package com.fasterxml.jackson.databind.ser.std;

import java.io.IOException;

import com.fasterxml.jackson.annotation.JsonFormat;

import com.fasterxml.jackson.core.*;

import com.fasterxml.jackson.databind.*;
import com.fasterxml.jackson.databind.annotation.JacksonStdImpl;
import com.fasterxml.jackson.databind.introspect.AnnotatedMember;
import com.fasterxml.jackson.databind.jsonFormatVisitors.JsonArrayFormatVisitor;
import com.fasterxml.jackson.databind.jsonFormatVisitors.JsonFormatVisitorWrapper;
import com.fasterxml.jackson.databind.jsontype.TypeSerializer;
import com.fasterxml.jackson.databind.ser.ContainerSerializer;
import com.fasterxml.jackson.databind.ser.ContextualSerializer;
import com.fasterxml.jackson.databind.ser.impl.PropertySerializerMap;

Generic serializer for Object arrays (Object[]).
/** * Generic serializer for Object arrays (<code>Object[]</code>). */
@JacksonStdImpl @SuppressWarnings("serial") public class ObjectArraySerializer extends ArraySerializerBase<Object[]> implements ContextualSerializer {
Whether we are using static typing (using declared types, ignoring runtime type) or not for elements.
/** * Whether we are using static typing (using declared types, ignoring * runtime type) or not for elements. */
protected final boolean _staticTyping;
Declared type of element entries
/** * Declared type of element entries */
protected final JavaType _elementType;
Type serializer to use for values, if any.
/** * Type serializer to use for values, if any. */
protected final TypeSerializer _valueTypeSerializer;
Value serializer to use, if it can be statically determined.
/** * Value serializer to use, if it can be statically determined. */
protected JsonSerializer<Object> _elementSerializer;
If element type cannot be statically determined, mapping from runtime type to serializer is handled using this object
/** * If element type cannot be statically determined, mapping from * runtime type to serializer is handled using this object */
protected PropertySerializerMap _dynamicSerializers; /* /********************************************************** /* Life-cycle /********************************************************** */ public ObjectArraySerializer(JavaType elemType, boolean staticTyping, TypeSerializer vts, JsonSerializer<Object> elementSerializer) { super(Object[].class); _elementType = elemType; _staticTyping = staticTyping; _valueTypeSerializer = vts; _dynamicSerializers = PropertySerializerMap.emptyForProperties(); _elementSerializer = elementSerializer; } public ObjectArraySerializer(ObjectArraySerializer src, TypeSerializer vts) { super(src); _elementType = src._elementType; _valueTypeSerializer = vts; _staticTyping = src._staticTyping; // 22-Nov-2018, tatu: probably safe (even with [databind#2181]) since it's just // inclusion, type serializer but NOT serializer _dynamicSerializers = src._dynamicSerializers; _elementSerializer = src._elementSerializer; } @SuppressWarnings("unchecked") public ObjectArraySerializer(ObjectArraySerializer src, BeanProperty property, TypeSerializer vts, JsonSerializer<?> elementSerializer, Boolean unwrapSingle) { super(src, property, unwrapSingle); _elementType = src._elementType; _valueTypeSerializer = vts; _staticTyping = src._staticTyping; // [databind#2181]: may not be safe to reuse, start from empty _dynamicSerializers = PropertySerializerMap.emptyForProperties(); _elementSerializer = (JsonSerializer<Object>) elementSerializer; } @Override public JsonSerializer<?> _withResolved(BeanProperty prop, Boolean unwrapSingle) { return new ObjectArraySerializer(this, prop, _valueTypeSerializer, _elementSerializer, unwrapSingle); } @Override public ContainerSerializer<?> _withValueTypeSerializer(TypeSerializer vts) { return new ObjectArraySerializer(_elementType, _staticTyping, vts, _elementSerializer); } public ObjectArraySerializer withResolved(BeanProperty prop, TypeSerializer vts, JsonSerializer<?> ser, Boolean unwrapSingle) { if ((_property == prop) && (ser == _elementSerializer) && (_valueTypeSerializer == vts) && (_unwrapSingle == unwrapSingle)) { return this; } return new ObjectArraySerializer(this, prop, vts, ser, unwrapSingle); } /* /********************************************************** /* Post-processing /********************************************************** */ @Override public JsonSerializer<?> createContextual(SerializerProvider serializers, BeanProperty property) throws JsonMappingException { TypeSerializer vts = _valueTypeSerializer; if (vts != null) { vts = vts.forProperty(property); } JsonSerializer<?> ser = null; Boolean unwrapSingle = null; // First: if we have a property, may have property-annotation overrides if (property != null) { AnnotatedMember m = property.getMember(); final AnnotationIntrospector intr = serializers.getAnnotationIntrospector(); if (m != null) { Object serDef = intr.findContentSerializer(m); if (serDef != null) { ser = serializers.serializerInstance(m, serDef); } } } JsonFormat.Value format = findFormatOverrides(serializers, property, handledType()); if (format != null) { unwrapSingle = format.getFeature(JsonFormat.Feature.WRITE_SINGLE_ELEM_ARRAYS_UNWRAPPED); } if (ser == null) { ser = _elementSerializer; } // [databind#124]: May have a content converter ser = findContextualConvertingSerializer(serializers, property, ser); if (ser == null) { // 30-Sep-2012, tatu: One more thing -- if explicit content type is annotated, // we can consider it a static case as well. if (_elementType != null) { if (_staticTyping && !_elementType.isJavaLangObject()) { ser = serializers.findContentValueSerializer(_elementType, property); } } } return withResolved(property, vts, ser, unwrapSingle); } /* /********************************************************** /* Accessors /********************************************************** */ @Override public JavaType getContentType() { return _elementType; } @Override public JsonSerializer<?> getContentSerializer() { return _elementSerializer; } @Override public boolean isEmpty(SerializerProvider prov, Object[] value) { return value.length == 0; } @Override public boolean hasSingleElement(Object[] value) { return (value.length == 1); } /* /********************************************************** /* Actual serialization /********************************************************** */ @Override public final void serialize(Object[] value, JsonGenerator gen, SerializerProvider provider) throws IOException { final int len = value.length; if (len == 1) { if (((_unwrapSingle == null) && provider.isEnabled(SerializationFeature.WRITE_SINGLE_ELEM_ARRAYS_UNWRAPPED)) || (_unwrapSingle == Boolean.TRUE)) { serializeContents(value, gen, provider); return; } } gen.writeStartArray(value, len); serializeContents(value, gen, provider); gen.writeEndArray(); } @Override public void serializeContents(Object[] value, JsonGenerator gen, SerializerProvider provider) throws IOException { final int len = value.length; if (len == 0) { return; } if (_elementSerializer != null) { serializeContentsUsing(value, gen, provider, _elementSerializer); return; } if (_valueTypeSerializer != null) { serializeTypedContents(value, gen, provider); return; } int i = 0; Object elem = null; try { PropertySerializerMap serializers = _dynamicSerializers; for (; i < len; ++i) { elem = value[i]; if (elem == null) { provider.defaultSerializeNull(gen); continue; } Class<?> cc = elem.getClass(); JsonSerializer<Object> serializer = serializers.serializerFor(cc); if (serializer == null) { if (_elementType.hasGenericTypes()) { serializer = _findAndAddDynamic(serializers, provider.constructSpecializedType(_elementType, cc), provider); } else { serializer = _findAndAddDynamic(serializers, cc, provider); } } serializer.serialize(elem, gen, provider); } } catch (Exception e) { wrapAndThrow(provider, e, elem, i); } } public void serializeContentsUsing(Object[] value, JsonGenerator jgen, SerializerProvider provider, JsonSerializer<Object> ser) throws IOException { final int len = value.length; final TypeSerializer typeSer = _valueTypeSerializer; int i = 0; Object elem = null; try { for (; i < len; ++i) { elem = value[i]; if (elem == null) { provider.defaultSerializeNull(jgen); continue; } if (typeSer == null) { ser.serialize(elem, jgen, provider); } else { ser.serializeWithType(elem, jgen, provider, typeSer); } } } catch (Exception e) { wrapAndThrow(provider, e, elem, i); } } public void serializeTypedContents(Object[] value, JsonGenerator jgen, SerializerProvider provider) throws IOException { final int len = value.length; final TypeSerializer typeSer = _valueTypeSerializer; int i = 0; Object elem = null; try { PropertySerializerMap serializers = _dynamicSerializers; for (; i < len; ++i) { elem = value[i]; if (elem == null) { provider.defaultSerializeNull(jgen); continue; } Class<?> cc = elem.getClass(); JsonSerializer<Object> serializer = serializers.serializerFor(cc); if (serializer == null) { serializer = _findAndAddDynamic(serializers, cc, provider); } serializer.serializeWithType(elem, jgen, provider, typeSer); } } catch (Exception e) { wrapAndThrow(provider, e, elem, i); } } @Override public void acceptJsonFormatVisitor(JsonFormatVisitorWrapper visitor, JavaType typeHint) throws JsonMappingException { JsonArrayFormatVisitor arrayVisitor = visitor.expectArrayFormat(typeHint); if (arrayVisitor != null) { JavaType contentType = _elementType; // [databind#1793]: Was getting `null` for `typeHint`. But why would we even use it... /* TypeFactory tf = visitor.getProvider().getTypeFactory(); contentType = tf.moreSpecificType(_elementType, typeHint.getContentType()); if (contentType == null) { visitor.getProvider().reportBadDefinition(_elementType, "Could not resolve type: "+_elementType); } */ JsonSerializer<?> valueSer = _elementSerializer; if (valueSer == null) { valueSer = visitor.getProvider().findContentValueSerializer(contentType, _property); } arrayVisitor.itemsFormat(valueSer, contentType); } } protected final JsonSerializer<Object> _findAndAddDynamic(PropertySerializerMap map, Class<?> type, SerializerProvider provider) throws JsonMappingException { PropertySerializerMap.SerializerAndMapResult result = map.findAndAddSecondarySerializer(type, provider, _property); // did we get a new map of serializers? If so, start using it if (map != result.map) { _dynamicSerializers = result.map; } return result.serializer; } protected final JsonSerializer<Object> _findAndAddDynamic(PropertySerializerMap map, JavaType type, SerializerProvider provider) throws JsonMappingException { PropertySerializerMap.SerializerAndMapResult result = map.findAndAddSecondarySerializer(type, provider, _property); // did we get a new map of serializers? If so, start using it if (map != result.map) { _dynamicSerializers = result.map; } return result.serializer; } }