations of types listed in second argument. * * @param ann Annotated entity to check for specified annotation * @param annoClasses Types of annotation to find * * @return {@code true} if at least one of specified annotation exists in given entity; * {@code false} otherwise * * @since 2.7 */ protected boolean _hasOneOf(Annotated ann, Class[] annoClasses) { return ann.hasOneOf(annoClasses); } }





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