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com.fasterxml.jackson.databind.deser.BeanDeserializerBase Maven / Gradle / Ivy
package com.fasterxml.jackson.databind.deser;
import java.io.IOException;
import java.lang.reflect.Constructor;
import java.lang.reflect.InvocationTargetException;
import java.util.*;
import com.fasterxml.jackson.annotation.*;
import com.fasterxml.jackson.core.*;
import com.fasterxml.jackson.core.JsonParser.NumberType;
import com.fasterxml.jackson.databind.*;
import com.fasterxml.jackson.databind.deser.impl.*;
import com.fasterxml.jackson.databind.deser.std.StdDelegatingDeserializer;
import com.fasterxml.jackson.databind.deser.std.StdDeserializer;
import com.fasterxml.jackson.databind.exc.IgnoredPropertyException;
import com.fasterxml.jackson.databind.introspect.*;
import com.fasterxml.jackson.databind.jsontype.TypeDeserializer;
import com.fasterxml.jackson.databind.type.ClassKey;
import com.fasterxml.jackson.databind.type.LogicalType;
import com.fasterxml.jackson.databind.util.*;
/**
* Base class for BeanDeserializer
.
*/
public abstract class BeanDeserializerBase
extends StdDeserializer
implements ContextualDeserializer, ResolvableDeserializer,
ValueInstantiator.Gettable, // since 2.9
java.io.Serializable // since 2.1
{
private static final long serialVersionUID = 1;
protected final static PropertyName TEMP_PROPERTY_NAME = new PropertyName("#temporary-name");
/*
/**********************************************************
/* Information regarding type being deserialized
/**********************************************************
*/
/**
* Declared type of the bean this deserializer handles.
*/
final protected JavaType _beanType;
/**
* Requested shape from bean class annotations.
*/
final protected JsonFormat.Shape _serializationShape;
/*
/**********************************************************
/* Configuration for creating value instance
/**********************************************************
*/
/**
* Object that handles details of constructing initial
* bean value (to which bind data to), unless instance
* is passed (via updateValue())
*/
protected final ValueInstantiator _valueInstantiator;
/**
* Deserializer that is used iff delegate-based creator is
* to be used for deserializing from JSON Object.
*
* NOTE: cannot be {@code final} because we need to get it during
* {@code resolve()} method (and not contextualization).
*/
protected JsonDeserializer _delegateDeserializer;
/**
* Deserializer that is used iff array-delegate-based creator
* is to be used for deserializing from JSON Object.
*
* NOTE: cannot be {@code final} because we need to get it during
* {@code resolve()} method (and not contextualization).
*/
protected JsonDeserializer _arrayDelegateDeserializer;
/**
* If the bean needs to be instantiated using constructor
* or factory method
* that takes one or more named properties as argument(s),
* this creator is used for instantiation.
* This value gets resolved during general resolution.
*/
protected PropertyBasedCreator _propertyBasedCreator;
/**
* Flag that is set to mark cases where deserialization from Object value
* using otherwise "standard" property binding will need to use non-default
* creation method: namely, either "full" delegation (array-delegation does
* not apply), or properties-based Creator method is used.
*
* Note that flag is somewhat mis-named as it is not affected by scalar-delegating
* creators; it only has effect on Object Value binding.
*/
protected boolean _nonStandardCreation;
/**
* Flag that indicates that no "special features" whatsoever
* are enabled, so the simplest processing is possible.
*/
protected boolean _vanillaProcessing;
/*
/**********************************************************
/* Property information, setters
/**********************************************************
*/
/**
* Mapping of property names to properties, built when all properties
* to use have been successfully resolved.
*/
final protected BeanPropertyMap _beanProperties;
/**
* List of {@link ValueInjector}s, if any injectable values are
* expected by the bean; otherwise null.
* This includes injectors used for injecting values via setters
* and fields, but not ones passed through constructor parameters.
*/
final protected ValueInjector[] _injectables;
/**
* Fallback setter used for handling any properties that are not
* mapped to regular setters. If setter is not null, it will be
* called once for each such property.
*/
protected SettableAnyProperty _anySetter;
/**
* In addition to properties that are set, we will also keep
* track of recognized but ignorable properties: these will
* be skipped without errors or warnings.
*/
final protected Set _ignorableProps;
/**
* Keep track of the the properties that needs to be specifically included.
*/
final protected Set _includableProps;
/**
* Flag that can be set to ignore and skip unknown properties.
* If set, will not throw an exception for unknown properties.
*/
final protected boolean _ignoreAllUnknown;
/**
* Flag that indicates that some aspect of deserialization depends
* on active view used (if any)
*/
final protected boolean _needViewProcesing;
/**
* We may also have one or more back reference fields (usually
* zero or one).
*/
final protected Map _backRefs;
/*
/**********************************************************
/* Related handlers
/**********************************************************
*/
/**
* Lazily constructed map used to contain deserializers needed
* for polymorphic subtypes.
* Note that this is only needed for polymorphic types,
* that is, when the actual type is not statically known.
* For other types this remains null.
*/
protected transient HashMap> _subDeserializers;
/**
* If one of properties has "unwrapped" value, we need separate
* helper object
*/
protected UnwrappedPropertyHandler _unwrappedPropertyHandler;
/**
* Handler that we need iff any of properties uses external
* type id.
*/
protected ExternalTypeHandler _externalTypeIdHandler;
/**
* If an Object Id is to be used for value handled by this
* deserializer, this reader is used for handling.
*/
protected final ObjectIdReader _objectIdReader;
/*
/**********************************************************
/* Life-cycle, construction, initialization
/**********************************************************
*/
/**
* Constructor used when initially building a deserializer
* instance, given a {@link BeanDeserializerBuilder} that
* contains configuration.
*/
protected BeanDeserializerBase(BeanDeserializerBuilder builder,
BeanDescription beanDesc,
BeanPropertyMap properties, Map backRefs,
Set ignorableProps, boolean ignoreAllUnknown,
Set includableProps,
boolean hasViews)
{
super(beanDesc.getType());
_beanType = beanDesc.getType();
_valueInstantiator = builder.getValueInstantiator();
_delegateDeserializer = null;
_arrayDelegateDeserializer = null;
_propertyBasedCreator = null;
_beanProperties = properties;
_backRefs = backRefs;
_ignorableProps = ignorableProps;
_ignoreAllUnknown = ignoreAllUnknown;
_includableProps = includableProps;
_anySetter = builder.getAnySetter();
List injectables = builder.getInjectables();
_injectables = (injectables == null || injectables.isEmpty()) ? null
: injectables.toArray(new ValueInjector[injectables.size()]);
_objectIdReader = builder.getObjectIdReader();
// 02-May-2020, tatu: This boolean setting is only used when binding from
// Object value, and hence does not consider "array-delegating" or various
// scalar-delegation cases. It is set when default (0-argument) constructor
// is NOT to be used when binding an Object value (or in case of
// POJO-as-array, Array value).
_nonStandardCreation = (_unwrappedPropertyHandler != null)
|| _valueInstantiator.canCreateUsingDelegate()
// [databind#2486]: as per above, array-delegating creator should not be considered
// as doing so will prevent use of Array-or-standard-Object deserialization
// || _valueInstantiator.canCreateUsingArrayDelegate()
|| _valueInstantiator.canCreateFromObjectWith()
|| !_valueInstantiator.canCreateUsingDefault()
;
// Any transformation we may need to apply?
final JsonFormat.Value format = beanDesc.findExpectedFormat(null);
_serializationShape = format.getShape();
_needViewProcesing = hasViews;
_vanillaProcessing = !_nonStandardCreation
&& (_injectables == null)
&& !_needViewProcesing
// also, may need to reorder stuff if we expect Object Id:
&& (_objectIdReader == null)
;
}
protected BeanDeserializerBase(BeanDeserializerBase src) {
this(src, src._ignoreAllUnknown);
}
protected BeanDeserializerBase(BeanDeserializerBase src, boolean ignoreAllUnknown)
{
super(src._beanType);
_beanType = src._beanType;
_valueInstantiator = src._valueInstantiator;
_delegateDeserializer = src._delegateDeserializer;
_arrayDelegateDeserializer = src._arrayDelegateDeserializer;
_propertyBasedCreator = src._propertyBasedCreator;
_beanProperties = src._beanProperties;
_backRefs = src._backRefs;
_ignorableProps = src._ignorableProps;
_ignoreAllUnknown = ignoreAllUnknown;
_includableProps = src._includableProps;
_anySetter = src._anySetter;
_injectables = src._injectables;
_objectIdReader = src._objectIdReader;
_nonStandardCreation = src._nonStandardCreation;
_unwrappedPropertyHandler = src._unwrappedPropertyHandler;
_needViewProcesing = src._needViewProcesing;
_serializationShape = src._serializationShape;
_vanillaProcessing = src._vanillaProcessing;
}
protected BeanDeserializerBase(BeanDeserializerBase src, NameTransformer unwrapper)
{
super(src._beanType);
_beanType = src._beanType;
_valueInstantiator = src._valueInstantiator;
_delegateDeserializer = src._delegateDeserializer;
_arrayDelegateDeserializer = src._arrayDelegateDeserializer;
_propertyBasedCreator = src._propertyBasedCreator;
_backRefs = src._backRefs;
_ignorableProps = src._ignorableProps;
_ignoreAllUnknown = (unwrapper != null) || src._ignoreAllUnknown;
_includableProps = src._includableProps;
_anySetter = src._anySetter;
_injectables = src._injectables;
_objectIdReader = src._objectIdReader;
_nonStandardCreation = src._nonStandardCreation;
UnwrappedPropertyHandler uph = src._unwrappedPropertyHandler;
if (unwrapper != null) {
// delegate further unwraps, if any
if (uph != null) { // got handler, delegate
uph = uph.renameAll(unwrapper);
}
// and handle direct unwrapping as well:
_beanProperties = src._beanProperties.renameAll(unwrapper);
} else {
_beanProperties = src._beanProperties;
}
_unwrappedPropertyHandler = uph;
_needViewProcesing = src._needViewProcesing;
_serializationShape = src._serializationShape;
// probably adds a twist, so:
_vanillaProcessing = false;
}
public BeanDeserializerBase(BeanDeserializerBase src, ObjectIdReader oir)
{
super(src._beanType);
_beanType = src._beanType;
_valueInstantiator = src._valueInstantiator;
_delegateDeserializer = src._delegateDeserializer;
_arrayDelegateDeserializer = src._arrayDelegateDeserializer;
_propertyBasedCreator = src._propertyBasedCreator;
_backRefs = src._backRefs;
_ignorableProps = src._ignorableProps;
_ignoreAllUnknown = src._ignoreAllUnknown;
_includableProps = src._includableProps;
_anySetter = src._anySetter;
_injectables = src._injectables;
_nonStandardCreation = src._nonStandardCreation;
_unwrappedPropertyHandler = src._unwrappedPropertyHandler;
_needViewProcesing = src._needViewProcesing;
_serializationShape = src._serializationShape;
// then actual changes:
_objectIdReader = oir;
if (oir == null) {
_beanProperties = src._beanProperties;
_vanillaProcessing = src._vanillaProcessing;
} else {
/* 18-Nov-2012, tatu: May or may not have annotations for id property;
* but no easy access. But hard to see id property being optional,
* so let's consider required at this point.
*/
ObjectIdValueProperty idProp = new ObjectIdValueProperty(oir, PropertyMetadata.STD_REQUIRED);
_beanProperties = src._beanProperties.withProperty(idProp);
_vanillaProcessing = false;
}
}
/**
* @since 2.12
*/
public BeanDeserializerBase(BeanDeserializerBase src,
Set ignorableProps, Set includableProps)
{
super(src._beanType);
_beanType = src._beanType;
_valueInstantiator = src._valueInstantiator;
_delegateDeserializer = src._delegateDeserializer;
_arrayDelegateDeserializer = src._arrayDelegateDeserializer;
_propertyBasedCreator = src._propertyBasedCreator;
_backRefs = src._backRefs;
_ignorableProps = ignorableProps;
_ignoreAllUnknown = src._ignoreAllUnknown;
_includableProps = includableProps;
_anySetter = src._anySetter;
_injectables = src._injectables;
_nonStandardCreation = src._nonStandardCreation;
_unwrappedPropertyHandler = src._unwrappedPropertyHandler;
_needViewProcesing = src._needViewProcesing;
_serializationShape = src._serializationShape;
_vanillaProcessing = src._vanillaProcessing;
_objectIdReader = src._objectIdReader;
// 01-May-2016, tatu: [databind#1217]: Remove properties from mapping,
// to avoid them being deserialized
_beanProperties = src._beanProperties.withoutProperties(ignorableProps, includableProps);
}
/**
* @since 2.8
*/
protected BeanDeserializerBase(BeanDeserializerBase src, BeanPropertyMap beanProps)
{
super(src._beanType);
_beanType = src._beanType;
_valueInstantiator = src._valueInstantiator;
_delegateDeserializer = src._delegateDeserializer;
_arrayDelegateDeserializer = src._arrayDelegateDeserializer;
_propertyBasedCreator = src._propertyBasedCreator;
_beanProperties = beanProps;
_backRefs = src._backRefs;
_ignorableProps = src._ignorableProps;
_ignoreAllUnknown = src._ignoreAllUnknown;
_includableProps = src._includableProps;
_anySetter = src._anySetter;
_injectables = src._injectables;
_objectIdReader = src._objectIdReader;
_nonStandardCreation = src._nonStandardCreation;
_unwrappedPropertyHandler = src._unwrappedPropertyHandler;
_needViewProcesing = src._needViewProcesing;
_serializationShape = src._serializationShape;
_vanillaProcessing = src._vanillaProcessing;
}
@Deprecated // since 2.12
protected BeanDeserializerBase(BeanDeserializerBase src, Set ignorableProps)
{
this(src, ignorableProps, src._includableProps);
}
@Override
public abstract JsonDeserializer unwrappingDeserializer(NameTransformer unwrapper);
public abstract BeanDeserializerBase withObjectIdReader(ObjectIdReader oir);
/**
* @since 2.12
*/
public abstract BeanDeserializerBase withByNameInclusion(Set ignorableProps, Set includableProps);
/**
* @since 2.11
*/
public abstract BeanDeserializerBase withIgnoreAllUnknown(boolean ignoreUnknown);
/**
* Mutant factory method that custom sub-classes must override; not left as
* abstract to prevent more drastic backwards compatibility problems.
*
* @since 2.8
*/
public BeanDeserializerBase withBeanProperties(BeanPropertyMap props) {
throw new UnsupportedOperationException("Class "+getClass().getName()
+" does not override `withBeanProperties()`, needs to");
}
/**
* Fluent factory for creating a variant that can handle
* POJO output as a JSON Array. Implementations may ignore this request
* if no such input is possible.
*
* @since 2.1
*/
protected abstract BeanDeserializerBase asArrayDeserializer();
/**
* @deprecated Since 2.12 use {@link #withByNameInclusion} instead
*/
@Deprecated
public BeanDeserializerBase withIgnorableProperties(Set ignorableProps) {
return withByNameInclusion(ignorableProps, _includableProps);
}
/*
/**********************************************************
/* Validation, post-processing
/**********************************************************
*/
/**
* Method called to finalize setup of this deserializer,
* after deserializer itself has been registered.
* This is needed to handle recursive and transitive dependencies.
*/
@Override
public void resolve(DeserializationContext ctxt) throws JsonMappingException
{
ExternalTypeHandler.Builder extTypes = null;
// if ValueInstantiator can use "creator" approach, need to resolve it here...
SettableBeanProperty[] creatorProps;
if (_valueInstantiator.canCreateFromObjectWith()) {
creatorProps = _valueInstantiator.getFromObjectArguments(ctxt.getConfig());
// 22-Jan-2018, tatu: May need to propagate "ignorable" status (from `Access.READ_ONLY`
// or perhaps class-ignorables) into Creator properties too. Can not just delete,
// at this point, but is needed for further processing down the line
if (_ignorableProps != null || _includableProps != null) {
for (int i = 0, end = creatorProps.length; i < end; ++i) {
SettableBeanProperty prop = creatorProps[i];
if (IgnorePropertiesUtil.shouldIgnore(prop.getName(), _ignorableProps, _includableProps)) {
creatorProps[i].markAsIgnorable();
}
}
}
} else {
creatorProps = null;
}
UnwrappedPropertyHandler unwrapped = null;
// 24-Mar-2017, tatu: Looks like we may have to iterate over
// properties twice, to handle potential issues with recursive
// types (see [databind#1575] f.ex).
// First loop: find deserializer if not yet known, but do not yet
// contextualize (since that can lead to problems with self-references)
// 22-Jan-2018, tatu: NOTE! Need not check for `isIgnorable` as that can
// only happen for props in `creatorProps`
for (SettableBeanProperty prop : _beanProperties) {
if (!prop.hasValueDeserializer()) {
// [databind#125]: allow use of converters
JsonDeserializer> deser = findConvertingDeserializer(ctxt, prop);
if (deser == null) {
deser = ctxt.findNonContextualValueDeserializer(prop.getType());
}
SettableBeanProperty newProp = prop.withValueDeserializer(deser);
_replaceProperty(_beanProperties, creatorProps, prop, newProp);
}
}
// Second loop: contextualize, find other pieces
for (SettableBeanProperty origProp : _beanProperties) {
SettableBeanProperty prop = origProp;
JsonDeserializer> deser = prop.getValueDeserializer();
deser = ctxt.handlePrimaryContextualization(deser, prop, prop.getType());
prop = prop.withValueDeserializer(deser);
// Need to link managed references with matching back references
prop = _resolveManagedReferenceProperty(ctxt, prop);
// [databind#351]: need to wrap properties that require object id resolution.
if (!(prop instanceof ManagedReferenceProperty)) {
prop = _resolvedObjectIdProperty(ctxt, prop);
}
// Support unwrapped values (via @JsonUnwrapped)
NameTransformer xform = _findPropertyUnwrapper(ctxt, prop);
if (xform != null) {
JsonDeserializer orig = prop.getValueDeserializer();
JsonDeserializer unwrapping = orig.unwrappingDeserializer(xform);
if (unwrapping != orig && unwrapping != null) {
prop = prop.withValueDeserializer(unwrapping);
if (unwrapped == null) {
unwrapped = new UnwrappedPropertyHandler();
}
unwrapped.addProperty(prop);
// 12-Dec-2014, tatu: As per [databind#647], we will have problems if
// the original property is left in place. So let's remove it now.
// 25-Mar-2017, tatu: Wonder if this could be problematic wrt creators?
// (that is, should be remove it from creator too)
_beanProperties.remove(prop);
continue;
}
}
// 26-Oct-2016, tatu: Need to have access to value deserializer to know if
// merging needed, and now seems to be reasonable time to do that.
final PropertyMetadata md = prop.getMetadata();
prop = _resolveMergeAndNullSettings(ctxt, prop, md);
// non-static inner classes too:
prop = _resolveInnerClassValuedProperty(ctxt, prop);
if (prop != origProp) {
_replaceProperty(_beanProperties, creatorProps, origProp, prop);
}
// one more thing: if this property uses "external property" type inclusion,
// it needs different handling altogether
if (prop.hasValueTypeDeserializer()) {
TypeDeserializer typeDeser = prop.getValueTypeDeserializer();
if (typeDeser.getTypeInclusion() == JsonTypeInfo.As.EXTERNAL_PROPERTY) {
if (extTypes == null) {
extTypes = ExternalTypeHandler.builder(_beanType);
}
extTypes.addExternal(prop, typeDeser);
// In fact, remove from list of known properties to simplify later handling
_beanProperties.remove(prop);
continue;
}
}
}
// "any setter" may also need to be resolved now
if ((_anySetter != null) && !_anySetter.hasValueDeserializer()) {
_anySetter = _anySetter.withValueDeserializer(findDeserializer(ctxt,
_anySetter.getType(), _anySetter.getProperty()));
}
// as well as delegate-based constructor:
if (_valueInstantiator.canCreateUsingDelegate()) {
JavaType delegateType = _valueInstantiator.getDelegateType(ctxt.getConfig());
if (delegateType == null) {
ctxt.reportBadDefinition(_beanType, String.format(
"Invalid delegate-creator definition for %s: value instantiator (%s) returned true for 'canCreateUsingDelegate()', but null for 'getDelegateType()'",
ClassUtil.getTypeDescription(_beanType), ClassUtil.classNameOf(_valueInstantiator)));
}
_delegateDeserializer = _findDelegateDeserializer(ctxt, delegateType,
_valueInstantiator.getDelegateCreator());
}
// and array-delegate-based constructor:
if (_valueInstantiator.canCreateUsingArrayDelegate()) {
JavaType delegateType = _valueInstantiator.getArrayDelegateType(ctxt.getConfig());
if (delegateType == null) {
ctxt.reportBadDefinition(_beanType, String.format(
"Invalid delegate-creator definition for %s: value instantiator (%s) returned true for 'canCreateUsingArrayDelegate()', but null for 'getArrayDelegateType()'",
ClassUtil.getTypeDescription(_beanType), ClassUtil.classNameOf(_valueInstantiator)));
}
_arrayDelegateDeserializer = _findDelegateDeserializer(ctxt, delegateType,
_valueInstantiator.getArrayDelegateCreator());
}
// And now that we know CreatorProperty instances are also resolved can finally create the creator:
if (creatorProps != null) {
_propertyBasedCreator = PropertyBasedCreator.construct(ctxt, _valueInstantiator,
creatorProps, _beanProperties);
}
if (extTypes != null) {
// 21-Jun-2016, tatu: related to [databind#999], may need to link type ids too,
// so need to pass collected properties
_externalTypeIdHandler = extTypes.build(_beanProperties);
// we consider this non-standard, to offline handling
_nonStandardCreation = true;
}
_unwrappedPropertyHandler = unwrapped;
if (unwrapped != null) { // we consider this non-standard, to offline handling
_nonStandardCreation = true;
}
// may need to disable vanilla processing, if unwrapped handling was enabled...
_vanillaProcessing = _vanillaProcessing && !_nonStandardCreation;
}
/**
* @since 2.8.8
*/
protected void _replaceProperty(BeanPropertyMap props, SettableBeanProperty[] creatorProps,
SettableBeanProperty origProp, SettableBeanProperty newProp)
{
props.replace(origProp, newProp);
// [databind#795]: Make sure PropertyBasedCreator's properties stay in sync
if (creatorProps != null) {
// 18-May-2015, tatu: _Should_ start with consistent set. But can we really
// fully count on this? May need to revisit in future; seems to hold for now.
for (int i = 0, len = creatorProps.length; i < len; ++i) {
if (creatorProps[i] == origProp) {
creatorProps[i] = newProp;
return;
}
}
/*
// ... as per above, it is possible we'd need to add this as fallback
// if (but only if) identity check fails?
for (int i = 0, len = creatorProps.length; i < len; ++i) {
if (creatorProps[i].getName().equals(origProp.getName())) {
creatorProps[i] = newProp;
return;
}
}
*/
}
}
@SuppressWarnings("unchecked")
private JsonDeserializer _findDelegateDeserializer(DeserializationContext ctxt,
JavaType delegateType, AnnotatedWithParams delegateCreator) throws JsonMappingException
{
// Need to create a temporary property to allow contextual deserializers:
BeanProperty.Std property = new BeanProperty.Std(TEMP_PROPERTY_NAME,
delegateType, null, delegateCreator,
PropertyMetadata.STD_OPTIONAL);
TypeDeserializer td = delegateType.getTypeHandler();
if (td == null) {
td = ctxt.getConfig().findTypeDeserializer(delegateType);
}
// 04-May-2018, tatu: [databind#2021] check if there's custom deserializer attached
// to type (resolved from parameter)
JsonDeserializer dd = delegateType.getValueHandler();
if (dd == null) {
dd = findDeserializer(ctxt, delegateType, property);
} else {
dd = (JsonDeserializer) ctxt.handleSecondaryContextualization(dd, property, delegateType);
}
if (td != null) {
td = td.forProperty(property);
return new TypeWrappedDeserializer(td, dd);
}
return dd;
}
/**
* Helper method that can be used to see if specified property is annotated
* to indicate use of a converter for property value (in case of container types,
* it is container type itself, not key or content type).
*
* NOTE: returned deserializer is NOT yet contextualized, caller needs to take
* care to do that.
*
* @since 2.2
*/
protected JsonDeserializer findConvertingDeserializer(DeserializationContext ctxt,
SettableBeanProperty prop)
throws JsonMappingException
{
final AnnotationIntrospector intr = ctxt.getAnnotationIntrospector();
if (intr != null) {
Object convDef = intr.findDeserializationConverter(prop.getMember());
if (convDef != null) {
Converter conv = ctxt.converterInstance(prop.getMember(), convDef);
JavaType delegateType = conv.getInputType(ctxt.getTypeFactory());
// 25-Mar-2017, tatu: should not yet contextualize
// JsonDeserializer> deser = ctxt.findContextualValueDeserializer(delegateType, prop);
JsonDeserializer> deser = ctxt.findNonContextualValueDeserializer(delegateType);
return new StdDelegatingDeserializer(conv, delegateType, deser);
}
}
return null;
}
/**
* Although most of post-processing is done in resolve(), we only get
* access to referring property's annotations here; and this is needed
* to support per-property ObjectIds.
* We will also consider Shape transformations (read from Array) at this
* point, since it may come from either Class definition or property.
*/
@Override
public JsonDeserializer> createContextual(DeserializationContext ctxt,
BeanProperty property) throws JsonMappingException
{
ObjectIdReader oir = _objectIdReader;
// First: may have an override for Object Id:
final AnnotationIntrospector intr = ctxt.getAnnotationIntrospector();
final AnnotatedMember accessor = _neitherNull(property, intr) ? property.getMember() : null;
if (accessor != null) {
ObjectIdInfo objectIdInfo = intr.findObjectIdInfo(accessor);
if (objectIdInfo != null) { // some code duplication here as well (from BeanDeserializerFactory)
// 2.1: allow modifications by "id ref" annotations as well:
objectIdInfo = intr.findObjectReferenceInfo(accessor, objectIdInfo);
Class> implClass = objectIdInfo.getGeneratorType();
// Property-based generator is trickier
JavaType idType;
SettableBeanProperty idProp;
ObjectIdGenerator> idGen;
ObjectIdResolver resolver = ctxt.objectIdResolverInstance(accessor, objectIdInfo);
if (implClass == ObjectIdGenerators.PropertyGenerator.class) {
PropertyName propName = objectIdInfo.getPropertyName();
idProp = findProperty(propName);
if (idProp == null) {
return ctxt.reportBadDefinition(_beanType, String.format(
"Invalid Object Id definition for %s: cannot find property with name %s",
ClassUtil.nameOf(handledType()), ClassUtil.name(propName)));
}
idType = idProp.getType();
idGen = new PropertyBasedObjectIdGenerator(objectIdInfo.getScope());
} else { // other types are to be simpler
JavaType type = ctxt.constructType(implClass);
idType = ctxt.getTypeFactory().findTypeParameters(type, ObjectIdGenerator.class)[0];
idProp = null;
idGen = ctxt.objectIdGeneratorInstance(accessor, objectIdInfo);
}
JsonDeserializer> deser = ctxt.findRootValueDeserializer(idType);
oir = ObjectIdReader.construct(idType, objectIdInfo.getPropertyName(),
idGen, deser, idProp, resolver);
}
}
// either way, need to resolve serializer:
BeanDeserializerBase contextual = this;
if (oir != null && oir != _objectIdReader) {
contextual = contextual.withObjectIdReader(oir);
}
// And possibly add more properties to ignore
if (accessor != null) {
contextual = _handleByNameInclusion(ctxt, intr, contextual, accessor);
}
// One more thing: are we asked to serialize POJO as array?
JsonFormat.Value format = findFormatOverrides(ctxt, property, handledType());
JsonFormat.Shape shape = null;
if (format != null) {
if (format.hasShape()) {
shape = format.getShape();
}
// 16-May-2016, tatu: How about per-property case-insensitivity?
Boolean B = format.getFeature(JsonFormat.Feature.ACCEPT_CASE_INSENSITIVE_PROPERTIES);
if (B != null) {
BeanPropertyMap propsOrig = _beanProperties;
BeanPropertyMap props = propsOrig.withCaseInsensitivity(B.booleanValue());
if (props != propsOrig) {
contextual = contextual.withBeanProperties(props);
}
}
}
if (shape == null) {
shape = _serializationShape;
}
if (shape == JsonFormat.Shape.ARRAY) {
contextual = contextual.asArrayDeserializer();
}
return contextual;
}
// @since 2.12
protected BeanDeserializerBase _handleByNameInclusion(DeserializationContext ctxt,
AnnotationIntrospector intr,
BeanDeserializerBase contextual,
AnnotatedMember accessor) throws JsonMappingException
{
final DeserializationConfig config = ctxt.getConfig();
JsonIgnoreProperties.Value ignorals = intr.findPropertyIgnoralByName(config, accessor);
// 30-Mar-2020, tatu: As per [databind#2627], need to also allow
// per-property override to "ignore all unknown".
// NOTE: there is no way to override with `false` because annotation
// defaults to `false` (i.e. can not know if `false` is explicit value)
if (ignorals.getIgnoreUnknown() && !_ignoreAllUnknown) {
contextual = contextual.withIgnoreAllUnknown(true);
}
final Set namesToIgnore = ignorals.findIgnoredForDeserialization();
final Set prevNamesToIgnore = contextual._ignorableProps;
final Set newNamesToIgnore;
if (namesToIgnore.isEmpty()) {
newNamesToIgnore = prevNamesToIgnore;
} else if ((prevNamesToIgnore == null) || prevNamesToIgnore.isEmpty()) {
newNamesToIgnore = namesToIgnore;
} else {
newNamesToIgnore = new HashSet(prevNamesToIgnore);
newNamesToIgnore.addAll(namesToIgnore);
}
final Set prevNamesToInclude = contextual._includableProps;
final Set newNamesToInclude = IgnorePropertiesUtil.combineNamesToInclude(prevNamesToInclude,
intr.findPropertyInclusionByName(config, accessor).getIncluded());
if ((newNamesToIgnore != prevNamesToIgnore)
|| (newNamesToInclude != prevNamesToInclude)) {
contextual = contextual.withByNameInclusion(newNamesToIgnore, newNamesToInclude);
}
return contextual;
}
/**
* Helper method called to see if given property is part of 'managed' property
* pair (managed + back reference), and if so, handle resolution details.
*/
protected SettableBeanProperty _resolveManagedReferenceProperty(DeserializationContext ctxt,
SettableBeanProperty prop)
throws JsonMappingException
{
String refName = prop.getManagedReferenceName();
if (refName == null) {
return prop;
}
JsonDeserializer> valueDeser = prop.getValueDeserializer();
SettableBeanProperty backProp = valueDeser.findBackReference(refName);
if (backProp == null) {
return ctxt.reportBadDefinition(_beanType, String.format(
"Cannot handle managed/back reference %s: no back reference property found from type %s",
ClassUtil.name(refName), ClassUtil.getTypeDescription(prop.getType())));
}
// also: verify that type is compatible
JavaType referredType = _beanType;
JavaType backRefType = backProp.getType();
boolean isContainer = prop.getType().isContainerType();
if (!backRefType.getRawClass().isAssignableFrom(referredType.getRawClass())) {
ctxt.reportBadDefinition(_beanType, String.format(
"Cannot handle managed/back reference %s: back reference type (%s) not compatible with managed type (%s)",
ClassUtil.name(refName), ClassUtil.getTypeDescription(backRefType),
referredType.getRawClass().getName()));
}
return new ManagedReferenceProperty(prop, refName, backProp, isContainer);
}
/**
* Method that wraps given property with {@link ObjectIdReferenceProperty}
* in case where object id resolution is required.
*/
protected SettableBeanProperty _resolvedObjectIdProperty(DeserializationContext ctxt,
SettableBeanProperty prop) throws JsonMappingException
{
ObjectIdInfo objectIdInfo = prop.getObjectIdInfo();
JsonDeserializer valueDeser = prop.getValueDeserializer();
ObjectIdReader objectIdReader = (valueDeser == null) ? null : valueDeser.getObjectIdReader();
if (objectIdInfo == null && objectIdReader == null) {
return prop;
}
return new ObjectIdReferenceProperty(prop, objectIdInfo);
}
/**
* Helper method called to see if given property might be so-called unwrapped
* property: these require special handling.
*/
protected NameTransformer _findPropertyUnwrapper(DeserializationContext ctxt,
SettableBeanProperty prop)
throws JsonMappingException
{
AnnotatedMember am = prop.getMember();
if (am != null) {
NameTransformer unwrapper = ctxt.getAnnotationIntrospector().findUnwrappingNameTransformer(am);
if (unwrapper != null) {
// 01-Dec-2016, tatu: As per [databind#265] we cannot yet support passing
// of unwrapped values through creator properties, so fail fast
if (prop instanceof CreatorProperty) {
ctxt.reportBadDefinition(getValueType(), String.format(
"Cannot define Creator property \"%s\" as `@JsonUnwrapped`: combination not yet supported",
prop.getName()));
}
return unwrapper;
}
}
return null;
}
/**
* Helper method that will handle gruesome details of dealing with properties
* that have non-static inner class as value...
*/
protected SettableBeanProperty _resolveInnerClassValuedProperty(DeserializationContext ctxt,
SettableBeanProperty prop)
{
/* Should we encounter a property that has non-static inner-class
* as value, we need to add some more magic to find the "hidden" constructor...
*/
JsonDeserializer deser = prop.getValueDeserializer();
// ideally wouldn't rely on it being BeanDeserializerBase; but for now it'll have to do
if (deser instanceof BeanDeserializerBase) {
BeanDeserializerBase bd = (BeanDeserializerBase) deser;
ValueInstantiator vi = bd.getValueInstantiator();
if (!vi.canCreateUsingDefault()) { // no default constructor
Class> valueClass = prop.getType().getRawClass();
// NOTE: almost same as `isNonStaticInnerClass()` but need to know enclosing...
Class> enclosing = ClassUtil.getOuterClass(valueClass);
// and is inner class of the bean class...
if ((enclosing != null) && (enclosing == _beanType.getRawClass())) {
for (Constructor> ctor : valueClass.getConstructors()) {
if (ctor.getParameterCount() == 1) {
Class>[] paramTypes = ctor.getParameterTypes();
if (enclosing.equals(paramTypes[0])) {
if (ctxt.canOverrideAccessModifiers()) {
ClassUtil.checkAndFixAccess(ctor, ctxt.isEnabled(MapperFeature.OVERRIDE_PUBLIC_ACCESS_MODIFIERS));
}
return new InnerClassProperty(prop, ctor);
}
}
}
}
}
}
return prop;
}
// @since 2.9
protected SettableBeanProperty _resolveMergeAndNullSettings(DeserializationContext ctxt,
SettableBeanProperty prop, PropertyMetadata propMetadata)
throws JsonMappingException
{
PropertyMetadata.MergeInfo merge = propMetadata.getMergeInfo();
// First mergeability
if (merge != null) {
JsonDeserializer> valueDeser = prop.getValueDeserializer();
Boolean mayMerge = valueDeser.supportsUpdate(ctxt.getConfig());
if (mayMerge == null) {
// we don't really know if it's ok; so only use if explicitly specified
if (merge.fromDefaults) {
return prop;
}
} else if (!mayMerge.booleanValue()) { // prevented
if (!merge.fromDefaults) {
// If attempt was made via explicit annotation/per-type config override,
// should be reported; may or may not result in exception
ctxt.handleBadMerge(valueDeser);
}
return prop;
}
// Anyway; if we get this far, do enable merging
AnnotatedMember accessor = merge.getter;
accessor.fixAccess(ctxt.isEnabled(MapperFeature.OVERRIDE_PUBLIC_ACCESS_MODIFIERS));
if (!(prop instanceof SetterlessProperty)) {
prop = MergingSettableBeanProperty.construct(prop, accessor);
}
}
// And after this, see if we require non-standard null handling
NullValueProvider nuller = findValueNullProvider(ctxt, prop, propMetadata);
if (nuller != null) {
prop = prop.withNullProvider(nuller);
}
return prop;
}
/*
/**********************************************************
/* Public accessors; null/empty value providers
/**********************************************************
*/
@Override
public AccessPattern getNullAccessPattern() {
// POJO types do not have custom `null` values
return AccessPattern.ALWAYS_NULL;
}
@Override
public AccessPattern getEmptyAccessPattern() {
// Empty values cannot be shared
return AccessPattern.DYNAMIC;
}
@Override // since 2.9
public Object getEmptyValue(DeserializationContext ctxt) throws JsonMappingException {
// alas, need to promote exception, if any:
try {
return _valueInstantiator.createUsingDefault(ctxt);
} catch (IOException e) {
return ClassUtil.throwAsMappingException(ctxt, e);
}
}
/*
/**********************************************************
/* Public accessors; other
/**********************************************************
*/
@Override
public boolean isCachable() { return true; }
/**
* Accessor for checking whether this deserializer is operating
* in case-insensitive manner.
*
* @return True if this deserializer should match property names without
* considering casing; false if case has to match exactly.
*
* @since 2.12
*/
public boolean isCaseInsensitive() {
return _beanProperties.isCaseInsensitive();
}
@Override // since 2.9
public Boolean supportsUpdate(DeserializationConfig config) {
// although with possible caveats, yes, values can be updated
// 23-Oct-2016, tatu: Perhaps in future could and should verify from
// bean settings...
return Boolean.TRUE;
}
@Override
public Class> handledType() {
return _beanType.getRawClass();
}
/**
* Overridden to return true for those instances that are
* handling value for which Object Identity handling is enabled
* (either via value type or referring property).
*/
@Override
public ObjectIdReader getObjectIdReader() {
return _objectIdReader;
}
public boolean hasProperty(String propertyName) {
return _beanProperties.find(propertyName) != null;
}
public boolean hasViews() {
return _needViewProcesing;
}
/**
* Accessor for checking number of deserialized properties.
*/
public int getPropertyCount() {
return _beanProperties.size();
}
@Override
public Collection getKnownPropertyNames() {
ArrayList names = new ArrayList();
for (SettableBeanProperty prop : _beanProperties) {
names.add(prop.getName());
}
return names;
}
/**
* @deprecated Since 2.3, use {@link #handledType()} instead
*/
@Deprecated
public final Class> getBeanClass() { return _beanType.getRawClass(); }
@Override
public JavaType getValueType() { return _beanType; }
@Override // since 2.12
public LogicalType logicalType() {
return LogicalType.POJO;
}
/**
* Accessor for iterating over properties this deserializer uses; with
* the exception that properties passed via Creator methods
* (specifically, "property-based constructor") are not included,
* but can be accessed separate by calling
* {@link #creatorProperties}
*/
public Iterator properties()
{
if (_beanProperties == null) {
throw new IllegalStateException("Can only call after BeanDeserializer has been resolved");
}
return _beanProperties.iterator();
}
/**
* Accessor for finding properties that represents values to pass
* through property-based creator method (constructor or
* factory method)
*
* @since 2.0
*/
public Iterator creatorProperties()
{
if (_propertyBasedCreator == null) {
return Collections.emptyList().iterator();
}
return _propertyBasedCreator.properties().iterator();
}
public SettableBeanProperty findProperty(PropertyName propertyName)
{
// TODO: start matching full name?
return findProperty(propertyName.getSimpleName());
}
/**
* Accessor for finding the property with given name, if POJO
* has one. Name used is the external name, i.e. name used
* in external data representation (JSON).
*
* @since 2.0
*/
public SettableBeanProperty findProperty(String propertyName)
{
SettableBeanProperty prop = (_beanProperties == null) ?
null : _beanProperties.find(propertyName);
if (prop == null && _propertyBasedCreator != null) {
prop = _propertyBasedCreator.findCreatorProperty(propertyName);
}
return prop;
}
/**
* Alternate find method that tries to locate a property with given
* property index
.
* Note that access by index is not necessarily faster than by name,
* since properties are not directly indexable; however, for most
* instances difference is not significant as number of properties
* is low.
*
* @since 2.3
*/
public SettableBeanProperty findProperty(int propertyIndex)
{
SettableBeanProperty prop = (_beanProperties == null) ?
null : _beanProperties.find(propertyIndex);
if (prop == null && _propertyBasedCreator != null) {
prop = _propertyBasedCreator.findCreatorProperty(propertyIndex);
}
return prop;
}
/**
* Method needed by {@link BeanDeserializerFactory} to properly link
* managed- and back-reference pairs.
*/
@Override
public SettableBeanProperty findBackReference(String logicalName)
{
if (_backRefs == null) {
return null;
}
return _backRefs.get(logicalName);
}
@Override // ValueInstantiator.Gettable
public ValueInstantiator getValueInstantiator() {
return _valueInstantiator;
}
/*
/**********************************************************
/* Mutators
/**********************************************************
*/
/**
* Method that can be used to replace an existing property with
* a modified one.
*
* NOTE: only ever use this method if you know what you are doing;
* incorrect usage can break deserializer.
*
* @param original Property to replace
* @param replacement Property to replace it with
*
* @since 2.1
*/
public void replaceProperty(SettableBeanProperty original,
SettableBeanProperty replacement)
{
_beanProperties.replace(original, replacement);
}
/*
/**********************************************************
/* Partial deserializer implementation
/**********************************************************
*/
/**
* General version used when handling needs more advanced
* features.
*/
public abstract Object deserializeFromObject(JsonParser p, DeserializationContext ctxt)
throws IOException;
@Override
public Object deserializeWithType(JsonParser p, DeserializationContext ctxt,
TypeDeserializer typeDeserializer)
throws IOException
{
// 16-Feb-2012, tatu: ObjectId may be used as well... need to check that first
if (_objectIdReader != null) {
// 05-Aug-2013, tatu: May use native Object Id
if (p.canReadObjectId()) {
Object id = p.getObjectId();
if (id != null) {
Object ob = typeDeserializer.deserializeTypedFromObject(p, ctxt);
return _handleTypedObjectId(p, ctxt, ob, id);
}
}
// or, Object Ids Jackson explicitly sets
JsonToken t = p.currentToken();
if (t != null) {
// Most commonly, a scalar (int id, uuid String, ...)
if (t.isScalarValue()) {
return deserializeFromObjectId(p, ctxt);
}
// but, with 2.5+, a simple Object-wrapped value also legal:
if (t == JsonToken.START_OBJECT) {
t = p.nextToken();
}
if ((t == JsonToken.FIELD_NAME) && _objectIdReader.maySerializeAsObject()
&& _objectIdReader.isValidReferencePropertyName(p.currentName(), p)) {
return deserializeFromObjectId(p, ctxt);
}
}
}
// In future could check current token... for now this should be enough:
return typeDeserializer.deserializeTypedFromObject(p, ctxt);
}
/**
* Offlined method called to handle "native" Object Id that has been read
* and known to be associated with given deserialized POJO.
*
* @since 2.3
*/
protected Object _handleTypedObjectId(JsonParser p, DeserializationContext ctxt,
Object pojo, Object rawId)
throws IOException
{
// One more challenge: type of id may not be type of property we are expecting
// later on; specifically, numeric ids vs Strings.
JsonDeserializer idDeser = _objectIdReader.getDeserializer();
final Object id;
// Ok, this is bit ridiculous; let's see if conversion is needed:
if (idDeser.handledType() == rawId.getClass()) {
// nope: already same type
id = rawId;
} else {
id = _convertObjectId(p, ctxt, rawId, idDeser);
}
ReadableObjectId roid = ctxt.findObjectId(id, _objectIdReader.generator, _objectIdReader.resolver);
roid.bindItem(pojo);
// also: may need to set a property value as well
SettableBeanProperty idProp = _objectIdReader.idProperty;
if (idProp != null) {
return idProp.setAndReturn(pojo, id);
}
return pojo;
}
/**
* Helper method we need to do necessary conversion from whatever native object id
* type is, into declared type that Jackson internals expect. This may be
* simple cast (for String ids), or something more complicated; in latter
* case we may need to create bogus content buffer to allow use of
* id deserializer.
*
* @since 2.3
*/
@SuppressWarnings("resource") // TokenBuffers don't need close, nor parser thereof
protected Object _convertObjectId(JsonParser p, DeserializationContext ctxt,
Object rawId, JsonDeserializer idDeser) throws IOException
{
TokenBuffer buf = ctxt.bufferForInputBuffering(p);
if (rawId instanceof String) {
buf.writeString((String) rawId);
} else if (rawId instanceof Long) {
buf.writeNumber(((Long) rawId).longValue());
} else if (rawId instanceof Integer) {
buf.writeNumber(((Integer) rawId).intValue());
} else {
// should we worry about UUIDs? They should be fine, right?
// 07-Aug-2014, tatu: Maybe, but not necessarily; had issues with
// Smile format; [dataformat-smile#19], possibly related.
// 01-Sep-2016, tatu: For non-JSON, might want to consider `writeEmbeddedObject`
// but that won't work for default impl (JSON and most dataformats)
buf.writeObject(rawId);
}
JsonParser bufParser = buf.asParser();
bufParser.nextToken();
return idDeser.deserialize(bufParser, ctxt);
}
// NOTE: currently only used by standard BeanDeserializer (not Builder-based)
/**
* Alternative deserialization method used when we expect to see Object Id;
* if so, we will need to ensure that the Id is seen before anything
* else, to ensure that it is available for solving references,
* even if JSON itself is not ordered that way. This may require
* buffering in some cases, but usually just a simple lookup to ensure
* that ordering is correct.
*/
protected Object deserializeWithObjectId(JsonParser p, DeserializationContext ctxt) throws IOException {
return deserializeFromObject(p, ctxt);
}
/**
* Method called in cases where it looks like we got an Object Id
* to parse and use as a reference.
*/
protected Object deserializeFromObjectId(JsonParser p, DeserializationContext ctxt) throws IOException
{
Object id = _objectIdReader.readObjectReference(p, ctxt);
ReadableObjectId roid = ctxt.findObjectId(id, _objectIdReader.generator, _objectIdReader.resolver);
// do we have it resolved?
Object pojo = roid.resolve();
if (pojo == null) { // not yet; should wait...
throw new UnresolvedForwardReference(p,
"Could not resolve Object Id ["+id+"] (for "+_beanType+").",
p.getCurrentLocation(), roid);
}
return pojo;
}
protected Object deserializeFromObjectUsingNonDefault(JsonParser p,
DeserializationContext ctxt) throws IOException
{
final JsonDeserializer delegateDeser = _delegateDeserializer();
if (delegateDeser != null) {
final Object bean = _valueInstantiator.createUsingDelegate(ctxt,
delegateDeser.deserialize(p, ctxt));
if (_injectables != null) {
injectValues(ctxt, bean);
}
return bean;
}
if (_propertyBasedCreator != null) {
return _deserializeUsingPropertyBased(p, ctxt);
}
// 25-Jan-2017, tatu: We do not actually support use of Creators for non-static
// inner classes -- with one and only one exception; that of default constructor!
// -- so let's indicate it
Class> raw = _beanType.getRawClass();
if (ClassUtil.isNonStaticInnerClass(raw)) {
return ctxt.handleMissingInstantiator(raw, null, p,
"non-static inner classes like this can only by instantiated using default, no-argument constructor");
}
// 01-May-2022, tatu: [databind#3417] special handling for (Graal) native images
if (NativeImageUtil.needsReflectionConfiguration(raw)) {
return ctxt.handleMissingInstantiator(raw, null, p,
"cannot deserialize from Object value (no delegate- or property-based Creator): this appears to be a native image, in which case you may need to configure reflection for the class that is to be deserialized");
}
return ctxt.handleMissingInstantiator(raw, getValueInstantiator(), p,
"cannot deserialize from Object value (no delegate- or property-based Creator)");
}
protected abstract Object _deserializeUsingPropertyBased(final JsonParser p,
final DeserializationContext ctxt) throws IOException;
public Object deserializeFromNumber(JsonParser p, DeserializationContext ctxt)
throws IOException
{
// First things first: id Object Id is used, most likely that's it
if (_objectIdReader != null) {
return deserializeFromObjectId(p, ctxt);
}
final JsonDeserializer delegateDeser = _delegateDeserializer();
NumberType nt = p.getNumberType();
if (nt == NumberType.INT) {
if (delegateDeser != null) {
if (!_valueInstantiator.canCreateFromInt()) {
Object bean = _valueInstantiator.createUsingDelegate(ctxt,
delegateDeser.deserialize(p, ctxt));
if (_injectables != null) {
injectValues(ctxt, bean);
}
return bean;
}
}
return _valueInstantiator.createFromInt(ctxt, p.getIntValue());
}
if (nt == NumberType.LONG) {
if (delegateDeser != null) {
if (!_valueInstantiator.canCreateFromInt()) {
Object bean = _valueInstantiator.createUsingDelegate(ctxt,
delegateDeser.deserialize(p, ctxt));
if (_injectables != null) {
injectValues(ctxt, bean);
}
return bean;
}
}
return _valueInstantiator.createFromLong(ctxt, p.getLongValue());
}
if (nt == NumberType.BIG_INTEGER) {
if (delegateDeser != null) {
if (!_valueInstantiator.canCreateFromBigInteger()) {
Object bean = _valueInstantiator.createUsingDelegate(ctxt, delegateDeser.deserialize(p, ctxt));
if (_injectables != null) {
injectValues(ctxt, bean);
}
return bean;
}
}
return _valueInstantiator.createFromBigInteger(ctxt, p.getBigIntegerValue());
}
return ctxt.handleMissingInstantiator(handledType(), getValueInstantiator(), p,
"no suitable creator method found to deserialize from Number value (%s)",
p.getNumberValue());
}
public Object deserializeFromString(JsonParser p, DeserializationContext ctxt)
throws IOException
{
// First things first: id Object Id is used, most likely that's it
if (_objectIdReader != null) {
return deserializeFromObjectId(p, ctxt);
}
// Bit complicated if we have delegating creator; may need to use it,
// or might not...
JsonDeserializer delegateDeser = _delegateDeserializer();
if (delegateDeser != null) {
if (!_valueInstantiator.canCreateFromString()) {
Object bean = _valueInstantiator.createUsingDelegate(ctxt,
delegateDeser.deserialize(p, ctxt));
if (_injectables != null) {
injectValues(ctxt, bean);
}
return bean;
}
}
return _deserializeFromString(p, ctxt);
}
/**
* Method called to deserialize POJO value from a JSON floating-point
* number.
*/
public Object deserializeFromDouble(JsonParser p, DeserializationContext ctxt) throws IOException
{
NumberType t = p.getNumberType();
// no separate methods for taking float...
if ((t == NumberType.DOUBLE) || (t == NumberType.FLOAT)) {
JsonDeserializer delegateDeser = _delegateDeserializer();
if (delegateDeser != null) {
if (!_valueInstantiator.canCreateFromDouble()) {
Object bean = _valueInstantiator.createUsingDelegate(ctxt,
delegateDeser.deserialize(p, ctxt));
if (_injectables != null) {
injectValues(ctxt, bean);
}
return bean;
}
}
return _valueInstantiator.createFromDouble(ctxt, p.getDoubleValue());
}
if (t == NumberType.BIG_DECIMAL) {
JsonDeserializer delegateDeser = _delegateDeserializer();
if (delegateDeser != null) {
if (!_valueInstantiator.canCreateFromBigDecimal()) {
Object bean = _valueInstantiator.createUsingDelegate(ctxt, delegateDeser.deserialize(p, ctxt));
if (_injectables != null) {
injectValues(ctxt, bean);
}
return bean;
}
}
return _valueInstantiator.createFromBigDecimal(ctxt, p.getDecimalValue());
}
return ctxt.handleMissingInstantiator(handledType(), getValueInstantiator(), p,
"no suitable creator method found to deserialize from Number value (%s)",
p.getNumberValue());
}
/**
* Method called to deserialize POJO value from a JSON boolean value (true, false)
*/
public Object deserializeFromBoolean(JsonParser p, DeserializationContext ctxt) throws IOException
{
JsonDeserializer delegateDeser = _delegateDeserializer();
if (delegateDeser != null) {
if (!_valueInstantiator.canCreateFromBoolean()) {
Object bean = _valueInstantiator.createUsingDelegate(ctxt,
delegateDeser.deserialize(p, ctxt));
if (_injectables != null) {
injectValues(ctxt, bean);
}
return bean;
}
}
boolean value = (p.currentToken() == JsonToken.VALUE_TRUE);
return _valueInstantiator.createFromBoolean(ctxt, value);
}
/**
* @deprecated Since 2.11 Should not be used: was never meant to be called by
* code other than sub-classes (implementations), and implementations details
* differ
*/
@Deprecated
public Object deserializeFromArray(JsonParser p, DeserializationContext ctxt) throws IOException {
// should work as subtypes ought to override this method:
return _deserializeFromArray(p, ctxt);
}
public Object deserializeFromEmbedded(JsonParser p, DeserializationContext ctxt)
throws IOException
{
// First things first: id Object Id is used, most likely that's it; specifically,
// true for UUIDs when written as binary (with Smile, other binary formats)
if (_objectIdReader != null) {
return deserializeFromObjectId(p, ctxt);
}
// 26-Jul-2017, tatu: as per [databind#1711] need to support delegating case too
JsonDeserializer delegateDeser = _delegateDeserializer();
if (delegateDeser != null) {
if (!_valueInstantiator.canCreateFromString()) {
Object bean = _valueInstantiator.createUsingDelegate(ctxt,
delegateDeser.deserialize(p, ctxt));
if (_injectables != null) {
injectValues(ctxt, bean);
}
return bean;
}
}
// TODO: maybe add support for ValueInstantiator, embedded?
// 26-Jul-2017, tatu: related to [databind#1711], let's actually verify assignment
// compatibility before returning. Bound to catch misconfigured cases and produce
// more meaningful exceptions.
Object value = p.getEmbeddedObject();
if (value != null) {
if (!_beanType.isTypeOrSuperTypeOf(value.getClass())) {
// allow this to be handled...
value = ctxt.handleWeirdNativeValue(_beanType, value, p);
}
}
return value;
}
/**
* @since 2.9
*/
protected final JsonDeserializer _delegateDeserializer() {
JsonDeserializer deser = _delegateDeserializer;
if (deser == null) {
deser = _arrayDelegateDeserializer;
}
return deser;
}
/*
/**********************************************************
/* Overridable helper methods
/**********************************************************
*/
protected void injectValues(DeserializationContext ctxt, Object bean)
throws IOException
{
for (ValueInjector injector : _injectables) {
injector.inject(ctxt, bean);
}
}
/**
* Method called to handle set of one or more unknown properties,
* stored in their entirety in given {@link TokenBuffer}
* (as field entries, name and value).
*/
protected Object handleUnknownProperties(DeserializationContext ctxt,
Object bean, TokenBuffer unknownTokens)
throws IOException
{
// First: add closing END_OBJECT as marker
unknownTokens.writeEndObject();
// note: buffer does NOT have starting START_OBJECT
JsonParser bufferParser = unknownTokens.asParser();
while (bufferParser.nextToken() != JsonToken.END_OBJECT) {
String propName = bufferParser.currentName();
// Unknown: let's call handler method
bufferParser.nextToken();
handleUnknownProperty(bufferParser, ctxt, bean, propName);
}
return bean;
}
/**
* Helper method called for an unknown property, when using "vanilla"
* processing.
*
* @param beanOrBuilder Either POJO instance (if constructed), or builder
* (in case of builder-based approach), that has property we haven't been
* able to handle yet.
*/
protected void handleUnknownVanilla(JsonParser p, DeserializationContext ctxt,
Object beanOrBuilder, String propName)
throws IOException
{
if (IgnorePropertiesUtil.shouldIgnore(propName, _ignorableProps, _includableProps)) {
handleIgnoredProperty(p, ctxt, beanOrBuilder, propName);
} else if (_anySetter != null) {
try {
// should we consider return type of any setter?
_anySetter.deserializeAndSet(p, ctxt, beanOrBuilder, propName);
} catch (Exception e) {
wrapAndThrow(e, beanOrBuilder, propName, ctxt);
}
} else {
// Unknown: let's call handler method
handleUnknownProperty(p, ctxt, beanOrBuilder, propName);
}
}
/**
* Method called when a JSON property is encountered that has not matching
* setter, any-setter or field, and thus cannot be assigned.
*/
@Override
protected void handleUnknownProperty(JsonParser p, DeserializationContext ctxt,
Object beanOrClass, String propName)
throws IOException
{
if (_ignoreAllUnknown) {
p.skipChildren();
return;
}
if (IgnorePropertiesUtil.shouldIgnore(propName, _ignorableProps, _includableProps)) {
handleIgnoredProperty(p, ctxt, beanOrClass, propName);
}
// Otherwise use default handling (call handler(s); if not
// handled, throw exception or skip depending on settings)
super.handleUnknownProperty(p, ctxt, beanOrClass, propName);
}
/**
* Method called when an explicitly ignored property (one specified with a
* name to match, either by property annotation or class annotation) is encountered.
*
* @since 2.3
*/
protected void handleIgnoredProperty(JsonParser p, DeserializationContext ctxt,
Object beanOrClass, String propName)
throws IOException
{
if (ctxt.isEnabled(DeserializationFeature.FAIL_ON_IGNORED_PROPERTIES)) {
throw IgnoredPropertyException.from(p, beanOrClass, propName, getKnownPropertyNames());
}
p.skipChildren();
}
/**
* Method called in cases where we may have polymorphic deserialization
* case: that is, type of Creator-constructed bean is not the type
* of deserializer itself. It should be a sub-class or implementation
* class; either way, we may have more specific deserializer to use
* for handling it.
*
* @param p (optional) If not null, parser that has more properties to handle
* (in addition to buffered properties); if null, all properties are passed
* in buffer
*/
protected Object handlePolymorphic(JsonParser p, DeserializationContext ctxt,
Object bean, TokenBuffer unknownTokens)
throws IOException
{
// First things first: maybe there is a more specific deserializer available?
JsonDeserializer subDeser = _findSubclassDeserializer(ctxt, bean, unknownTokens);
if (subDeser != null) {
if (unknownTokens != null) {
// need to add END_OBJECT marker first
unknownTokens.writeEndObject();
JsonParser p2 = unknownTokens.asParser();
p2.nextToken(); // to get to first data field
bean = subDeser.deserialize(p2, ctxt, bean);
}
// Original parser may also have some leftovers
if (p != null) {
bean = subDeser.deserialize(p, ctxt, bean);
}
return bean;
}
// nope; need to use this deserializer. Unknowns we've seen so far?
if (unknownTokens != null) {
bean = handleUnknownProperties(ctxt, bean, unknownTokens);
}
// and/or things left to process via main parser?
if (p != null) {
bean = deserialize(p, ctxt, bean);
}
return bean;
}
/**
* Helper method called to (try to) locate deserializer for given sub-type of
* type that this deserializer handles.
*/
protected JsonDeserializer _findSubclassDeserializer(DeserializationContext ctxt,
Object bean, TokenBuffer unknownTokens)
throws IOException
{
JsonDeserializer subDeser;
// First: maybe we have already created sub-type deserializer?
synchronized (this) {
subDeser = (_subDeserializers == null) ? null : _subDeserializers.get(new ClassKey(bean.getClass()));
}
if (subDeser != null) {
return subDeser;
}
// If not, maybe we can locate one. First, need provider
JavaType type = ctxt.constructType(bean.getClass());
/* 30-Jan-2012, tatu: Ideally we would be passing referring
* property; which in theory we could keep track of via
* ResolvableDeserializer (if we absolutely must...).
* But for now, let's not bother.
*/
// subDeser = ctxt.findValueDeserializer(type, _property);
subDeser = ctxt.findRootValueDeserializer(type);
// Also, need to cache it
if (subDeser != null) {
synchronized (this) {
if (_subDeserializers == null) {
_subDeserializers = new HashMap>();;
}
_subDeserializers.put(new ClassKey(bean.getClass()), subDeser);
}
}
return subDeser;
}
/*
/**********************************************************
/* Helper methods for error reporting
/**********************************************************
*/
/**
* Method that will modify caught exception (passed in as argument)
* as necessary to include reference information, and to ensure it
* is a subtype of {@link IOException}, or an unchecked exception.
*
* Rules for wrapping and unwrapping are bit complicated; essentially:
*
* Errors are to be passed as is (if uncovered via unwrapping)
* "Plain" IOExceptions (ones that are not of type
* {@link JsonMappingException} are to be passed as is
*
*/
public void wrapAndThrow(Throwable t, Object bean, String fieldName, DeserializationContext ctxt)
throws IOException
{
// Need to add reference information
throw JsonMappingException.wrapWithPath(throwOrReturnThrowable(t, ctxt), bean, fieldName);
}
private Throwable throwOrReturnThrowable(Throwable t, DeserializationContext ctxt)
throws IOException
{
/* 05-Mar-2009, tatu: But one nasty edge is when we get
* StackOverflow: usually due to infinite loop. But that
* often gets hidden within an InvocationTargetException...
*/
while (t instanceof InvocationTargetException && t.getCause() != null) {
t = t.getCause();
}
// Errors to be passed as is
ClassUtil.throwIfError(t);
boolean wrap = (ctxt == null) || ctxt.isEnabled(DeserializationFeature.WRAP_EXCEPTIONS);
// Ditto for IOExceptions; except we may want to wrap JSON exceptions
if (t instanceof IOException) {
if (!wrap || !(t instanceof JacksonException)) {
throw (IOException) t;
}
} else if (!wrap) { // [JACKSON-407] -- allow disabling wrapping for unchecked exceptions
ClassUtil.throwIfRTE(t);
}
return t;
}
protected Object wrapInstantiationProblem(Throwable t, DeserializationContext ctxt)
throws IOException
{
while (t instanceof InvocationTargetException && t.getCause() != null) {
t = t.getCause();
}
// Errors and "plain" IOExceptions to be passed as is
ClassUtil.throwIfError(t);
if (t instanceof IOException) {
// Since we have no more information to add, let's not actually wrap..
throw (IOException) t;
}
if (ctxt == null) { // only to please LGTM...
throw new IllegalArgumentException(t.getMessage(), t);
}
if (!ctxt.isEnabled(DeserializationFeature.WRAP_EXCEPTIONS)) {
ClassUtil.throwIfRTE(t);
}
return ctxt.handleInstantiationProblem(_beanType.getRawClass(), null, t);
}
}