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com.fasterxml.jackson.databind.deser.AbstractDeserializer Maven / Gradle / Ivy
package com.fasterxml.jackson.databind.deser;
import java.io.IOException;
import java.util.*;
import com.fasterxml.jackson.annotation.ObjectIdGenerator;
import com.fasterxml.jackson.annotation.ObjectIdGenerators;
import com.fasterxml.jackson.annotation.ObjectIdResolver;
import com.fasterxml.jackson.core.*;
import com.fasterxml.jackson.databind.*;
import com.fasterxml.jackson.databind.deser.impl.ObjectIdReader;
import com.fasterxml.jackson.databind.deser.impl.PropertyBasedObjectIdGenerator;
import com.fasterxml.jackson.databind.deser.impl.ReadableObjectId;
import com.fasterxml.jackson.databind.introspect.AnnotatedMember;
import com.fasterxml.jackson.databind.introspect.ObjectIdInfo;
import com.fasterxml.jackson.databind.jsontype.TypeDeserializer;
import com.fasterxml.jackson.databind.type.LogicalType;
import com.fasterxml.jackson.databind.util.ClassUtil;
/**
* Deserializer only used for abstract types used as placeholders during polymorphic
* type handling deserialization. If so, there is no real deserializer associated
* with nominal type, just {@link TypeDeserializer}; and any calls that do not
* pass such resolver will result in an error.
*/
public class AbstractDeserializer
extends JsonDeserializer
implements ContextualDeserializer, // since 2.9
java.io.Serializable
{
private static final long serialVersionUID = 1L;
protected final JavaType _baseType;
protected final ObjectIdReader _objectIdReader;
protected final Map _backRefProperties;
protected transient Map _properties;
// support for "native" types, which require special care:
protected final boolean _acceptString;
protected final boolean _acceptBoolean;
protected final boolean _acceptInt;
protected final boolean _acceptDouble;
/*
/**********************************************************
/* Life cycle
/**********************************************************
*/
/**
* @since 2.9
*
* @param props Regular properties: currently only needed to support property-annotated
* Object Id handling with property inclusion (needed for determining type of Object Id
* to bind)
*/
public AbstractDeserializer(BeanDeserializerBuilder builder,
BeanDescription beanDesc, Map backRefProps,
Map props)
{
_baseType = beanDesc.getType();
_objectIdReader = builder.getObjectIdReader();
_backRefProperties = backRefProps;
_properties = props;
Class> cls = _baseType.getRawClass();
_acceptString = cls.isAssignableFrom(String.class);
_acceptBoolean = (cls == Boolean.TYPE) || cls.isAssignableFrom(Boolean.class);
_acceptInt = (cls == Integer.TYPE) || cls.isAssignableFrom(Integer.class);
_acceptDouble = (cls == Double.TYPE) || cls.isAssignableFrom(Double.class);
}
@Deprecated // since 2.9
public AbstractDeserializer(BeanDeserializerBuilder builder,
BeanDescription beanDesc, Map backRefProps) {
this(builder, beanDesc, backRefProps, null);
}
protected AbstractDeserializer(BeanDescription beanDesc)
{
_baseType = beanDesc.getType();
_objectIdReader = null;
_backRefProperties = null;
Class> cls = _baseType.getRawClass();
_acceptString = cls.isAssignableFrom(String.class);
_acceptBoolean = (cls == Boolean.TYPE) || cls.isAssignableFrom(Boolean.class);
_acceptInt = (cls == Integer.TYPE) || cls.isAssignableFrom(Integer.class);
_acceptDouble = (cls == Double.TYPE) || cls.isAssignableFrom(Double.class);
}
/**
* @since 2.9
*/
protected AbstractDeserializer(AbstractDeserializer base,
ObjectIdReader objectIdReader, Map props)
{
_baseType = base._baseType;
_backRefProperties = base._backRefProperties;
_acceptString = base._acceptString;
_acceptBoolean = base._acceptBoolean;
_acceptInt = base._acceptInt;
_acceptDouble = base._acceptDouble;
_objectIdReader = objectIdReader;
_properties = props;
}
/**
* Factory method used when constructing instances for non-POJO types, like
* {@link java.util.Map}s.
*
* @since 2.3
*/
public static AbstractDeserializer constructForNonPOJO(BeanDescription beanDesc) {
return new AbstractDeserializer(beanDesc);
}
@Override
public JsonDeserializer> createContextual(DeserializationContext ctxt,
BeanProperty property) throws JsonMappingException
{
final AnnotationIntrospector intr = ctxt.getAnnotationIntrospector();
if (property != null && intr != null) {
final AnnotatedMember accessor = property.getMember();
if (accessor != null) {
ObjectIdInfo objectIdInfo = intr.findObjectIdInfo(accessor);
if (objectIdInfo != null) { // some code duplication here as well (from BeanDeserializerFactory)
JavaType idType;
ObjectIdGenerator> idGen;
SettableBeanProperty idProp = null;
ObjectIdResolver resolver = ctxt.objectIdResolverInstance(accessor, objectIdInfo);
// 2.1: allow modifications by "id ref" annotations as well:
objectIdInfo = intr.findObjectReferenceInfo(accessor, objectIdInfo);
Class> implClass = objectIdInfo.getGeneratorType();
if (implClass == ObjectIdGenerators.PropertyGenerator.class) {
PropertyName propName = objectIdInfo.getPropertyName();
idProp = (_properties == null) ? null : _properties.get(propName.getSimpleName());
if (idProp == null) {
ctxt.reportBadDefinition(_baseType, String.format(
"Invalid Object Id definition for %s: cannot find property with name %s",
ClassUtil.nameOf(handledType()), ClassUtil.name(propName)));
}
idType = idProp.getType(); // lgtm [java/dereferenced-value-may-be-null]
idGen = new PropertyBasedObjectIdGenerator(objectIdInfo.getScope());
/*
ctxt.reportBadDefinition(_baseType, String.format(
/
"Invalid Object Id definition for abstract type %s: cannot use `PropertyGenerator` on polymorphic types using property annotation",
handledType().getName()));
*/
} else { // other types simpler
resolver = ctxt.objectIdResolverInstance(accessor, objectIdInfo);
JavaType type = ctxt.constructType(implClass);
idType = ctxt.getTypeFactory().findTypeParameters(type, ObjectIdGenerator.class)[0];
idGen = ctxt.objectIdGeneratorInstance(accessor, objectIdInfo);
}
JsonDeserializer> deser = ctxt.findRootValueDeserializer(idType);
ObjectIdReader oir = ObjectIdReader.construct(idType, objectIdInfo.getPropertyName(),
idGen, deser, idProp, resolver);
return new AbstractDeserializer(this, oir, null);
}
}
}
if (_properties == null) {
return this;
}
// Need to ensure properties are dropped at this point, regardless
return new AbstractDeserializer(this, _objectIdReader, null);
}
/*
/**********************************************************
/* Public accessors
/**********************************************************
*/
@Override
public Class> handledType() {
return _baseType.getRawClass();
}
@Override
public boolean isCachable() { return true; }
@Override // since 2.12
public LogicalType logicalType() {
// 30-May-2020, tatu: Not sure if our choice here matters, but let's
// guess "POJO" is most likely. If need be, could get more creative
return LogicalType.POJO;
}
@Override // since 2.9
public Boolean supportsUpdate(DeserializationConfig config) {
/* 23-Oct-2016, tatu: Not exactly sure what to do with this; polymorphic
* type handling seems bit risky so for now claim it "may or may not be"
* possible, which does allow explicit per-type/per-property merging attempts,
* but avoids general-configuration merges
*/
return null;
}
/**
* 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;
}
/**
* Method called by BeanDeserializer
to resolve back reference
* part of managed references.
*/
@Override
public SettableBeanProperty findBackReference(String logicalName) {
return (_backRefProperties == null) ? null : _backRefProperties.get(logicalName);
}
/*
/**********************************************************
/* Deserializer implementation
/**********************************************************
*/
@Override
public Object deserializeWithType(JsonParser p, DeserializationContext ctxt,
TypeDeserializer typeDeserializer)
throws IOException
{
// Hmmh. One tricky question; for scalar, is it an Object Id, or "Natural" type?
// for now, prefer Object Id:
if (_objectIdReader != null) {
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);
}
}
}
// First: support "natural" values (which are always serialized without type info!)
Object result = _deserializeIfNatural(p, ctxt);
if (result != null) {
return result;
}
return typeDeserializer.deserializeTypedFromObject(p, ctxt);
}
@Override
public Object deserialize(JsonParser p, DeserializationContext ctxt)
throws IOException
{
// 16-Oct-2016, tatu: Let's pass non-null value instantiator so that we will
// get proper exception type; needed to establish there are no creators
// (since without ValueInstantiator this would not be known for certain)
ValueInstantiator bogus = new ValueInstantiator.Base(_baseType);
return ctxt.handleMissingInstantiator(_baseType.getRawClass(), bogus, p,
"abstract types either need to be mapped to concrete types, have custom deserializer, or contain additional type information");
}
/*
/**********************************************************
/* Internal methods
/**********************************************************
*/
protected Object _deserializeIfNatural(JsonParser p, DeserializationContext ctxt) throws IOException
{
/* There is a chance we might be "natural" types
* (String, Boolean, Integer, Double), which do not include any type information...
* Care must be taken to only return this if return type matches, however.
* Finally, we may have to consider possibility of custom handlers for
* these values: but for now this should work ok.
*/
switch (p.currentTokenId()) {
case JsonTokenId.ID_STRING:
if (_acceptString) {
return p.getText();
}
break;
case JsonTokenId.ID_NUMBER_INT:
if (_acceptInt) {
return p.getIntValue();
}
break;
case JsonTokenId.ID_NUMBER_FLOAT:
if (_acceptDouble) {
return Double.valueOf(p.getDoubleValue());
}
break;
case JsonTokenId.ID_TRUE:
if (_acceptBoolean) {
return Boolean.TRUE;
}
break;
case JsonTokenId.ID_FALSE:
if (_acceptBoolean) {
return Boolean.FALSE;
}
break;
}
return null;
}
/**
* 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+"] -- unresolved forward-reference?", p.currentLocation(), roid);
}
return pojo;
}
}