package com.facebook.presto.jdbc.internal.jackson.databind;
import java.io.IOException;
import java.lang.reflect.Type;
import java.text.DateFormat;
import java.util.*;
import com.facebook.presto.jdbc.internal.jackson.annotation.ObjectIdGenerator;
import com.facebook.presto.jdbc.internal.jackson.core.*;
import com.facebook.presto.jdbc.internal.jackson.databind.introspect.Annotated;
import com.facebook.presto.jdbc.internal.jackson.databind.introspect.ObjectIdInfo;
import com.facebook.presto.jdbc.internal.jackson.databind.jsontype.TypeSerializer;
import com.facebook.presto.jdbc.internal.jackson.databind.ser.*;
import com.facebook.presto.jdbc.internal.jackson.databind.ser.impl.*;
import com.facebook.presto.jdbc.internal.jackson.databind.ser.std.NullSerializer;
import com.facebook.presto.jdbc.internal.jackson.databind.ser.std.StdKeySerializers;
import com.facebook.presto.jdbc.internal.jackson.databind.type.TypeFactory;
import com.facebook.presto.jdbc.internal.jackson.databind.util.ClassUtil;
import com.facebook.presto.jdbc.internal.jackson.databind.util.RootNameLookup;
/**
* Class that defines API used by {@link ObjectMapper} and
* {@link JsonSerializer}s to obtain serializers capable of serializing
* instances of specific types; as well as the default implementation
* of the functionality.
*<p>
* Provider handles caching aspects of serializer handling; all construction
* details are delegated to {@link SerializerFactory} instance.
*<p>
* Object life-cycle is such that an initial instance ("blueprint") is created
* and referenced by {@link ObjectMapper} and {@link ObjectWriter} intances;
* but for actual usage, a configured instance is created by using
* a create method in sub-class
* {@link com.facebook.presto.jdbc.internal.jackson.databind.ser.DefaultSerializerProvider}.
* Only this instance can be used for actual serialization calls; blueprint
* object is only to be used for creating instances.
*/
public abstract class SerializerProvider
{
protected final static JavaType TYPE_OBJECT = TypeFactory.defaultInstance().uncheckedSimpleType(Object.class);
/**
* Setting for determining whether mappings for "unknown classes" should be
* cached for faster resolution. Usually this isn't needed, but maybe it
* is in some cases?
*/
protected final static boolean CACHE_UNKNOWN_MAPPINGS = false;
public final static JsonSerializer<Object> DEFAULT_NULL_KEY_SERIALIZER =
new FailingSerializer("Null key for a Map not allowed in JSON (use a converting NullKeySerializer?)");
public final static JsonSerializer<Object> DEFAULT_UNKNOWN_SERIALIZER = new UnknownSerializer();
/*
/**********************************************************
/* Configuration, general
/**********************************************************
*/
/**
* Serialization configuration to use for serialization processing.
*/
final protected SerializationConfig _config;
/**
* View used for currently active serialization, if any.
*/
final protected Class<?> _serializationView;
/*
/**********************************************************
/* Configuration, factories
/**********************************************************
*/
/**
* Factory used for constructing actual serializer instances.
*/
final protected SerializerFactory _serializerFactory;
/*
/**********************************************************
/* Helper objects for caching
/**********************************************************
*/
/**
* Cache for doing type-to-value-serializer lookups.
*/
final protected SerializerCache _serializerCache;
/**
* Helper object for keeping track of introspected root names
*/
final protected RootNameLookup _rootNames;
/*
/**********************************************************
/* Configuration, specialized serializers
/**********************************************************
*/
/**
* Serializer that gets called for values of types for which no
* serializers can be constructed.
*<p>
* The default serializer will simply thrown an exception.
*/
protected JsonSerializer<Object> _unknownTypeSerializer = DEFAULT_UNKNOWN_SERIALIZER;
/**
* Serializer used to output non-null keys of Maps (which will get
* output as JSON Objects), if not null; if null, us the standard
* default key serializer.
*/
protected JsonSerializer<Object> _keySerializer;
/**
* Serializer used to output a null value. Default implementation
* writes nulls using {@link JsonGenerator#writeNull}.
*/
protected JsonSerializer<Object> _nullValueSerializer = NullSerializer.instance;
/**
* Serializer used to (try to) output a null key, due to an entry of
* {@link java.util.Map} having null key.
* The default implementation will throw an exception if this happens;
* alternative implementation (like one that would write an Empty String)
* can be defined.
*/
protected JsonSerializer<Object> _nullKeySerializer = DEFAULT_NULL_KEY_SERIALIZER;
/*
/**********************************************************
/* State, for non-blueprint instances: generic
/**********************************************************
*/
/**
* For fast lookups, we will have a local non-shared read-only
* map that contains serializers previously fetched.
*/
protected final ReadOnlyClassToSerializerMap _knownSerializers;
/**
* Lazily acquired and instantiated formatter object: initialized
* first time it is needed, reused afterwards. Used via instances
* (not blueprints), so that access need not be thread-safe.
*/
protected DateFormat _dateFormat;
/*
/**********************************************************
/* Life-cycle
/**********************************************************
*/
/**
* Constructor for creating master (or "blue-print") provider object,
* which is only used as the template for constructing per-binding
* instances.
*/
public SerializerProvider()
{
_config = null;
_serializerFactory = null;
_serializerCache = new SerializerCache();
// Blueprints doesn't have access to any serializers...
_knownSerializers = null;
_rootNames = new RootNameLookup();
_serializationView = null;
}
/**
* "Copy-constructor", used by sub-classes.
*
* @param src Blueprint object used as the baseline for this instance
*/
protected SerializerProvider(SerializerProvider src,
SerializationConfig config, SerializerFactory f)
{
if (config == null) {
throw new NullPointerException();
}
_serializerFactory = f;
_config = config;
_serializerCache = src._serializerCache;
_unknownTypeSerializer = src._unknownTypeSerializer;
_keySerializer = src._keySerializer;
_nullValueSerializer = src._nullValueSerializer;
_nullKeySerializer = src._nullKeySerializer;
_rootNames = src._rootNames;
/* Non-blueprint instances do have a read-only map; one that doesn't
* need synchronization for lookups.
*/
_knownSerializers = _serializerCache.getReadOnlyLookupMap();
_serializationView = config.getActiveView();
}
/*
/**********************************************************
/* Methods for configuring default settings
/**********************************************************
*/
/**
* Method that can be used to specify serializer that will be
* used to write JSON property names matching null keys for Java
* Maps (which will throw an exception if try write such property
* name)
*/
public void setDefaultKeySerializer(JsonSerializer<Object> ks)
{
if (ks == null) {
throw new IllegalArgumentException("Can not pass null JsonSerializer");
}
_keySerializer = ks;
}
/**
* Method that can be used to specify serializer that will be
* used to write JSON values matching Java null values
* instead of default one (which simply writes JSON null)
*/
public void setNullValueSerializer(JsonSerializer<Object> nvs)
{
if (nvs == null) {
throw new IllegalArgumentException("Can not pass null JsonSerializer");
}
_nullValueSerializer = nvs;
}
/**
* Method that can be used to specify serializer to use for serializing
* all non-null JSON property names, unless more specific key serializer
* is found (i.e. if not custom key serializer has been registered for
* Java type).
*<p>
* Note that key serializer registration are different from value serializer
* registrations.
*/
public void setNullKeySerializer(JsonSerializer<Object> nks)
{
if (nks == null) {
throw new IllegalArgumentException("Can not pass null JsonSerializer");
}
_nullKeySerializer = nks;
}
/*
/**********************************************************
/* Access to general configuration
/**********************************************************
*/
/**
* Method for accessing configuration for the serialization processing.
*/
public final SerializationConfig getConfig() { return _config; }
/**
* Convenience method for checking whether specified serialization
* feature is enabled or not.
* Shortcut for:
*<pre>
* getConfig().isEnabled(feature);
*</pre>
*/
public final boolean isEnabled(MapperFeature feature) {
return _config.isEnabled(feature);
}
/**
* Convenience method for checking whether specified serialization
* feature is enabled or not.
* Shortcut for:
*<pre>
* getConfig().isEnabled(feature);
*</pre>
*/
public final boolean isEnabled(SerializationFeature feature) {
return _config.isEnabled(feature);
}
/**
* Convenience method for accessing serialization view in use (if any); equivalent to:
*<pre>
* getConfig().canOverrideAccessModifiers();
*</pre>
*/
public final boolean canOverrideAccessModifiers() {
return _config.canOverrideAccessModifiers();
}
/**
* Convenience method for accessing serialization view in use (if any); equivalent to:
*<pre>
* getConfig().getAnnotationIntrospector();
*</pre>
*/
public final AnnotationIntrospector getAnnotationIntrospector() {
return _config.getAnnotationIntrospector();
}
/**
* Convenience method for accessing serialization view in use (if any); equivalent to:
*<pre>
* getConfig().getSerializationView();
*</pre>
*/
public final Class<?> getSerializationView() { return _serializationView; }
/**
* Convenience method for accessing provider to find serialization filters used,
* equivalent to calling:
*<pre>
* getConfig().getFilterProvider();
*</pre>
*/
public final FilterProvider getFilterProvider() {
return _config.getFilterProvider();
}
/**
* Method for accessing default Locale to use: convenience method for
*<pre>
* getConfig().getLocale();
*</pre>
*/
public Locale getLocale() {
return _config.getLocale();
}
/**
* Method for accessing default TimeZone to use: convenience method for
*<pre>
* getConfig().getTimeZone();
*</pre>
*/
public TimeZone getTimeZone() {
return _config.getTimeZone();
}
/*
/**********************************************************
/* Access to type handling
/**********************************************************
*/
/**
* Convenience method for constructing {@link JavaType} for given JDK
* type (usually {@link java.lang.Class})
*/
public JavaType constructType(Type type) {
return _config.getTypeFactory().constructType(type);
}
/**
* Convenience method for constructing subtypes, retaining generic
* type parameter (if any)
*/
public JavaType constructSpecializedType(JavaType baseType, Class<?> subclass) {
return _config.constructSpecializedType(baseType, subclass);
}
public TypeFactory getTypeFactory() {
return _config.getTypeFactory();
}
/*
/**********************************************************
/* Access to Object Id aspects
/**********************************************************
*/
/**
* Method called to find the Object Id for given POJO, if one
* has been generated. Will always return a non-null Object;
* contents vary depending on whether an Object Id already
* exists or not.
*/
public abstract WritableObjectId findObjectId(Object forPojo,
ObjectIdGenerator<?> generatorType);
/*
/**********************************************************
/* General serializer locating functionality
/**********************************************************
*/
/**
* Method called to get hold of a serializer for a value of given type;
* or if no such serializer can be found, a default handler (which
* may do a best-effort generic serialization or just simply
* throw an exception when invoked).
*<p>
* Note: this method is only called for non-null values; not for keys
* or null values. For these, check out other accessor methods.
*<p>
* Note that starting with version 1.5, serializers should also be type-aware
* if they handle polymorphic types. That means that it may be necessary
* to also use a {@link TypeSerializer} based on declared (static) type
* being serializer (whereas actual data may be serialized using dynamic
* type)
*
* @throws JsonMappingException if there are fatal problems with
* accessing suitable serializer; including that of not
* finding any serializer
*/
public JsonSerializer<Object> findValueSerializer(Class<?> valueType,
BeanProperty property)
throws JsonMappingException
{
// Fast lookup from local lookup thingy works?
JsonSerializer<Object> ser = _knownSerializers.untypedValueSerializer(valueType);
if (ser == null) {
// If not, maybe shared map already has it?
ser = _serializerCache.untypedValueSerializer(valueType);
if (ser == null) {
// ... possibly as fully typed?
ser = _serializerCache.untypedValueSerializer(_config.constructType(valueType));
if (ser == null) {
// If neither, must create
ser = _createAndCacheUntypedSerializer(valueType);
// Not found? Must use the unknown type serializer
/* Couldn't create? Need to return the fallback serializer, which
* most likely will report an error: but one question is whether
* we should cache it?
*/
if (ser == null) {
ser = getUnknownTypeSerializer(valueType);
// Should this be added to lookups?
if (CACHE_UNKNOWN_MAPPINGS) {
_serializerCache.addAndResolveNonTypedSerializer(valueType, ser, this);
}
return ser;
}
}
}
}
// at this point, resolution has occured, but not contextualization
return _handleContextual(ser, property);
}
/**
* Similar to {@link #findValueSerializer(Class,BeanProperty)}, but takes
* full generics-aware type instead of raw class.
* This is necessary for accurate handling of external type information,
* to handle polymorphic types.
*
* @param property When creating secondary serializers, property for which
* serializer is needed: annotations of the property (or bean that contains it)
* may be checked to create contextual serializers.
*/
public JsonSerializer<Object> findValueSerializer(JavaType valueType, BeanProperty property)
throws JsonMappingException
{
// Fast lookup from local lookup thingy works?
JsonSerializer<Object> ser = _knownSerializers.untypedValueSerializer(valueType);
if (ser == null) {
// If not, maybe shared map already has it?
ser = _serializerCache.untypedValueSerializer(valueType);
if (ser == null) {
// If neither, must create
ser = _createAndCacheUntypedSerializer(valueType);
// Not found? Must use the unknown type serializer
/* Couldn't create? Need to return the fallback serializer, which
* most likely will report an error: but one question is whether
* we should cache it?
*/
if (ser == null) {
ser = getUnknownTypeSerializer(valueType.getRawClass());
// Should this be added to lookups?
if (CACHE_UNKNOWN_MAPPINGS) {
_serializerCache.addAndResolveNonTypedSerializer(valueType, ser, this);
}
return ser;
}
}
}
return _handleContextual(ser, property);
}
/**
* Method called to locate regular serializer, matching type serializer,
* and if both found, wrap them in a serializer that calls both in correct
* sequence. This method is currently only used for root-level serializer
* handling to allow for simpler caching. A call can always be replaced
* by equivalent calls to access serializer and type serializer separately.
*
* @param valueType Type for purpose of locating a serializer; usually dynamic
* runtime type, but can also be static declared type, depending on configuration
* @param cache Whether resulting value serializer should be cached or not; this is just
* a hint
* @param property When creating secondary serializers, property for which
* serializer is needed: annotations of the property (or bean that contains it)
* may be checked to create contextual serializers.
*/
public JsonSerializer<Object> findTypedValueSerializer(Class<?> valueType,
boolean cache, BeanProperty property)
throws JsonMappingException
{
// Two-phase lookups; local non-shared cache, then shared:
JsonSerializer<Object> ser = _knownSerializers.typedValueSerializer(valueType);
if (ser != null) {
return ser;
}
// If not, maybe shared map already has it?
ser = _serializerCache.typedValueSerializer(valueType);
if (ser != null) {
return ser;
}
// Well, let's just compose from pieces:
ser = findValueSerializer(valueType, property);
TypeSerializer typeSer = _serializerFactory.createTypeSerializer(_config,
_config.constructType(valueType));
if (typeSer != null) {
typeSer = typeSer.forProperty(property);
ser = new TypeWrappedSerializer(typeSer, ser);
}
if (cache) {
_serializerCache.addTypedSerializer(valueType, ser);
}
return ser;
}
/**
* Method called to locate regular serializer, matching type serializer,
* and if both found, wrap them in a serializer that calls both in correct
* sequence. This method is currently only used for root-level serializer
* handling to allow for simpler caching. A call can always be replaced
* by equivalent calls to access serializer and type serializer separately.
*
* @param valueType Declared type of value being serialized (which may not
* be actual runtime type); used for finding both value serializer and
* type serializer to use for adding polymorphic type (if any)
* @param cache Whether resulting value serializer should be cached or not; this is just
* a hint
* @param property When creating secondary serializers, property for which
* serializer is needed: annotations of the property (or bean that contains it)
* may be checked to create contextual serializers.
*/
public JsonSerializer<Object> findTypedValueSerializer(JavaType valueType, boolean cache,
BeanProperty property)
throws JsonMappingException
{
// Two-phase lookups; local non-shared cache, then shared:
JsonSerializer<Object> ser = _knownSerializers.typedValueSerializer(valueType);
if (ser != null) {
return ser;
}
// If not, maybe shared map already has it?
ser = _serializerCache.typedValueSerializer(valueType);
if (ser != null) {
return ser;
}
// Well, let's just compose from pieces:
ser = findValueSerializer(valueType, property);
TypeSerializer typeSer = _serializerFactory.createTypeSerializer(_config, valueType);
if (typeSer != null) {
typeSer = typeSer.forProperty(property);
ser = new TypeWrappedSerializer(typeSer, ser);
}
if (cache) {
_serializerCache.addTypedSerializer(valueType, ser);
}
return ser;
}
/**
* Method called to get the serializer to use for serializing
* non-null Map keys. Separation from regular
* {@link #findValueSerializer} method is because actual write
* method must be different (@link JsonGenerator#writeFieldName};
* but also since behavior for some key types may differ.
*<p>
* Note that the serializer itself can be called with instances
* of any Java object, but not nulls.
*/
public JsonSerializer<Object> findKeySerializer(JavaType keyType,
BeanProperty property)
throws JsonMappingException
{
JsonSerializer<Object> ser = _serializerFactory.createKeySerializer(_config, keyType);
// First things first: maybe there are registered custom implementations
// if not, use default one:
if (ser == null) {
if (_keySerializer == null) {
ser = StdKeySerializers.getStdKeySerializer(keyType);
} else {
ser = _keySerializer;
}
}
// 25-Feb-2011, tatu: As per [JACKSON-519], need to ensure contextuality works here, too
return _handleContextualResolvable(ser, property);
}
/*
/********************************************************
/* Accessors for specialized serializers
/********************************************************
*/
/**
* @since 2.0
*/
public JsonSerializer<Object> getDefaultNullKeySerializer() {
return _nullKeySerializer;
}
/**
* @since 2.0
*/
public JsonSerializer<Object> getDefaultNullValueSerializer() {
return _nullValueSerializer;
}
/**
* Method called to get the serializer to use for serializing
* Map keys that are nulls: this is needed since JSON does not allow
* any non-String value as key, including null.
*<p>
* Typically, returned serializer
* will either throw an exception, or use an empty String; but
* other behaviors are possible.
*/
/**
* Method called to find a serializer to use for null values for given
* declared type. Note that type is completely based on declared type,
* since nulls in Java have no type and thus runtime type can not be
* determined.
*
* @since 2.0
*/
public JsonSerializer<Object> findNullKeySerializer(JavaType serializationType,
BeanProperty property)
throws JsonMappingException {
return getDefaultNullKeySerializer();
}
/**
* Method called to get the serializer to use for serializing null
* property values.
*<p>
* Default implementation simply calls {@link #getDefaultNullValueSerializer()};
* can be overridden to add custom null serialization for properties
* of certain type or name.
*
* @since 2.0
*/
public JsonSerializer<Object> findNullValueSerializer(BeanProperty property)
throws JsonMappingException {
return getDefaultNullValueSerializer();
}
/**
* Method called to get the serializer to use if provider
* can not determine an actual type-specific serializer
* to use; typically when none of {@link SerializerFactory}
* instances are able to construct a serializer.
*<p>
* Typically, returned serializer will throw an exception,
* although alternatively {@link com.facebook.presto.jdbc.internal.jackson.databind.ser.std.ToStringSerializer}
* could be returned as well.
*
* @param unknownType Type for which no serializer is found
*/
public JsonSerializer<Object> getUnknownTypeSerializer(Class<?> unknownType) {
return _unknownTypeSerializer;
}
/*
/**********************************************************
/* Methods for creating instances based on annotations
/**********************************************************
*/
/**
* Method that can be called to construct and configure serializer instance,
* either given a {@link Class} to instantiate (with default constructor),
* or an uninitialized serializer instance.
* Either way, serialize will be properly resolved
* (via {@link com.facebook.presto.jdbc.internal.jackson.databind.ser.ResolvableSerializer}) and/or contextualized
* (via {@link com.facebook.presto.jdbc.internal.jackson.databind.ser.ContextualSerializer}) as necessary.
*
* @param annotated Annotated entity that contained definition
* @param serDef Serializer definition: either an instance or class
*/
public abstract JsonSerializer<Object> serializerInstance(Annotated annotated,
Object serDef)
throws JsonMappingException;
public abstract ObjectIdGenerator<?> objectIdGeneratorInstance(Annotated annotated,
ObjectIdInfo objectIdInfo)
throws JsonMappingException;
/*
/********************************************************
/* Convenience methods
/********************************************************
*/
/**
* Convenience method that will serialize given value (which can be
* null) using standard serializer locating functionality. It can
* be called for all values including field and Map values, but usually
* field values are best handled calling
* {@link #defaultSerializeField} instead.
*/
public final void defaultSerializeValue(Object value, JsonGenerator jgen)
throws IOException, JsonProcessingException
{
if (value == null) {
getDefaultNullValueSerializer().serialize(null, jgen, this);
} else {
Class<?> cls = value.getClass();
findTypedValueSerializer(cls, true, null).serialize(value, jgen, this);
}
}
/**
* Convenience method that will serialize given field with specified
* value. Value may be null. Serializer is done using the usual
* null) using standard serializer locating functionality.
*/
public final void defaultSerializeField(String fieldName, Object value, JsonGenerator jgen)
throws IOException, JsonProcessingException
{
jgen.writeFieldName(fieldName);
if (value == null) {
/* Note: can't easily check for suppression at this point
* any more; caller must check it.
*/
getDefaultNullValueSerializer().serialize(null, jgen, this);
} else {
Class<?> cls = value.getClass();
findTypedValueSerializer(cls, true, null).serialize(value, jgen, this);
}
}
/*
/**********************************************************
/* Convenience methods
/**********************************************************
*/
/**
* Method that will handle serialization of Date(-like) values, using
* {@link SerializationConfig} settings to determine expected serialization
* behavior.
* Note: date here means "full" date, that is, date AND time, as per
* Java convention (and not date-only values like in SQL)
*/
public final void defaultSerializeDateValue(long timestamp, JsonGenerator jgen)
throws IOException, JsonProcessingException
{
// [JACKSON-87]: Support both numeric timestamps and textual
if (isEnabled(SerializationFeature.WRITE_DATES_AS_TIMESTAMPS)) {
jgen.writeNumber(timestamp);
} else {
jgen.writeString(_dateFormat().format(new Date(timestamp)));
}
}
/**
* Method that will handle serialization of Date(-like) values, using
* {@link SerializationConfig} settings to determine expected serialization
* behavior.
* Note: date here means "full" date, that is, date AND time, as per
* Java convention (and not date-only values like in SQL)
*/
public final void defaultSerializeDateValue(Date date, JsonGenerator jgen)
throws IOException, JsonProcessingException
{
// [JACKSON-87]: Support both numeric timestamps and textual
if (isEnabled(SerializationFeature.WRITE_DATES_AS_TIMESTAMPS)) {
jgen.writeNumber(date.getTime());
} else {
jgen.writeString(_dateFormat().format(date));
}
}
/**
* Method that will handle serialization of Dates used as {@link java.util.Map} keys,
* based on {@link SerializationFeature#WRITE_DATE_KEYS_AS_TIMESTAMPS}
* value (and if using textual representation, configured date format)
*/
public void defaultSerializeDateKey(long timestamp, JsonGenerator jgen)
throws IOException, JsonProcessingException
{
if (isEnabled(SerializationFeature.WRITE_DATE_KEYS_AS_TIMESTAMPS)) {
jgen.writeFieldName(String.valueOf(timestamp));
} else {
jgen.writeFieldName(_dateFormat().format(new Date(timestamp)));
}
}
/**
* Method that will handle serialization of Dates used as {@link java.util.Map} keys,
* based on {@link SerializationFeature#WRITE_DATE_KEYS_AS_TIMESTAMPS}
* value (and if using textual representation, configured date format)
*/
public void defaultSerializeDateKey(Date date, JsonGenerator jgen)
throws IOException, JsonProcessingException
{
if (isEnabled(SerializationFeature.WRITE_DATE_KEYS_AS_TIMESTAMPS)) {
jgen.writeFieldName(String.valueOf(date.getTime()));
} else {
jgen.writeFieldName(_dateFormat().format(date));
}
}
public final void defaultSerializeNull(JsonGenerator jgen)
throws IOException, JsonProcessingException
{
getDefaultNullValueSerializer().serialize(null, jgen, this);
}
/*
/********************************************************
/* Helper methods
/********************************************************
*/
protected void _reportIncompatibleRootType(Object value, JavaType rootType)
throws IOException, JsonProcessingException
{
/* 07-Jan-2010, tatu: As per [JACKSON-456] better handle distinction between wrapper types,
* primitives
*/
if (rootType.isPrimitive()) {
Class<?> wrapperType = ClassUtil.wrapperType(rootType.getRawClass());
// If it's just difference between wrapper, primitive, let it slide
if (wrapperType.isAssignableFrom(value.getClass())) {
return;
}
}
throw new JsonMappingException("Incompatible types: declared root type ("+rootType+") vs "
+value.getClass().getName());
}
/**
* Method that will try to find a serializer, either from cache
* or by constructing one; but will not return an "unknown" serializer
* if this can not be done but rather returns null.
*
* @return Serializer if one can be found, null if not.
*/
protected JsonSerializer<Object> _findExplicitUntypedSerializer(Class<?> runtimeType)
{
// Fast lookup from local lookup thingy works?
JsonSerializer<Object> ser = _knownSerializers.untypedValueSerializer(runtimeType);
if (ser != null) {
return ser;
}
// If not, maybe shared map already has it?
ser = _serializerCache.untypedValueSerializer(runtimeType);
if (ser != null) {
return ser;
}
try {
return _createAndCacheUntypedSerializer(runtimeType);
} catch (Exception e) {
return null;
}
}
/*
/**********************************************************
/* Low-level methods for actually constructing and initializing
/* serializers
/**********************************************************
*/
/**
* Method that will try to construct a value serializer; and if
* one is successfully created, cache it for reuse.
*/
protected JsonSerializer<Object> _createAndCacheUntypedSerializer(Class<?> type)
throws JsonMappingException
{
JsonSerializer<Object> ser;
try {
ser = _createUntypedSerializer(_config.constructType(type));
} catch (IllegalArgumentException iae) {
/* We better only expose checked exceptions, since those
* are what caller is expected to handle
*/
throw new JsonMappingException(iae.getMessage(), null, iae);
}
if (ser != null) {
_serializerCache.addAndResolveNonTypedSerializer(type, ser, this);
}
return ser;
}
protected JsonSerializer<Object> _createAndCacheUntypedSerializer(JavaType type)
throws JsonMappingException
{
JsonSerializer<Object> ser;
try {
ser = _createUntypedSerializer(type);
} catch (IllegalArgumentException iae) {
/* We better only expose checked exceptions, since those
* are what caller is expected to handle
*/
throw new JsonMappingException(iae.getMessage(), null, iae);
}
if (ser != null) {
_serializerCache.addAndResolveNonTypedSerializer(type, ser, this);
}
return ser;
}
/**
* @since 2.1
*/
@SuppressWarnings("deprecation")
protected JsonSerializer<Object> _createUntypedSerializer(JavaType type)
throws JsonMappingException
{
/* 30-Sep-2012, tatu: For now need to call the deprecated method; for 2.2,
* convert to using new one. But note that we do NOT pass 'property' along.
*/
return (JsonSerializer<Object>)_serializerFactory.createSerializer(this, type, null);
}
/**
* Helper method called to resolve and contextualize given
* serializer, if and as necessary.
*/
protected JsonSerializer<Object> _handleContextualResolvable(JsonSerializer<?> ser,
BeanProperty property)
throws JsonMappingException
{
if (ser instanceof ResolvableSerializer) {
((ResolvableSerializer) ser).resolve(this);
}
return _handleContextual(ser, property);
}
@SuppressWarnings("unchecked")
protected JsonSerializer<Object> _handleResolvable(JsonSerializer<?> ser)
throws JsonMappingException
{
if (ser instanceof ResolvableSerializer) {
((ResolvableSerializer) ser).resolve(this);
}
return (JsonSerializer<Object>) ser;
}
@SuppressWarnings("unchecked")
protected JsonSerializer<Object> _handleContextual(JsonSerializer<?> ser,
BeanProperty property)
throws JsonMappingException
{
if (ser instanceof ContextualSerializer) {
ser = ((ContextualSerializer) ser).createContextual(this, property);
}
return (JsonSerializer<Object>) ser;
}
/*
/**********************************************************
/* Internal methods
/**********************************************************
*/
protected final DateFormat _dateFormat()
{
if (_dateFormat != null) {
return _dateFormat;
}
/* 24-Feb-2012, tatu: At this point, all timezone configuration
* should have occured, with respect to default dateformat
* and timezone configuration. But we still better clone
* an instance as formatters may be stateful.
*/
DateFormat df = _config.getDateFormat();
_dateFormat = df = (DateFormat) df.clone();
return df;
}
}