package com.fasterxml.jackson.databind.deser.impl;

import java.io.IOException;
import java.util.Set;

import com.fasterxml.jackson.core.JsonParser;
import com.fasterxml.jackson.core.JsonToken;
import com.fasterxml.jackson.databind.*;
import com.fasterxml.jackson.databind.deser.*;
import com.fasterxml.jackson.databind.util.NameTransformer;

Variant of BeanDeserializer used for handling deserialization of POJOs when serialized as JSON Arrays, instead of JSON Objects.
Since:2.1
/** * Variant of {@link BeanDeserializer} used for handling deserialization * of POJOs when serialized as JSON Arrays, instead of JSON Objects. * * @since 2.1 */
public class BeanAsArrayDeserializer extends BeanDeserializerBase { private static final long serialVersionUID = 1L;
Deserializer we delegate operations that we cannot handle.
/** * Deserializer we delegate operations that we cannot handle. */
protected final BeanDeserializerBase _delegate;
Properties in order expected to be found in JSON array.
/** * Properties in order expected to be found in JSON array. */
protected final SettableBeanProperty[] _orderedProperties; /* /********************************************************** /* Life-cycle, construction, initialization /********************************************************** */
Main constructor used both for creating new instances (by BeanDeserializer.asArrayDeserializer) and for creating copies with different delegate.
/** * Main constructor used both for creating new instances (by * {@link BeanDeserializer#asArrayDeserializer}) and for * creating copies with different delegate. */
public BeanAsArrayDeserializer(BeanDeserializerBase delegate, SettableBeanProperty[] ordered) { super(delegate); _delegate = delegate; _orderedProperties = ordered; } @Override public JsonDeserializer<Object> unwrappingDeserializer(NameTransformer unwrapper) { /* We can't do much about this; could either replace _delegate * with unwrapping instance, or just replace this one. Latter seems * more sensible. */ return _delegate.unwrappingDeserializer(unwrapper); } @Override public BeanDeserializerBase withObjectIdReader(ObjectIdReader oir) { return new BeanAsArrayDeserializer(_delegate.withObjectIdReader(oir), _orderedProperties); } @Override public BeanDeserializerBase withIgnorableProperties(Set<String> ignorableProps) { return new BeanAsArrayDeserializer(_delegate.withIgnorableProperties(ignorableProps), _orderedProperties); } @Override public BeanDeserializerBase withIgnoreAllUnknown(boolean ignoreUnknown) { return new BeanAsArrayDeserializer(_delegate.withIgnoreAllUnknown(ignoreUnknown), _orderedProperties); } @Override public BeanDeserializerBase withBeanProperties(BeanPropertyMap props) { return new BeanAsArrayDeserializer(_delegate.withBeanProperties(props), _orderedProperties); } @Override protected BeanDeserializerBase asArrayDeserializer() { return this; } /* /********************************************************** /* JsonDeserializer implementation /********************************************************** */ @Override public Object deserialize(JsonParser p, DeserializationContext ctxt) throws IOException { // Let's delegate just in case we got a JSON Object (could error out, alternatively?) if (!p.isExpectedStartArrayToken()) { return _deserializeFromNonArray(p, ctxt); } if (!_vanillaProcessing) { return _deserializeNonVanilla(p, ctxt); } final Object bean = _valueInstantiator.createUsingDefault(ctxt); // [databind#631]: Assign current value, to be accessible by custom serializers p.setCurrentValue(bean); final SettableBeanProperty[] props = _orderedProperties; int i = 0; final int propCount = props.length; while (true) { if (p.nextToken() == JsonToken.END_ARRAY) { return bean; } if (i == propCount) { break; } SettableBeanProperty prop = props[i]; if (prop != null) { // normal case try { prop.deserializeAndSet(p, ctxt, bean); } catch (Exception e) { wrapAndThrow(e, bean, prop.getName(), ctxt); } } else { // just skip? p.skipChildren(); } ++i; } // Ok; extra fields? Let's fail, unless ignoring extra props is fine if (!_ignoreAllUnknown && ctxt.isEnabled(DeserializationFeature.FAIL_ON_UNKNOWN_PROPERTIES)) { ctxt.reportWrongTokenException(this, JsonToken.END_ARRAY, "Unexpected JSON values; expected at most %d properties (in JSON Array)", propCount); // never gets here } // otherwise, skip until end do { p.skipChildren(); } while (p.nextToken() != JsonToken.END_ARRAY); return bean; } @Override public Object deserialize(JsonParser p, DeserializationContext ctxt, Object bean) throws IOException { // [databind#631]: Assign current value, to be accessible by custom serializers p.setCurrentValue(bean); if (!p.isExpectedStartArrayToken()) { return _deserializeFromNonArray(p, ctxt); } /* No good way to verify that we have an array... although could I guess * check via JsonParser. So let's assume everything is working fine, for now. */ if (_injectables != null) { injectValues(ctxt, bean); } final SettableBeanProperty[] props = _orderedProperties; int i = 0; final int propCount = props.length; while (true) { if (p.nextToken() == JsonToken.END_ARRAY) { return bean; } if (i == propCount) { break; } SettableBeanProperty prop = props[i]; if (prop != null) { // normal case try { prop.deserializeAndSet(p, ctxt, bean); } catch (Exception e) { wrapAndThrow(e, bean, prop.getName(), ctxt); } } else { // just skip? p.skipChildren(); } ++i; } // Ok; extra fields? Let's fail, unless ignoring extra props is fine if (!_ignoreAllUnknown && ctxt.isEnabled(DeserializationFeature.FAIL_ON_UNKNOWN_PROPERTIES)) { ctxt.reportWrongTokenException(this, JsonToken.END_ARRAY, "Unexpected JSON values; expected at most %d properties (in JSON Array)", propCount); // never gets here } // otherwise, skip until end do { p.skipChildren(); } while (p.nextToken() != JsonToken.END_ARRAY); return bean; } // needed since 2.1 @Override public Object deserializeFromObject(JsonParser p, DeserializationContext ctxt) throws IOException { return _deserializeFromNonArray(p, ctxt); } /* /********************************************************** /* Helper methods, non-standard creation /********************************************************** */
Alternate deserialization method that has to check many more configuration aspects than the "vanilla" processing.
/** * Alternate deserialization method that has to check many more configuration * aspects than the "vanilla" processing. */
protected Object _deserializeNonVanilla(JsonParser p, DeserializationContext ctxt) throws IOException { if (_nonStandardCreation) { return deserializeFromObjectUsingNonDefault(p, ctxt); } final Object bean = _valueInstantiator.createUsingDefault(ctxt); // [databind#631]: Assign current value, to be accessible by custom serializers p.setCurrentValue(bean); if (_injectables != null) { injectValues(ctxt, bean); } Class<?> activeView = _needViewProcesing ? ctxt.getActiveView() : null; final SettableBeanProperty[] props = _orderedProperties; int i = 0; final int propCount = props.length; while (true) { if (p.nextToken() == JsonToken.END_ARRAY) { return bean; } if (i == propCount) { break; } SettableBeanProperty prop = props[i]; ++i; if (prop != null) { // normal case if (activeView == null || prop.visibleInView(activeView)) { try { prop.deserializeAndSet(p, ctxt, bean); } catch (Exception e) { wrapAndThrow(e, bean, prop.getName(), ctxt); } continue; } } // otherwise, skip it (view-filtered, no prop etc) p.skipChildren(); } // Ok; extra fields? Let's fail, unless ignoring extra props is fine if (!_ignoreAllUnknown) { ctxt.reportWrongTokenException(this, JsonToken.END_ARRAY, "Unexpected JSON values; expected at most %d properties (in JSON Array)", propCount); // will never reach here as exception has been thrown } // otherwise, skip until end do { p.skipChildren(); } while (p.nextToken() != JsonToken.END_ARRAY); return bean; }
Method called to deserialize bean using "property-based creator": this means that a non-default constructor or factory method is called, and then possibly other setters. The trick is that values for creator method need to be buffered, first; and due to non-guaranteed ordering possibly some other properties as well.
/** * Method called to deserialize bean using "property-based creator": * this means that a non-default constructor or factory method is * called, and then possibly other setters. The trick is that * values for creator method need to be buffered, first; and * due to non-guaranteed ordering possibly some other properties * as well. */
@Override protected final Object _deserializeUsingPropertyBased(final JsonParser p, final DeserializationContext ctxt) throws IOException { final PropertyBasedCreator creator = _propertyBasedCreator; PropertyValueBuffer buffer = creator.startBuilding(p, ctxt, _objectIdReader); final SettableBeanProperty[] props = _orderedProperties; final int propCount = props.length; int i = 0; Object bean = null; final Class<?> activeView = _needViewProcesing ? ctxt.getActiveView() : null; for (; p.nextToken() != JsonToken.END_ARRAY; ++i) { SettableBeanProperty prop = (i < propCount) ? props[i] : null; if (prop == null) { // we get null if there are extra elements; maybe otherwise too? p.skipChildren(); continue; } if ((activeView != null) && !prop.visibleInView(activeView)) { p.skipChildren(); continue; } // if we have already constructed POJO, things are simple: if (bean != null) { try { prop.deserializeAndSet(p, ctxt, bean); } catch (Exception e) { wrapAndThrow(e, bean, prop.getName(), ctxt); } continue; } final String propName = prop.getName(); // if not yet, maybe we got a creator property? SettableBeanProperty creatorProp = creator.findCreatorProperty(propName); if (creatorProp != null) { // Last creator property to set? if (buffer.assignParameter(creatorProp, creatorProp.deserialize(p, ctxt))) { try { bean = creator.build(ctxt, buffer); } catch (Exception e) { wrapAndThrow(e, _beanType.getRawClass(), propName, ctxt); continue; // never gets here } // [databind#631]: Assign current value, to be accessible by custom serializers p.setCurrentValue(bean); // polymorphic? if (bean.getClass() != _beanType.getRawClass()) { /* 23-Jul-2012, tatu: Not sure if these could ever be properly * supported (since ordering of elements may not be guaranteed); * but make explicitly non-supported for now. */ ctxt.reportBadDefinition(_beanType, String.format( "Cannot support implicit polymorphic deserialization for POJOs-as-Arrays style: " +"nominal type %s, actual type %s", _beanType.getRawClass().getName(), bean.getClass().getName())); } } continue; } // Object Id property? if (buffer.readIdProperty(propName)) { continue; } // regular property? needs buffering buffer.bufferProperty(prop, prop.deserialize(p, ctxt)); } // In case we didn't quite get all the creator properties, we may have to do this: if (bean == null) { try { bean = creator.build(ctxt, buffer); } catch (Exception e) { return wrapInstantiationProblem(e, ctxt); } } return bean; } /* /********************************************************** /* Helper methods, error reporting /********************************************************** */ protected Object _deserializeFromNonArray(JsonParser p, DeserializationContext ctxt) throws IOException { String message = "Cannot deserialize a POJO (of type %s) from non-Array representation (token: %s): " +"type/property designed to be serialized as JSON Array"; return ctxt.handleUnexpectedToken(getValueType(ctxt), p.getCurrentToken(), p, message, _beanType.getRawClass().getName(), p.getCurrentToken()); // in future, may allow use of "standard" POJO serialization as well; if so, do: //return _delegate.deserialize(p, ctxt); } }