-
BeanDeserializerFactory
-
serialVersionUID: long
-
INIT_CAUSE_PARAMS: Class[]
-
instance: BeanDeserializerFactory
-
BeanDeserializerFactory(DeserializerFactoryConfig): void
-
withConfig(DeserializerFactoryConfig): DeserializerFactory
-
createBeanDeserializer(DeserializationContext, JavaType, BeanDescription): JsonDeserializer<Object>
-
createBuilderBasedDeserializer(DeserializationContext, JavaType, BeanDescription, Class<Object>): JsonDeserializer<Object>
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findStdDeserializer(DeserializationContext, JavaType, BeanDescription): JsonDeserializer<Object>
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materializeAbstractType(DeserializationContext, JavaType, BeanDescription): JavaType
-
buildBeanDeserializer(DeserializationContext, JavaType, BeanDescription): JsonDeserializer<Object>
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buildBuilderBasedDeserializer(DeserializationContext, JavaType, BeanDescription): JsonDeserializer<Object>
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addObjectIdReader(DeserializationContext, BeanDescription, BeanDeserializerBuilder): void
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buildThrowableDeserializer(DeserializationContext, JavaType, BeanDescription): JsonDeserializer<Object>
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constructBeanDeserializerBuilder(DeserializationContext, BeanDescription): BeanDeserializerBuilder
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addBeanProps(DeserializationContext, BeanDescription, BeanDeserializerBuilder): void
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_isSetterlessType(Class<Object>): boolean
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filterBeanProps(DeserializationContext, BeanDescription, BeanDeserializerBuilder, List<BeanPropertyDefinition>, Set<String>): List<BeanPropertyDefinition>
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addBackReferenceProperties(DeserializationContext, BeanDescription, BeanDeserializerBuilder): void
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addReferenceProperties(DeserializationContext, BeanDescription, BeanDeserializerBuilder): void
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addInjectables(DeserializationContext, BeanDescription, BeanDeserializerBuilder): void
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constructAnySetter(DeserializationContext, BeanDescription, AnnotatedMember): SettableAnyProperty
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constructSettableProperty(DeserializationContext, BeanDescription, BeanPropertyDefinition, JavaType): SettableBeanProperty
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constructSetterlessProperty(DeserializationContext, BeanDescription, BeanPropertyDefinition): SettableBeanProperty
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isPotentialBeanType(Class<Object>): boolean
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isIgnorableType(DeserializationConfig, BeanPropertyDefinition, Class<Object>, Map<Class<Object>, Boolean>): boolean
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_validateSubType(DeserializationContext, JavaType, BeanDescription): void
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package com.fasterxml.jackson.databind.deser;
import java.util.*;
import com.fasterxml.jackson.annotation.*;
import com.fasterxml.jackson.databind.*;
import com.fasterxml.jackson.databind.annotation.JsonPOJOBuilder;
import com.fasterxml.jackson.databind.cfg.DeserializerFactoryConfig;
import com.fasterxml.jackson.databind.deser.impl.*;
import com.fasterxml.jackson.databind.deser.std.ThrowableDeserializer;
import com.fasterxml.jackson.databind.exc.InvalidDefinitionException;
import com.fasterxml.jackson.databind.introspect.*;
import com.fasterxml.jackson.databind.jsontype.TypeDeserializer;
import com.fasterxml.jackson.databind.jsontype.impl.SubTypeValidator;
import com.fasterxml.jackson.databind.util.ClassUtil;
import com.fasterxml.jackson.databind.util.SimpleBeanPropertyDefinition;
Concrete deserializer factory class that adds full Bean deserializer
construction logic using class introspection.
Note that factories specifically do not implement any form of caching:
aside from configuration they are stateless; caching is implemented
by other components.
Instances of this class are fully immutable as all configuration is
done by using "fluent factories" (methods that construct new factory
instances with different configuration, instead of modifying instance).
/**
* Concrete deserializer factory class that adds full Bean deserializer
* construction logic using class introspection.
* Note that factories specifically do not implement any form of caching:
* aside from configuration they are stateless; caching is implemented
* by other components.
*<p>
* Instances of this class are fully immutable as all configuration is
* done by using "fluent factories" (methods that construct new factory
* instances with different configuration, instead of modifying instance).
*/
public class BeanDeserializerFactory
extends BasicDeserializerFactory
implements java.io.Serializable // since 2.1
{
private static final long serialVersionUID = 1;
Signature of Throwable.initCause method.
/**
* Signature of <b>Throwable.initCause</b> method.
*/
private final static Class<?>[] INIT_CAUSE_PARAMS = new Class<?>[] { Throwable.class };
/*
/**********************************************************
/* Life-cycle
/**********************************************************
*/
Globally shareable thread-safe instance which has no additional custom deserializers
registered
/**
* Globally shareable thread-safe instance which has no additional custom deserializers
* registered
*/
public final static BeanDeserializerFactory instance = new BeanDeserializerFactory(
new DeserializerFactoryConfig());
public BeanDeserializerFactory(DeserializerFactoryConfig config) {
super(config);
}
Method used by module registration functionality, to construct a new bean
deserializer factory
with different configuration settings.
/**
* Method used by module registration functionality, to construct a new bean
* deserializer factory
* with different configuration settings.
*/
@Override
public DeserializerFactory withConfig(DeserializerFactoryConfig config)
{
if (_factoryConfig == config) {
return this;
}
/* 22-Nov-2010, tatu: Handling of subtypes is tricky if we do immutable-with-copy-ctor;
* and we pretty much have to here either choose between losing subtype instance
* when registering additional deserializers, or losing deserializers.
* Instead, let's actually just throw an error if this method is called when subtype
* has not properly overridden this method; this to indicate problem as soon as possible.
*/
ClassUtil.verifyMustOverride(BeanDeserializerFactory.class, this, "withConfig");
return new BeanDeserializerFactory(config);
}
/*
/**********************************************************
/* DeserializerFactory API implementation
/**********************************************************
*/
Method that DeserializerCaches call to create a new deserializer for types other than Collections, Maps, arrays and enums. /**
* Method that {@link DeserializerCache}s call to create a new
* deserializer for types other than Collections, Maps, arrays and
* enums.
*/
@Override
public JsonDeserializer<Object> createBeanDeserializer(DeserializationContext ctxt,
JavaType type, BeanDescription beanDesc)
throws JsonMappingException
{
final DeserializationConfig config = ctxt.getConfig();
// We may also have custom overrides:
JsonDeserializer<Object> custom = _findCustomBeanDeserializer(type, config, beanDesc);
if (custom != null) {
return custom;
}
/* One more thing to check: do we have an exception type
* (Throwable or its sub-classes)? If so, need slightly
* different handling.
*/
if (type.isThrowable()) {
return buildThrowableDeserializer(ctxt, type, beanDesc);
}
// Or, for abstract types, may have alternate means for resolution
// (defaulting, materialization)
// 29-Nov-2015, tatu: Also, filter out calls to primitive types, they are
// not something we could materialize anything for
if (type.isAbstract() && !type.isPrimitive() && !type.isEnumType()) {
// Let's make it possible to materialize abstract types.
JavaType concreteType = materializeAbstractType(ctxt, type, beanDesc);
if (concreteType != null) {
/* important: introspect actual implementation (abstract class or
* interface doesn't have constructors, for one)
*/
beanDesc = config.introspect(concreteType);
return buildBeanDeserializer(ctxt, concreteType, beanDesc);
}
}
// Otherwise, may want to check handlers for standard types, from superclass:
@SuppressWarnings("unchecked")
JsonDeserializer<Object> deser = (JsonDeserializer<Object>) findStdDeserializer(ctxt, type, beanDesc);
if (deser != null) {
return deser;
}
// Otherwise: could the class be a Bean class? If not, bail out
if (!isPotentialBeanType(type.getRawClass())) {
return null;
}
// For checks like [databind#1599]
_validateSubType(ctxt, type, beanDesc);
// Use generic bean introspection to build deserializer
return buildBeanDeserializer(ctxt, type, beanDesc);
}
@Override
public JsonDeserializer<Object> createBuilderBasedDeserializer(DeserializationContext ctxt,
JavaType valueType, BeanDescription beanDesc, Class<?> builderClass)
throws JsonMappingException
{
// First: need a BeanDescription for builder class
JavaType builderType = ctxt.constructType(builderClass);
BeanDescription builderDesc = ctxt.getConfig().introspectForBuilder(builderType);
return buildBuilderBasedDeserializer(ctxt, valueType, builderDesc);
}
Method called by BeanDeserializerFactory to see if there might be a standard deserializer registered for given type. /**
* Method called by {@link BeanDeserializerFactory} to see if there might be a standard
* deserializer registered for given type.
*/
protected JsonDeserializer<?> findStdDeserializer(DeserializationContext ctxt,
JavaType type, BeanDescription beanDesc)
throws JsonMappingException
{
// note: we do NOT check for custom deserializers here, caller has already
// done that
JsonDeserializer<?> deser = findDefaultDeserializer(ctxt, type, beanDesc);
// Also: better ensure these are post-processable?
if (deser != null) {
if (_factoryConfig.hasDeserializerModifiers()) {
for (BeanDeserializerModifier mod : _factoryConfig.deserializerModifiers()) {
deser = mod.modifyDeserializer(ctxt.getConfig(), beanDesc, deser);
}
}
}
return deser;
}
protected JavaType materializeAbstractType(DeserializationContext ctxt,
JavaType type, BeanDescription beanDesc)
throws JsonMappingException
{
// May have multiple resolvers, call in precedence order until one returns non-null
for (AbstractTypeResolver r : _factoryConfig.abstractTypeResolvers()) {
JavaType concrete = r.resolveAbstractType(ctxt.getConfig(), beanDesc);
if (concrete != null) {
return concrete;
}
}
return null;
}
/*
/**********************************************************
/* Public construction method beyond DeserializerFactory API:
/* can be called from outside as well as overridden by
/* sub-classes
/**********************************************************
*/
Method that is to actually build a bean deserializer instance.
All basic sanity checks have been done to know that what we have
may be a valid bean type, and that there are no default simple
deserializers.
/**
* Method that is to actually build a bean deserializer instance.
* All basic sanity checks have been done to know that what we have
* may be a valid bean type, and that there are no default simple
* deserializers.
*/
@SuppressWarnings("unchecked")
public JsonDeserializer<Object> buildBeanDeserializer(DeserializationContext ctxt,
JavaType type, BeanDescription beanDesc)
throws JsonMappingException
{
// First: check what creators we can use, if any
ValueInstantiator valueInstantiator;
/* 04-Jun-2015, tatu: To work around [databind#636], need to catch the
* issue, defer; this seems like a reasonable good place for now.
* Note, however, that for non-Bean types (Collections, Maps) this
* probably won't work and needs to be added elsewhere.
*/
try {
valueInstantiator = findValueInstantiator(ctxt, beanDesc);
} catch (NoClassDefFoundError error) {
return new ErrorThrowingDeserializer(error);
} catch (IllegalArgumentException e) {
// 05-Apr-2017, tatu: Although it might appear cleaner to require collector
// to throw proper exception, it doesn't actually have reference to this
// instance so...
throw InvalidDefinitionException.from(ctxt.getParser(), e.getMessage(),
beanDesc, null);
}
BeanDeserializerBuilder builder = constructBeanDeserializerBuilder(ctxt, beanDesc);
builder.setValueInstantiator(valueInstantiator);
// And then setters for deserializing from JSON Object
addBeanProps(ctxt, beanDesc, builder);
addObjectIdReader(ctxt, beanDesc, builder);
// managed/back reference fields/setters need special handling... first part
addBackReferenceProperties(ctxt, beanDesc, builder);
addInjectables(ctxt, beanDesc, builder);
final DeserializationConfig config = ctxt.getConfig();
if (_factoryConfig.hasDeserializerModifiers()) {
for (BeanDeserializerModifier mod : _factoryConfig.deserializerModifiers()) {
builder = mod.updateBuilder(config, beanDesc, builder);
}
}
JsonDeserializer<?> deserializer;
if (type.isAbstract() && !valueInstantiator.canInstantiate()) {
deserializer = builder.buildAbstract();
} else {
deserializer = builder.build();
}
// may have modifier(s) that wants to modify or replace serializer we just built
// (note that `resolve()` and `createContextual()` called later on)
if (_factoryConfig.hasDeserializerModifiers()) {
for (BeanDeserializerModifier mod : _factoryConfig.deserializerModifiers()) {
deserializer = mod.modifyDeserializer(config, beanDesc, deserializer);
}
}
return (JsonDeserializer<Object>) deserializer;
}
Method for constructing a bean deserializer that uses specified
intermediate Builder for binding data, and construction of the
value instance.
Note that implementation is mostly copied from the regular
BeanDeserializer build method.
/**
* Method for constructing a bean deserializer that uses specified
* intermediate Builder for binding data, and construction of the
* value instance.
* Note that implementation is mostly copied from the regular
* BeanDeserializer build method.
*/
@SuppressWarnings("unchecked")
protected JsonDeserializer<Object> buildBuilderBasedDeserializer(
DeserializationContext ctxt, JavaType valueType, BeanDescription builderDesc)
throws JsonMappingException
{
// Creators, anyone? (to create builder itself)
ValueInstantiator valueInstantiator;
try {
valueInstantiator = findValueInstantiator(ctxt, builderDesc);
} catch (NoClassDefFoundError error) {
return new ErrorThrowingDeserializer(error);
} catch (IllegalArgumentException e) {
// 05-Apr-2017, tatu: Although it might appear cleaner to require collector
// to throw proper exception, it doesn't actually have reference to this
// instance so...
throw InvalidDefinitionException.from(ctxt.getParser(), e.getMessage(),
builderDesc, null);
}
final DeserializationConfig config = ctxt.getConfig();
BeanDeserializerBuilder builder = constructBeanDeserializerBuilder(ctxt, builderDesc);
builder.setValueInstantiator(valueInstantiator);
// And then "with methods" for deserializing from JSON Object
addBeanProps(ctxt, builderDesc, builder);
addObjectIdReader(ctxt, builderDesc, builder);
// managed/back reference fields/setters need special handling... first part
addBackReferenceProperties(ctxt, builderDesc, builder);
addInjectables(ctxt, builderDesc, builder);
JsonPOJOBuilder.Value builderConfig = builderDesc.findPOJOBuilderConfig();
final String buildMethodName = (builderConfig == null) ?
JsonPOJOBuilder.DEFAULT_BUILD_METHOD : builderConfig.buildMethodName;
// and lastly, find build method to use:
AnnotatedMethod buildMethod = builderDesc.findMethod(buildMethodName, null);
if (buildMethod != null) { // note: can't yet throw error; may be given build method
if (config.canOverrideAccessModifiers()) {
ClassUtil.checkAndFixAccess(buildMethod.getMember(), config.isEnabled(MapperFeature.OVERRIDE_PUBLIC_ACCESS_MODIFIERS));
}
}
builder.setPOJOBuilder(buildMethod, builderConfig);
// this may give us more information...
if (_factoryConfig.hasDeserializerModifiers()) {
for (BeanDeserializerModifier mod : _factoryConfig.deserializerModifiers()) {
builder = mod.updateBuilder(config, builderDesc, builder);
}
}
JsonDeserializer<?> deserializer = builder.buildBuilderBased(
valueType, buildMethodName);
// [JACKSON-440]: may have modifier(s) that wants to modify or replace serializer we just built:
if (_factoryConfig.hasDeserializerModifiers()) {
for (BeanDeserializerModifier mod : _factoryConfig.deserializerModifiers()) {
deserializer = mod.modifyDeserializer(config, builderDesc, deserializer);
}
}
return (JsonDeserializer<Object>) deserializer;
}
protected void addObjectIdReader(DeserializationContext ctxt,
BeanDescription beanDesc, BeanDeserializerBuilder builder)
throws JsonMappingException
{
ObjectIdInfo objectIdInfo = beanDesc.getObjectIdInfo();
if (objectIdInfo == null) {
return;
}
Class<?> implClass = objectIdInfo.getGeneratorType();
JavaType idType;
SettableBeanProperty idProp;
ObjectIdGenerator<?> gen;
ObjectIdResolver resolver = ctxt.objectIdResolverInstance(beanDesc.getClassInfo(), objectIdInfo);
// Just one special case: Property-based generator is trickier
if (implClass == ObjectIdGenerators.PropertyGenerator.class) { // most special one, needs extra work
PropertyName propName = objectIdInfo.getPropertyName();
idProp = builder.findProperty(propName);
if (idProp == null) {
throw new IllegalArgumentException("Invalid Object Id definition for "
+beanDesc.getBeanClass().getName()+": cannot find property with name '"+propName+"'");
}
idType = idProp.getType();
gen = new PropertyBasedObjectIdGenerator(objectIdInfo.getScope());
} else {
JavaType type = ctxt.constructType(implClass);
idType = ctxt.getTypeFactory().findTypeParameters(type, ObjectIdGenerator.class)[0];
idProp = null;
gen = ctxt.objectIdGeneratorInstance(beanDesc.getClassInfo(), objectIdInfo);
}
// also: unlike with value deserializers, let's just resolve one we need here
JsonDeserializer<?> deser = ctxt.findRootValueDeserializer(idType);
builder.setObjectIdReader(ObjectIdReader.construct(idType,
objectIdInfo.getPropertyName(), gen, deser, idProp, resolver));
}
@SuppressWarnings("unchecked")
public JsonDeserializer<Object> buildThrowableDeserializer(DeserializationContext ctxt,
JavaType type, BeanDescription beanDesc)
throws JsonMappingException
{
final DeserializationConfig config = ctxt.getConfig();
// first: construct like a regular bean deserializer...
BeanDeserializerBuilder builder = constructBeanDeserializerBuilder(ctxt, beanDesc);
builder.setValueInstantiator(findValueInstantiator(ctxt, beanDesc));
addBeanProps(ctxt, beanDesc, builder);
// (and assume there won't be any back references)
// But then let's decorate things a bit
// Need to add "initCause" as setter for exceptions (sub-classes of Throwable).
AnnotatedMethod am = beanDesc.findMethod("initCause", INIT_CAUSE_PARAMS);
if (am != null) { // should never be null
SimpleBeanPropertyDefinition propDef = SimpleBeanPropertyDefinition.construct(ctxt.getConfig(), am,
new PropertyName("cause"));
SettableBeanProperty prop = constructSettableProperty(ctxt, beanDesc, propDef,
am.getParameterType(0));
if (prop != null) {
// 21-Aug-2011, tatus: We may actually have found 'cause' property
// to set... but let's replace it just in case, otherwise can end up with odd errors.
builder.addOrReplaceProperty(prop, true);
}
}
// And also need to ignore "localizedMessage"
builder.addIgnorable("localizedMessage");
// Java 7 also added "getSuppressed", skip if we have such data:
builder.addIgnorable("suppressed");
// As well as "message": it will be passed via constructor,
// as there's no 'setMessage()' method
// 23-Jan-2018, tatu: ... although there MAY be Creator Property... which is problematic
// builder.addIgnorable("message");
// update builder now that all information is in?
if (_factoryConfig.hasDeserializerModifiers()) {
for (BeanDeserializerModifier mod : _factoryConfig.deserializerModifiers()) {
builder = mod.updateBuilder(config, beanDesc, builder);
}
}
JsonDeserializer<?> deserializer = builder.build();
/* At this point it ought to be a BeanDeserializer; if not, must assume
* it's some other thing that can handle deserialization ok...
*/
if (deserializer instanceof BeanDeserializer) {
deserializer = new ThrowableDeserializer((BeanDeserializer) deserializer);
}
// may have modifier(s) that wants to modify or replace serializer we just built:
if (_factoryConfig.hasDeserializerModifiers()) {
for (BeanDeserializerModifier mod : _factoryConfig.deserializerModifiers()) {
deserializer = mod.modifyDeserializer(config, beanDesc, deserializer);
}
}
return (JsonDeserializer<Object>) deserializer;
}
/*
/**********************************************************
/* Helper methods for Bean deserializer construction,
/* overridable by sub-classes
/**********************************************************
*/
Overridable method that constructs a BeanDeserializerBuilder which is used to accumulate information needed to create deserializer instance. /**
* Overridable method that constructs a {@link BeanDeserializerBuilder}
* which is used to accumulate information needed to create deserializer
* instance.
*/
protected BeanDeserializerBuilder constructBeanDeserializerBuilder(DeserializationContext ctxt,
BeanDescription beanDesc) {
return new BeanDeserializerBuilder(beanDesc, ctxt);
}
Method called to figure out settable properties for the
bean deserializer to use.
Note: designed to be overridable, and effort is made to keep interface
similar between versions.
/**
* Method called to figure out settable properties for the
* bean deserializer to use.
*<p>
* Note: designed to be overridable, and effort is made to keep interface
* similar between versions.
*/
protected void addBeanProps(DeserializationContext ctxt,
BeanDescription beanDesc, BeanDeserializerBuilder builder)
throws JsonMappingException
{
final boolean isConcrete = !beanDesc.getType().isAbstract();
final SettableBeanProperty[] creatorProps = isConcrete
? builder.getValueInstantiator().getFromObjectArguments(ctxt.getConfig())
: null;
final boolean hasCreatorProps = (creatorProps != null);
// 01-May-2016, tatu: Which base type to use here gets tricky, since
// it may often make most sense to use general type for overrides,
// but what we have here may be more specific impl type. But for now
// just use it as is.
JsonIgnoreProperties.Value ignorals = ctxt.getConfig()
.getDefaultPropertyIgnorals(beanDesc.getBeanClass(),
beanDesc.getClassInfo());
Set<String> ignored;
if (ignorals != null) {
boolean ignoreAny = ignorals.getIgnoreUnknown();
builder.setIgnoreUnknownProperties(ignoreAny);
// Or explicit/implicit definitions?
ignored = ignorals.findIgnoredForDeserialization();
for (String propName : ignored) {
builder.addIgnorable(propName);
}
} else {
ignored = Collections.emptySet();
}
// Also, do we have a fallback "any" setter?
AnnotatedMember anySetter = beanDesc.findAnySetterAccessor();
if (anySetter != null) {
builder.setAnySetter(constructAnySetter(ctxt, beanDesc, anySetter));
} else {
// 23-Jan-2018, tatu: although [databind#1805] would suggest we should block
// properties regardless, for now only consider unless there's any setter...
Collection<String> ignored2 = beanDesc.getIgnoredPropertyNames();
if (ignored2 != null) {
for (String propName : ignored2) {
// allow ignoral of similarly named JSON property, but do not force;
// latter means NOT adding this to 'ignored':
builder.addIgnorable(propName);
}
}
}
final boolean useGettersAsSetters = ctxt.isEnabled(MapperFeature.USE_GETTERS_AS_SETTERS)
&& ctxt.isEnabled(MapperFeature.AUTO_DETECT_GETTERS);
// Ok: let's then filter out property definitions
List<BeanPropertyDefinition> propDefs = filterBeanProps(ctxt,
beanDesc, builder, beanDesc.findProperties(), ignored);
// After which we can let custom code change the set
if (_factoryConfig.hasDeserializerModifiers()) {
for (BeanDeserializerModifier mod : _factoryConfig.deserializerModifiers()) {
propDefs = mod.updateProperties(ctxt.getConfig(), beanDesc, propDefs);
}
}
// At which point we still have all kinds of properties; not all with mutators:
for (BeanPropertyDefinition propDef : propDefs) {
SettableBeanProperty prop = null;
// 18-Oct-2013, tatu: Although constructor parameters have highest precedence,
// we need to do linkage (as per [databind#318]), and so need to start with
// other types, and only then create constructor parameter, if any.
if (propDef.hasSetter()) {
AnnotatedMethod setter = propDef.getSetter();
JavaType propertyType = setter.getParameterType(0);
prop = constructSettableProperty(ctxt, beanDesc, propDef, propertyType);
} else if (propDef.hasField()) {
AnnotatedField field = propDef.getField();
JavaType propertyType = field.getType();
prop = constructSettableProperty(ctxt, beanDesc, propDef, propertyType);
} else {
// NOTE: specifically getter, since field was already checked above
AnnotatedMethod getter = propDef.getGetter();
if (getter != null) {
if (useGettersAsSetters && _isSetterlessType(getter.getRawType())) {
// 23-Jan-2018, tatu: As per [databind#1805], need to ensure we don't
// accidentally sneak in getter-as-setter for `READ_ONLY` properties
if (builder.hasIgnorable(propDef.getName())) {
;
} else {
prop = constructSetterlessProperty(ctxt, beanDesc, propDef);
}
} else if (!propDef.hasConstructorParameter()) {
PropertyMetadata md = propDef.getMetadata();
// 25-Oct-2016, tatu: If merging enabled, might not need setter.
// We cannot quite support this with creator parameters; in theory
// possibly, but right not not due to complexities of routing, so
// just prevent
if (md.getMergeInfo() != null) {
prop = constructSetterlessProperty(ctxt, beanDesc, propDef);
}
}
}
}
// 25-Sep-2014, tatu: No point in finding constructor parameters for abstract types
// (since they are never used anyway)
if (hasCreatorProps && propDef.hasConstructorParameter()) {
/* If property is passed via constructor parameter, we must
* handle things in special way. Not sure what is the most optimal way...
* for now, let's just call a (new) method in builder, which does nothing.
*/
// but let's call a method just to allow custom builders to be aware...
final String name = propDef.getName();
CreatorProperty cprop = null;
if (creatorProps != null) {
for (SettableBeanProperty cp : creatorProps) {
if (name.equals(cp.getName()) && (cp instanceof CreatorProperty)) {
cprop = (CreatorProperty) cp;
break;
}
}
}
if (cprop == null) {
List<String> n = new ArrayList<>();
for (SettableBeanProperty cp : creatorProps) {
n.add(cp.getName());
}
ctxt.reportBadPropertyDefinition(beanDesc, propDef,
"Could not find creator property with name '%s' (known Creator properties: %s)",
name, n);
continue;
}
if (prop != null) {
cprop.setFallbackSetter(prop);
}
Class<?>[] views = propDef.findViews();
if (views == null) {
views = beanDesc.findDefaultViews();
}
cprop.setViews(views);
builder.addCreatorProperty(cprop);
continue;
}
if (prop != null) {
// one more thing before adding to builder: copy any metadata
Class<?>[] views = propDef.findViews();
if (views == null) {
views = beanDesc.findDefaultViews();
}
prop.setViews(views);
builder.addProperty(prop);
}
}
}
private boolean _isSetterlessType(Class<?> rawType) {
// May also need to consider getters
// for Map/Collection properties; but with lowest precedence
// should only consider Collections and Maps, for now?
return Collection.class.isAssignableFrom(rawType)
|| Map.class.isAssignableFrom(rawType);
}
Helper method called to filter out explicit ignored properties,
as well as properties that have "ignorable types".
Note that this will not remove properties that have no
setters.
/**
* Helper method called to filter out explicit ignored properties,
* as well as properties that have "ignorable types".
* Note that this will not remove properties that have no
* setters.
*/
protected List<BeanPropertyDefinition> filterBeanProps(DeserializationContext ctxt,
BeanDescription beanDesc, BeanDeserializerBuilder builder,
List<BeanPropertyDefinition> propDefsIn,
Set<String> ignored)
throws JsonMappingException
{
ArrayList<BeanPropertyDefinition> result = new ArrayList<BeanPropertyDefinition>(
Math.max(4, propDefsIn.size()));
HashMap<Class<?>,Boolean> ignoredTypes = new HashMap<Class<?>,Boolean>();
// These are all valid setters, but we do need to introspect bit more
for (BeanPropertyDefinition property : propDefsIn) {
String name = property.getName();
if (ignored.contains(name)) { // explicit ignoral using @JsonIgnoreProperties needs to block entries
continue;
}
if (!property.hasConstructorParameter()) { // never skip constructor params
Class<?> rawPropertyType = property.getRawPrimaryType();
// Some types are declared as ignorable as well
if ((rawPropertyType != null)
&& isIgnorableType(ctxt.getConfig(), property, rawPropertyType, ignoredTypes)) {
// important: make ignorable, to avoid errors if value is actually seen
builder.addIgnorable(name);
continue;
}
}
result.add(property);
}
return result;
}
Method that will find if bean has any managed- or back-reference properties,
and if so add them to bean, to be linked during resolution phase.
Since: 2.9
/**
* Method that will find if bean has any managed- or back-reference properties,
* and if so add them to bean, to be linked during resolution phase.
*
* @since 2.9
*/
protected void addBackReferenceProperties(DeserializationContext ctxt,
BeanDescription beanDesc, BeanDeserializerBuilder builder)
throws JsonMappingException
{
// and then back references, not necessarily found as regular properties
List<BeanPropertyDefinition> refProps = beanDesc.findBackReferences();
if (refProps != null) {
for (BeanPropertyDefinition refProp : refProps) {
/*
AnnotatedMember m = refProp.getMutator();
JavaType type;
if (m instanceof AnnotatedMethod) {
type = ((AnnotatedMethod) m).getParameterType(0);
} else {
type = m.getType();
// 30-Mar-2017, tatu: Unfortunately it is not yet possible to make back-refs
// work through constructors; but let's at least indicate the issue for now
if (m instanceof AnnotatedParameter) {
ctxt.reportBadTypeDefinition(beanDesc,
"Cannot bind back reference using Creator parameter (reference '%s', parameter index #%d)",
name, ((AnnotatedParameter) m).getIndex());
}
}
*/
String refName = refProp.findReferenceName();
builder.addBackReferenceProperty(refName, constructSettableProperty(ctxt,
beanDesc, refProp, refProp.getPrimaryType()));
}
}
}
@Deprecated // since 2.9 (rename)
protected void addReferenceProperties(DeserializationContext ctxt,
BeanDescription beanDesc, BeanDeserializerBuilder builder)
throws JsonMappingException
{
addBackReferenceProperties(ctxt, beanDesc, builder);
}
Method called locate all members used for value injection (if any), constructor ValueInjector instances, and add them to builder. /**
* Method called locate all members used for value injection (if any),
* constructor {@link com.fasterxml.jackson.databind.deser.impl.ValueInjector} instances, and add them to builder.
*/
protected void addInjectables(DeserializationContext ctxt,
BeanDescription beanDesc, BeanDeserializerBuilder builder)
throws JsonMappingException
{
Map<Object, AnnotatedMember> raw = beanDesc.findInjectables();
if (raw != null) {
for (Map.Entry<Object, AnnotatedMember> entry : raw.entrySet()) {
AnnotatedMember m = entry.getValue();
builder.addInjectable(PropertyName.construct(m.getName()),
m.getType(),
beanDesc.getClassAnnotations(), m, entry.getKey());
}
}
}
Method called to construct fallback SettableAnyProperty for handling unknown bean properties, given a method that has been designated as such setter. Params: - mutator – Either 2-argument method (setter, with key and value), or Field
that contains Map; either way accessor used for passing "any values"
/**
* Method called to construct fallback {@link SettableAnyProperty}
* for handling unknown bean properties, given a method that
* has been designated as such setter.
*
* @param mutator Either 2-argument method (setter, with key and value), or Field
* that contains Map; either way accessor used for passing "any values"
*/
@SuppressWarnings("unchecked")
protected SettableAnyProperty constructAnySetter(DeserializationContext ctxt,
BeanDescription beanDesc, AnnotatedMember mutator)
throws JsonMappingException
{
//find the java type based on the annotated setter method or setter field
BeanProperty prop;
JavaType keyType;
JavaType valueType;
if (mutator instanceof AnnotatedMethod) {
// we know it's a 2-arg method, second arg is the value
AnnotatedMethod am = (AnnotatedMethod) mutator;
keyType = am.getParameterType(0);
valueType = am.getParameterType(1);
valueType = resolveMemberAndTypeAnnotations(ctxt, mutator, valueType);
prop = new BeanProperty.Std(PropertyName.construct(mutator.getName()),
valueType, null, mutator,
PropertyMetadata.STD_OPTIONAL);
} else if (mutator instanceof AnnotatedField) {
AnnotatedField af = (AnnotatedField) mutator;
// get the type from the content type of the map object
JavaType mapType = af.getType();
mapType = resolveMemberAndTypeAnnotations(ctxt, mutator, mapType);
keyType = mapType.getKeyType();
valueType = mapType.getContentType();
prop = new BeanProperty.Std(PropertyName.construct(mutator.getName()),
mapType, null, mutator, PropertyMetadata.STD_OPTIONAL);
} else {
return ctxt.reportBadDefinition(beanDesc.getType(), String.format(
"Unrecognized mutator type for any setter: %s", mutator.getClass()));
}
// First: see if there are explicitly specified
// and then possible direct deserializer override on accessor
KeyDeserializer keyDeser = findKeyDeserializerFromAnnotation(ctxt, mutator);
if (keyDeser == null) {
keyDeser = keyType.getValueHandler();
}
if (keyDeser == null) {
keyDeser = ctxt.findKeyDeserializer(keyType, prop);
} else {
if (keyDeser instanceof ContextualKeyDeserializer) {
keyDeser = ((ContextualKeyDeserializer) keyDeser)
.createContextual(ctxt, prop);
}
}
JsonDeserializer<Object> deser = findContentDeserializerFromAnnotation(ctxt, mutator);
if (deser == null) {
deser = valueType.getValueHandler();
}
if (deser != null) {
// As per [databind#462] need to ensure we contextualize deserializer before passing it on
deser = (JsonDeserializer<Object>) ctxt.handlePrimaryContextualization(deser, prop, valueType);
}
TypeDeserializer typeDeser = valueType.getTypeHandler();
return new SettableAnyProperty(prop, mutator, valueType,
keyDeser, deser, typeDeser);
}
Method that will construct a regular bean property setter using
the given setter method.
Returns: Property constructed, if any; or null to indicate that
there should be no property based on given definitions.
/**
* Method that will construct a regular bean property setter using
* the given setter method.
*
* @return Property constructed, if any; or null to indicate that
* there should be no property based on given definitions.
*/
protected SettableBeanProperty constructSettableProperty(DeserializationContext ctxt,
BeanDescription beanDesc, BeanPropertyDefinition propDef,
JavaType propType0)
throws JsonMappingException
{
// need to ensure method is callable (for non-public)
AnnotatedMember mutator = propDef.getNonConstructorMutator();
// 08-Sep-2016, tatu: issues like [databind#1342] suggest something fishy
// going on; add sanity checks to try to pin down actual problem...
// Possibly passing creator parameter?
if (mutator == null) {
ctxt.reportBadPropertyDefinition(beanDesc, propDef, "No non-constructor mutator available");
}
JavaType type = resolveMemberAndTypeAnnotations(ctxt, mutator, propType0);
// Does the Method specify the deserializer to use? If so, let's use it.
TypeDeserializer typeDeser = type.getTypeHandler();
SettableBeanProperty prop;
if (mutator instanceof AnnotatedMethod) {
prop = new MethodProperty(propDef, type, typeDeser,
beanDesc.getClassAnnotations(), (AnnotatedMethod) mutator);
} else {
// 08-Sep-2016, tatu: wonder if we should verify it is `AnnotatedField` to be safe?
prop = new FieldProperty(propDef, type, typeDeser,
beanDesc.getClassAnnotations(), (AnnotatedField) mutator);
}
JsonDeserializer<?> deser = findDeserializerFromAnnotation(ctxt, mutator);
if (deser == null) {
deser = type.getValueHandler();
}
if (deser != null) {
deser = ctxt.handlePrimaryContextualization(deser, prop, type);
prop = prop.withValueDeserializer(deser);
}
// need to retain name of managed forward references:
AnnotationIntrospector.ReferenceProperty ref = propDef.findReferenceType();
if (ref != null && ref.isManagedReference()) {
prop.setManagedReferenceName(ref.getName());
}
ObjectIdInfo objectIdInfo = propDef.findObjectIdInfo();
if (objectIdInfo != null){
prop.setObjectIdInfo(objectIdInfo);
}
return prop;
}
Method that will construct a regular bean property setter using
the given setter method.
/**
* Method that will construct a regular bean property setter using
* the given setter method.
*/
protected SettableBeanProperty constructSetterlessProperty(DeserializationContext ctxt,
BeanDescription beanDesc, BeanPropertyDefinition propDef)
throws JsonMappingException
{
final AnnotatedMethod getter = propDef.getGetter();
JavaType type = resolveMemberAndTypeAnnotations(ctxt, getter, getter.getType());
TypeDeserializer typeDeser = type.getTypeHandler();
SettableBeanProperty prop = new SetterlessProperty(propDef, type, typeDeser,
beanDesc.getClassAnnotations(), getter);
JsonDeserializer<?> deser = findDeserializerFromAnnotation(ctxt, getter);
if (deser == null) {
deser = type.getValueHandler();
}
if (deser != null) {
deser = ctxt.handlePrimaryContextualization(deser, prop, type);
prop = prop.withValueDeserializer(deser);
}
return prop;
}
/*
/**********************************************************
/* Helper methods for Bean deserializer, other
/**********************************************************
*/
Helper method used to skip processing for types that we know
cannot be (i.e. are never consider to be) beans:
things like primitives, Arrays, Enums, and proxy types.
Note that usually we shouldn't really be getting these sort of
types anyway; but better safe than sorry.
/**
* Helper method used to skip processing for types that we know
* cannot be (i.e. are never consider to be) beans:
* things like primitives, Arrays, Enums, and proxy types.
*<p>
* Note that usually we shouldn't really be getting these sort of
* types anyway; but better safe than sorry.
*/
protected boolean isPotentialBeanType(Class<?> type)
{
String typeStr = ClassUtil.canBeABeanType(type);
if (typeStr != null) {
throw new IllegalArgumentException("Cannot deserialize Class "+type.getName()+" (of type "+typeStr+") as a Bean");
}
if (ClassUtil.isProxyType(type)) {
throw new IllegalArgumentException("Cannot deserialize Proxy class "+type.getName()+" as a Bean");
}
/* also: can't deserialize some local classes: static are ok; in-method not;
* other non-static inner classes are ok
*/
typeStr = ClassUtil.isLocalType(type, true);
if (typeStr != null) {
throw new IllegalArgumentException("Cannot deserialize Class "+type.getName()+" (of type "+typeStr+") as a Bean");
}
return true;
}
Helper method that will check whether given raw type is marked as always ignorable
(for purpose of ignoring properties with type)
/**
* Helper method that will check whether given raw type is marked as always ignorable
* (for purpose of ignoring properties with type)
*/
protected boolean isIgnorableType(DeserializationConfig config, BeanPropertyDefinition propDef,
Class<?> type, Map<Class<?>,Boolean> ignoredTypes)
{
Boolean status = ignoredTypes.get(type);
if (status != null) {
return status.booleanValue();
}
// 22-Oct-2016, tatu: Slight check to skip primitives, String
if ((type == String.class) || type.isPrimitive()) {
status = Boolean.FALSE;
} else {
// 21-Apr-2016, tatu: For 2.8, can specify config overrides
status = config.getConfigOverride(type).getIsIgnoredType();
if (status == null) {
BeanDescription desc = config.introspectClassAnnotations(type);
status = config.getAnnotationIntrospector().isIgnorableType(desc.getClassInfo());
// We default to 'false', i.e. not ignorable
if (status == null) {
status = Boolean.FALSE;
}
}
}
ignoredTypes.put(type, status);
return status.booleanValue();
}
Since: 2.8.11
/**
* @since 2.8.11
*/
protected void _validateSubType(DeserializationContext ctxt, JavaType type,
BeanDescription beanDesc)
throws JsonMappingException
{
SubTypeValidator.instance().validateSubType(ctxt, type, beanDesc);
}
}