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package org.codehaus.jackson.map;

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

import org.codehaus.jackson.type.JavaType;
import org.codehaus.jackson.map.JsonDeserializer;
import org.codehaus.jackson.map.JsonSerializer;
import org.codehaus.jackson.map.annotate.JsonSerialize;
import org.codehaus.jackson.map.deser.ValueInstantiator;
import org.codehaus.jackson.map.introspect.*;
import org.codehaus.jackson.map.jsontype.NamedType;
import org.codehaus.jackson.map.jsontype.TypeResolverBuilder;

/**
 * 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.
 *

* 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. */ public abstract class AnnotationIntrospector { /* /********************************************************** /* Helper types /********************************************************** */ /** * Value type used with managed and back references; contains type and * logic name, used to link related references * * @since 1.6 */ 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 org.codehaus.jackson.annotate.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 org.codehaus.jackson.annotate.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; } } /* /********************************************************** /* Factory methods /********************************************************** */ /** * Factory method for accessing "no operation" implementation * of introspector: instance that will never find any annotation-based * configuration. * * @since 1.3 */ public static AnnotationIntrospector nopInstance() { return NopAnnotationIntrospector.instance; } public static AnnotationIntrospector pair(AnnotationIntrospector a1, AnnotationIntrospector a2) { return new Pair(a1, a2); } /* /********************************************************** /* Access to possibly chained introspectors (1.7) /********************************************************** */ /** * 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. */ 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. */ public Collection allIntrospectors(Collection result) { result.add(this); return result; } /* /********************************************************** /* Generic annotation properties, lookup /********************************************************** */ /** * Method called by framework to determine whether given annotation * is handled by this introspector. */ public abstract boolean isHandled(Annotation ann); /* /********************************************************** /* General class annotations /********************************************************** */ /** * Method that checks whether specified class has annotations * that indicate that it is (or is not) cachable. Exact * semantics depend on type of class annotated and using * class (factory or provider). *

* Currently only used * with deserializers, to determine whether provider * should cache instances, and if no annotations are found, * assumes non-cachable instances. * * @return True, if class is considered cachable within context, * False if not, and null if introspector does not care either * way. */ public Boolean findCachability(AnnotatedClass ac) { return null; } /** * 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. * * @since 1.3 */ public abstract String findRootName(AnnotatedClass ac); /** * Method for finding list of properties to ignore for given class * (null is returned if not specified). * List of property names is applied * after other detection mechanisms, to filter out these specific * properties from being serialized and deserialized. * * @since 1.4 */ public abstract String[] findPropertiesToIgnore(AnnotatedClass ac); /** * Method for checking whether an annotation indicates that all unknown properties * * @since 1.4 */ public abstract Boolean findIgnoreUnknownProperties(AnnotatedClass ac); /** * Method for checking whether properties that have specified type * (class, not generics aware) should be completely ignored for * serialization and deserialization purposes. * * @param ac Type to check * * @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') * * @since 1.7 */ public Boolean isIgnorableType(AnnotatedClass ac) { return null; } /** * Method for finding if annotated class has associated filter; and if so, * to return id that is used to locate filter. * * @return Id of the filter to use for filtering properties of annotated * class, if any; or null if none found. */ public Object findFilterId(AnnotatedClass ac) { return null; } /* /********************************************************** /* 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). * * @since 1.5 */ public VisibilityChecker findAutoDetectVisibility(AnnotatedClass ac, VisibilityChecker checker) { return checker; } /* /********************************************************** /* Class annotations for Polymorphic type handling (1.5+) /********************************************************** */ /** * 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 * * @since 1.5 -- although changed in 1.8 to pass configuration object */ 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 * * @since 1.5 -- although changed in 1.8 to pass configuration object */ 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 * * @since 1.5 -- although changed in 1.8 to pass configuration object */ 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 * * @since 1.5 */ 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 * * @since 1.5 */ public String findTypeName(AnnotatedClass ac) { return null; } /* /********************************************************** /* General member (field, method/constructor) annotations /********************************************************** */ /** * Note: defined as non-abstract to reduce fragility between * versions. * * @since 1.6 */ 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) * * @since 1.9 */ public Boolean shouldUnwrapProperty(AnnotatedMember member) { return null; } /** * Method called to check whether given property is marked to * be ignored; but NOT to determine if it should necessarily * be ignored, since that may depend on other factors. *

* Default implementation calls existing 'isIgnored' methods * such as {@link #isIgnorableField(AnnotatedField)} and * {@link #isIgnorableMethod(AnnotatedMethod)}. * * @since 1.9 */ public boolean hasIgnoreMarker(AnnotatedMember m) { /* For maximum backwards compatibility, we better call * existing methods. */ /* TODO: For 2.0, replace with simple 'return false;' */ if (m instanceof AnnotatedMethod) { return isIgnorableMethod((AnnotatedMethod) m); } if (m instanceof AnnotatedField) { return isIgnorableField((AnnotatedField) m); } if (m instanceof AnnotatedConstructor) { return isIgnorableConstructor((AnnotatedConstructor) 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 */ public Object findInjectableValueId(AnnotatedMember m) { return null; } /* /********************************************************** /* General method annotations /********************************************************** */ /** * Method for checking whether there is an annotation that * indicates that given method should be ignored for all * operations (serialization, deserialization). *

* Note that this method should ONLY return true for such * explicit ignoral cases; and not if method just happens not to * be visible for annotation processor. * * @return True, if an annotation is found to indicate that the * method should be ignored; false if not. */ public abstract boolean isIgnorableMethod(AnnotatedMethod m); /** * @since 1.2 */ public abstract boolean isIgnorableConstructor(AnnotatedConstructor c); /* /********************************************************** /* General field annotations /********************************************************** */ /** * Method for checking whether there is an annotation that * indicates that given field should be ignored for all * operations (serialization, deserialization). * * @return True, if an annotation is found to indicate that the * field should be ignored; false if not. */ public abstract boolean isIgnorableField(AnnotatedField f); /* /********************************************************** /* 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 type * Class); if value of different * type is returned, a runtime exception may be thrown by caller. *

* Note: this variant was briefly deprecated for 1.7; should not be */ public abstract Object findSerializer(Annotated am); /** * Method for getting a serializer definition for keys of associated Map property. * Type of definition is either instance (of type * {@link JsonSerializer}) or Class (of type * Class); if value of different * type is returned, a runtime exception may be thrown by caller. * * @since 1.8 */ public Class> findKeySerializer(Annotated am) { return null; } /** * Method for getting a serializer definition for content (values) of * associated Collection, array or Map property. * Type of definition is either instance (of type * {@link JsonSerializer}) or Class (of type * Class); if value of different * type is returned, a runtime exception may be thrown by caller. * * @since 1.8 */ public Class> findContentSerializer(Annotated am) { return null; } /** * 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 * * @return Enumerated value indicating which properties to include * in serialization */ public JsonSerialize.Inclusion findSerializationInclusion(Annotated a, JsonSerialize.Inclusion defValue) { return defValue; } /** * Method for accessing annotated type definition that a * method/field can have, to be used as the type for serialization * instead of the runtime type. * Type returned (if any) needs to be widening conversion (super-type). * Declared return type of the method is also considered acceptable. * * @return Class to use instead of runtime type */ public abstract Class findSerializationType(Annotated a); /** * Method for finding possible widening type definition that a property * value can have, to define less specific key type to use for serialization. * It should be only be used with {@link java.util.Map} types. * * @return Class specifying more general type to use instead of * declared type, if annotation found; null if not */ public Class findSerializationKeyType(Annotated am, JavaType baseType) { return null; } /** * Method for finding possible widening type definition that a property * value can have, to define less specific key type to use for serialization. * It should be only used with structured types (arrays, collections, maps). * * @return Class specifying more general type to use instead of * declared type, if annotation found; null if not */ public Class findSerializationContentType(Annotated am, JavaType baseType) { 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. * * @since 1.2 * * @return Typing mode to use, if annotation is found; null otherwise */ public abstract JsonSerialize.Typing findSerializationTyping(Annotated a); /** * Method for checking if annotated serializable property (represented by * field or getter method) has definitions for views it is to be included * in. If null is returned, no view definitions exist and property is always * included; 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) * * @param a Annotated serializable property (field or getter method) * @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 abstract Class[] findSerializationViews(Annotated a); /* /********************************************************** /* Serialization: class annotations /********************************************************** */ /** * Method for accessing defined property serialization order (which may be * partial). May return null if no ordering is defined. * * @since 1.4 */ public abstract String[] findSerializationPropertyOrder(AnnotatedClass ac); /** * Method for checking whether an annotation indicates that serialized properties * for which no explicit is defined should be alphabetically (lexicograpically) * ordered * * @since 1.4 */ public abstract Boolean findSerializationSortAlphabetically(AnnotatedClass ac); /* /********************************************************** /* Serialization: method annotations /********************************************************** */ /** * Method for checking whether given method has an annotation * that suggests property name associated with method that * may be a "getter". Should return null if no annotation * is found; otherwise a non-null String. * If non-null value is returned, it is used as the property * name, except for empty String ("") which is taken to mean * "use standard bean name detection if applicable; * method name if not". */ public abstract String findGettablePropertyName(AnnotatedMethod am); /** * 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 True if such annotation is found (and is not disabled); * false if no enabled annotation is found */ public abstract boolean hasAsValueAnnotation(AnnotatedMethod am); /** * Method for determining the String value to use for serializing * given enumeration entry; used when serializing enumerations * as Strings (the standard method). * * @return Serialized enum value. */ public abstract String findEnumValue(Enum value); /* /********************************************************** /* Serialization: field annotations /********************************************************** */ /** * Method for checking whether given member field represent * a serializable logical property; and if so, returns the * name of that property. * Should return null if no annotation is found (indicating it * is not a serializable field); otherwise a non-null String. * If non-null value is returned, it is used as the property * name, except for empty String ("") which is taken to mean * "use the field name as is". */ public abstract String findSerializablePropertyName(AnnotatedField af); /* /********************************************************** /* 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 * Class); if value of different * type is returned, a runtime exception may be thrown by caller. *

* Note: this variant was briefly deprecated for 1.7; but it turns out * we really should not try to push BeanProperty through at this point */ public abstract Object findDeserializer(Annotated am); /** * 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 * Class); if value of different * type is returned, a runtime exception may be thrown by caller. * * @since 1.3 */ public abstract Class findKeyDeserializer(Annotated am); /** * 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 * Class); if value of different * type is returned, a runtime exception may be thrown by caller. * * @since 1.3 */ public abstract Class> findContentDeserializer(Annotated am); /** * Method for accessing annotated type definition that a * method can have, to be used as the type for serialization * instead of the runtime type. * Type must be a narrowing conversion * (i.e.subtype of declared type). * Declared return type of the method is also considered acceptable. * * @param baseType Assumed type before considering annotations * @param propName Logical property name of the property that uses * type, if known; null for types not associated with property * * @return Class to use for deserialization instead of declared type */ public abstract Class findDeserializationType(Annotated am, JavaType baseType, String propName); /** * 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 baseKeyType Assumed key type before considering annotations * @param propName Logical property name of the property that uses * type, if known; null for types not associated with property * * @return Class specifying more specific type to use instead of * declared type, if annotation found; null if not */ public abstract Class findDeserializationKeyType(Annotated am, JavaType baseKeyType, String propName); /** * 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 baseContentType Assumed content (value) type before considering annotations * @param propName Logical property name of the property that uses * type, if known; null for types not associated with property * * @return Class specifying more specific type to use instead of * declared type, if annotation found; null if not */ public abstract Class findDeserializationContentType(Annotated am, JavaType baseContentType, String propName); /* /********************************************************** /* 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. * * @since 1.9 */ public Object findValueInstantiator(AnnotatedClass ac) { return null; } /* /********************************************************** /* Deserialization: method annotations /********************************************************** */ /** * Method for checking whether given method has an annotation * that suggests property name associated with method that * may be a "setter". Should return null if no annotation * is found; otherwise a non-null String. * If non-null value is returned, it is used as the property * name, except for empty String ("") which is taken to mean * "use standard bean name detection if applicable; * method name if not". */ public abstract String findSettablePropertyName(AnnotatedMethod am); /** * 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. * * @return True if such annotation is found (and is not disabled), * false otherwise */ public boolean hasAnySetterAnnotation(AnnotatedMethod am) { return false; } /** * 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. * * @return True if such annotation is found (and is not disabled), * false otherwise * * @since 1.6 */ public boolean hasAnyGetterAnnotation(AnnotatedMethod am) { return false; } /** * 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. * * @return True if such annotation is found (and is not disabled), * false otherwise */ public boolean hasCreatorAnnotation(Annotated a) { return false; } /* /********************************************************** /* Deserialization: field annotations /********************************************************** */ /** * Method for checking whether given member field represent * a deserializable logical property; and if so, returns the * name of that property. * Should return null if no annotation is found (indicating it * is not a deserializable field); otherwise a non-null String. * If non-null value is returned, it is used as the property * name, except for empty String ("") which is taken to mean * "use the field name as is". */ public abstract String findDeserializablePropertyName(AnnotatedField af); /* /********************************************************** /* Deserialization: parameter annotations (for /* creator method parameters) /********************************************************** */ /** * Method for checking whether given set of annotations indicates * property name for associated parameter. * No actual parameter object can be passed since JDK offers no * representation; just annotations. */ public abstract String findPropertyNameForParam(AnnotatedParameter param); /* /********************************************************** /* Helper classes /********************************************************** */ /** * Helper class that allows using 2 introspectors such that one * introspector acts as the primary one to use; and second one * as a fallback used if the primary does not provide conclusive * or useful result for a method. *

* An obvious consequence of priority is that it is easy to construct * longer chains of introspectors by linking multiple pairs. * Currently most likely combination is that of using the default * Jackson provider, along with JAXB annotation introspector (available * since version 1.1). */ public static class Pair extends AnnotationIntrospector { protected final AnnotationIntrospector _primary, _secondary; public Pair(AnnotationIntrospector p, AnnotationIntrospector s) { _primary = p; _secondary = s; } /** * Helper method for constructing a Pair from two given introspectors (if * neither is null); or returning non-null introspector if one is null * (and return just null if both are null) * * @since 1.7 */ public static AnnotationIntrospector create(AnnotationIntrospector primary, AnnotationIntrospector secondary) { if (primary == null) { return secondary; } if (secondary == null) { return primary; } return new Pair(primary, secondary); } @Override public Collection allIntrospectors() { return allIntrospectors(new ArrayList()); } @Override public Collection allIntrospectors(Collection result) { _primary.allIntrospectors(result); _secondary.allIntrospectors(result); return result; } // // // Generic annotation properties, lookup @Override public boolean isHandled(Annotation ann) { return _primary.isHandled(ann) || _secondary.isHandled(ann); } /* /****************************************************** /* General class annotations /****************************************************** */ @Override public Boolean findCachability(AnnotatedClass ac) { Boolean result = _primary.findCachability(ac); if (result == null) { result = _secondary.findCachability(ac); } return result; } @Override public String findRootName(AnnotatedClass ac) { String name1 = _primary.findRootName(ac); if (name1 == null) { return _secondary.findRootName(ac); } else if (name1.length() > 0) { return name1; } // name1 is empty; how about secondary? String name2 = _secondary.findRootName(ac); return (name2 == null) ? name1 : name2; } @Override public String[] findPropertiesToIgnore(AnnotatedClass ac) { String[] result = _primary.findPropertiesToIgnore(ac); if (result == null) { result = _secondary.findPropertiesToIgnore(ac); } return result; } @Override public Boolean findIgnoreUnknownProperties(AnnotatedClass ac) { Boolean result = _primary.findIgnoreUnknownProperties(ac); if (result == null) { result = _secondary.findIgnoreUnknownProperties(ac); } return result; } @Override public Boolean isIgnorableType(AnnotatedClass ac) { Boolean result = _primary.isIgnorableType(ac); if (result == null) { result = _secondary.isIgnorableType(ac); } return result; } @Override public Object findFilterId(AnnotatedClass ac) { Object id = _primary.findFilterId(ac); if (id == null) { id = _secondary.findFilterId(ac); } return id; } /* /****************************************************** /* Property auto-detection /****************************************************** */ @Override public VisibilityChecker findAutoDetectVisibility(AnnotatedClass ac, VisibilityChecker checker) { /* Note: to have proper priorities, we must actually call delegatees * in reverse order: */ checker = _secondary.findAutoDetectVisibility(ac, checker); return _primary.findAutoDetectVisibility(ac, checker); } /* /****************************************************** /* Type handling /****************************************************** */ @Override public TypeResolverBuilder findTypeResolver(MapperConfig config, AnnotatedClass ac, JavaType baseType) { TypeResolverBuilder b = _primary.findTypeResolver(config, ac, baseType); if (b == null) { b = _secondary.findTypeResolver(config, ac, baseType); } return b; } @Override public TypeResolverBuilder findPropertyTypeResolver(MapperConfig config, AnnotatedMember am, JavaType baseType) { TypeResolverBuilder b = _primary.findPropertyTypeResolver(config, am, baseType); if (b == null) { b = _secondary.findPropertyTypeResolver(config, am, baseType); } return b; } @Override public TypeResolverBuilder findPropertyContentTypeResolver(MapperConfig config, AnnotatedMember am, JavaType baseType) { TypeResolverBuilder b = _primary.findPropertyContentTypeResolver(config, am, baseType); if (b == null) { b = _secondary.findPropertyContentTypeResolver(config, am, baseType); } return b; } @Override public List findSubtypes(Annotated a) { List types1 = _primary.findSubtypes(a); List types2 = _secondary.findSubtypes(a); if (types1 == null || types1.isEmpty()) return types2; if (types2 == null || types2.isEmpty()) return types1; ArrayList result = new ArrayList(types1.size() + types2.size()); result.addAll(types1); result.addAll(types2); return result; } @Override public String findTypeName(AnnotatedClass ac) { String name = _primary.findTypeName(ac); if (name == null || name.length() == 0) { name = _secondary.findTypeName(ac); } return name; } // // // General member (field, method/constructor) annotations @Override public ReferenceProperty findReferenceType(AnnotatedMember member) { ReferenceProperty ref = _primary.findReferenceType(member); if (ref == null) { ref = _secondary.findReferenceType(member); } return ref; } @Override public Boolean shouldUnwrapProperty(AnnotatedMember member) { Boolean value = _primary.shouldUnwrapProperty(member); if (value == null) { value = _secondary.shouldUnwrapProperty(member); } return value; } @Override public Object findInjectableValueId(AnnotatedMember m) { Object value = _primary.findInjectableValueId(m); if (value == null) { value = _secondary.findInjectableValueId(m); } return value; } @Override public boolean hasIgnoreMarker(AnnotatedMember m) { return _primary.hasIgnoreMarker(m) || _secondary.hasIgnoreMarker(m); } // // // General method annotations @Override public boolean isIgnorableMethod(AnnotatedMethod m) { return _primary.isIgnorableMethod(m) || _secondary.isIgnorableMethod(m); } @Override public boolean isIgnorableConstructor(AnnotatedConstructor c) { return _primary.isIgnorableConstructor(c) || _secondary.isIgnorableConstructor(c); } // // // General field annotations @Override public boolean isIgnorableField(AnnotatedField f) { return _primary.isIgnorableField(f) || _secondary.isIgnorableField(f); } // // // Serialization: general annotations @Override public Object findSerializer(Annotated am) { Object result = _primary.findSerializer(am); if (result == null) { result = _secondary.findSerializer(am); } return result; } @Override public Class> findKeySerializer(Annotated a) { Class> result = _primary.findKeySerializer(a); if (result == null || result == JsonSerializer.None.class) { result = _secondary.findKeySerializer(a); } return result; } @Override public Class> findContentSerializer(Annotated a) { Class> result = _primary.findContentSerializer(a); if (result == null || result == JsonSerializer.None.class) { result = _secondary.findContentSerializer(a); } return result; } @Override public JsonSerialize.Inclusion findSerializationInclusion(Annotated a, JsonSerialize.Inclusion defValue) { /* This is bit trickier: need to combine results in a meaningful * way. Seems like it should be a disjoint; that is, most * restrictive value should be returned. * For enumerations, comparison is done by indexes, which * works: largest value is the last one, which is the most * restrictive value as well. */ /* 09-Mar-2010, tatu: Actually, as per [JACKSON-256], it is probably better to just * use strict overriding. Simpler, easier to understand. */ // note: call secondary first, to give lower priority defValue = _secondary.findSerializationInclusion(a, defValue); defValue = _primary.findSerializationInclusion(a, defValue); return defValue; } @Override public Class findSerializationType(Annotated a) { Class result = _primary.findSerializationType(a); if (result == null) { result = _secondary.findSerializationType(a); } return result; } @Override public Class findSerializationKeyType(Annotated am, JavaType baseType) { Class result = _primary.findSerializationKeyType(am, baseType); if (result == null) { result = _secondary.findSerializationKeyType(am, baseType); } return result; } @Override public Class findSerializationContentType(Annotated am, JavaType baseType) { Class result = _primary.findSerializationContentType(am, baseType); if (result == null) { result = _secondary.findSerializationContentType(am, baseType); } return result; } @Override public JsonSerialize.Typing findSerializationTyping(Annotated a) { JsonSerialize.Typing result = _primary.findSerializationTyping(a); if (result == null) { result = _secondary.findSerializationTyping(a); } return result; } @Override public Class[] findSerializationViews(Annotated a) { /* Theoretically this could be trickier, if multiple introspectors * return non-null entries. For now, though, we'll just consider * first one to return non-null to win. */ Class[] result = _primary.findSerializationViews(a); if (result == null) { result = _secondary.findSerializationViews(a); } return result; } // // // Serialization: class annotations @Override public String[] findSerializationPropertyOrder(AnnotatedClass ac) { String[] result = _primary.findSerializationPropertyOrder(ac); if (result == null) { result = _secondary.findSerializationPropertyOrder(ac); } return result; } /** * Method for checking whether an annotation indicates that serialized properties * for which no explicit is defined should be alphabetically (lexicograpically) * ordered */ @Override public Boolean findSerializationSortAlphabetically(AnnotatedClass ac) { Boolean result = _primary.findSerializationSortAlphabetically(ac); if (result == null) { result = _secondary.findSerializationSortAlphabetically(ac); } return result; } // // // Serialization: method annotations @Override public String findGettablePropertyName(AnnotatedMethod am) { String result = _primary.findGettablePropertyName(am); if (result == null) { result = _secondary.findGettablePropertyName(am); } else if (result.length() == 0) { /* Empty String is a default; can be overridden by * more explicit answer from secondary entry */ String str2 = _secondary.findGettablePropertyName(am); if (str2 != null) { result = str2; } } return result; } @Override public boolean hasAsValueAnnotation(AnnotatedMethod am) { return _primary.hasAsValueAnnotation(am) || _secondary.hasAsValueAnnotation(am); } @Override public String findEnumValue(Enum value) { String result = _primary.findEnumValue(value); if (result == null) { result = _secondary.findEnumValue(value); } return result; } // // // Serialization: field annotations @Override public String findSerializablePropertyName(AnnotatedField af) { String result = _primary.findSerializablePropertyName(af); if (result == null) { result = _secondary.findSerializablePropertyName(af); } else if (result.length() == 0) { /* Empty String is a default; can be overridden by * more explicit answer from secondary entry */ String str2 = _secondary.findSerializablePropertyName(af); if (str2 != null) { result = str2; } } return result; } // // // Deserialization: general annotations @Override public Object findDeserializer(Annotated am) { Object result = _primary.findDeserializer(am); if (result == null) { result = _secondary.findDeserializer(am); } return result; } @Override public Class findKeyDeserializer(Annotated am) { Class result = _primary.findKeyDeserializer(am); if (result == null || result == KeyDeserializer.None.class) { result = _secondary.findKeyDeserializer(am); } return result; } @Override public Class> findContentDeserializer(Annotated am) { Class> result = _primary.findContentDeserializer(am); if (result == null || result == JsonDeserializer.None.class) { result = _secondary.findContentDeserializer(am); } return result; } @Override public Class findDeserializationType(Annotated am, JavaType baseType, String propName) { Class result = _primary.findDeserializationType(am, baseType, propName); if (result == null) { result = _secondary.findDeserializationType(am, baseType, propName); } return result; } @Override public Class findDeserializationKeyType(Annotated am, JavaType baseKeyType, String propName) { Class result = _primary.findDeserializationKeyType(am, baseKeyType, propName); if (result == null) { result = _secondary.findDeserializationKeyType(am, baseKeyType, propName); } return result; } @Override public Class findDeserializationContentType(Annotated am, JavaType baseContentType, String propName) { Class result = _primary.findDeserializationContentType(am, baseContentType, propName); if (result == null) { result = _secondary.findDeserializationContentType(am, baseContentType, propName); } return result; } // // // Deserialization: class annotations @Override public Object findValueInstantiator(AnnotatedClass ac) { Object result = _primary.findValueInstantiator(ac); if (result == null) { result = _secondary.findValueInstantiator(ac); } return result; } // // // Deserialization: method annotations @Override public String findSettablePropertyName(AnnotatedMethod am) { String result = _primary.findSettablePropertyName(am); if (result == null) { result = _secondary.findSettablePropertyName(am); } else if (result.length() == 0) { /* Empty String is a default; can be overridden by * more explicit answer from secondary entry */ String str2 = _secondary.findSettablePropertyName(am); if (str2 != null) { result = str2; } } return result; } @Override public boolean hasAnySetterAnnotation(AnnotatedMethod am) { return _primary.hasAnySetterAnnotation(am) || _secondary.hasAnySetterAnnotation(am); } @Override public boolean hasAnyGetterAnnotation(AnnotatedMethod am) { return _primary.hasAnyGetterAnnotation(am) || _secondary.hasAnyGetterAnnotation(am); } @Override public boolean hasCreatorAnnotation(Annotated a) { return _primary.hasCreatorAnnotation(a) || _secondary.hasCreatorAnnotation(a); } // // // Deserialization: field annotations @Override public String findDeserializablePropertyName(AnnotatedField af) { String result = _primary.findDeserializablePropertyName(af); if (result == null) { result = _secondary.findDeserializablePropertyName(af); } else if (result.length() == 0) { /* Empty String is a default; can be overridden by * more explicit answer from secondary entry */ String str2 = _secondary.findDeserializablePropertyName(af); if (str2 != null) { result = str2; } } return result; } // // // Deserialization: parameter annotations (for creators) @Override public String findPropertyNameForParam(AnnotatedParameter param) { String result = _primary.findPropertyNameForParam(param); if (result == null) { result = _secondary.findPropertyNameForParam(param); } return result; } } }





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