package org.bson.codecs.pojo;
import org.bson.BsonInvalidOperationException;
import org.bson.BsonReader;
import org.bson.BsonReaderMark;
import org.bson.BsonType;
import org.bson.BsonWriter;
import org.bson.codecs.Codec;
import org.bson.codecs.DecoderContext;
import org.bson.codecs.EncoderContext;
import org.bson.codecs.configuration.CodecConfigurationException;
import org.bson.codecs.configuration.CodecRegistry;
import org.bson.diagnostics.Logger;
import org.bson.diagnostics.Loggers;
import java.util.ArrayList;
import java.util.Collection;
import java.util.List;
import java.util.Map;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ConcurrentMap;
import static java.lang.String.format;
import static org.bson.codecs.configuration.CodecRegistries.fromCodecs;
import static org.bson.codecs.configuration.CodecRegistries.fromRegistries;
final class PojoCodecImpl<T> extends PojoCodec<T> {
private static final Logger LOGGER = Loggers.getLogger("PojoCodec");
private final ClassModel<T> classModel;
private final CodecRegistry registry;
private final PropertyCodecRegistry propertyCodecRegistry;
private final DiscriminatorLookup discriminatorLookup;
private final ConcurrentMap<ClassModel<?>, Codec<?>> codecCache;
private final boolean specialized;
PojoCodecImpl(final ClassModel<T> classModel, final CodecRegistry codecRegistry,
final List<PropertyCodecProvider> propertyCodecProviders, final DiscriminatorLookup discriminatorLookup) {
this.classModel = classModel;
this.registry = fromRegistries(fromCodecs(this), codecRegistry);
this.discriminatorLookup = discriminatorLookup;
this.codecCache = new ConcurrentHashMap<ClassModel<?>, Codec<?>>();
this.propertyCodecRegistry = new PropertyCodecRegistryImpl(this, registry, propertyCodecProviders);
this.specialized = shouldSpecialize(classModel);
specialize();
}
PojoCodecImpl(final ClassModel<T> classModel, final CodecRegistry registry, final PropertyCodecRegistry propertyCodecRegistry,
final DiscriminatorLookup discriminatorLookup, final ConcurrentMap<ClassModel<?>, Codec<?>> codecCache,
final boolean specialized) {
this.classModel = classModel;
this.registry = fromRegistries(fromCodecs(this), registry);
this.discriminatorLookup = discriminatorLookup;
this.codecCache = codecCache;
this.propertyCodecRegistry = propertyCodecRegistry;
this.specialized = specialized;
specialize();
}
private void specialize() {
if (specialized) {
codecCache.put(classModel, this);
for (PropertyModel<?> propertyModel : classModel.getPropertyModels()) {
addToCache(propertyModel);
}
}
}
@SuppressWarnings("unchecked")
@Override
public void encode(final BsonWriter writer, final T value, final EncoderContext encoderContext) {
if (!specialized) {
throw new CodecConfigurationException(format("%s contains generic types that have not been specialised.%n"
+ "Top level classes with generic types are not supported by the PojoCodec.", classModel.getName()));
}
if (areEquivalentTypes(value.getClass(), classModel.getType())) {
writer.writeStartDocument();
encodeIdProperty(writer, value, encoderContext, classModel.getIdPropertyModelHolder());
if (classModel.useDiscriminator()) {
writer.writeString(classModel.getDiscriminatorKey(), classModel.getDiscriminator());
}
for (PropertyModel<?> propertyModel : classModel.getPropertyModels()) {
if (propertyModel.equals(classModel.getIdPropertyModel())) {
continue;
}
encodeProperty(writer, value, encoderContext, propertyModel);
}
writer.writeEndDocument();
} else {
((Codec<T>) registry.get(value.getClass())).encode(writer, value, encoderContext);
}
}
@Override
public T decode(final BsonReader reader, final DecoderContext decoderContext) {
if (decoderContext.hasCheckedDiscriminator()) {
if (!specialized) {
throw new CodecConfigurationException(format("%s contains generic types that have not been specialised.%n"
+ "Top level classes with generic types are not supported by the PojoCodec.", classModel.getName()));
}
InstanceCreator<T> instanceCreator = classModel.getInstanceCreator();
decodeProperties(reader, decoderContext, instanceCreator);
return instanceCreator.getInstance();
} else {
return getCodecFromDocument(reader, classModel.useDiscriminator(), classModel.getDiscriminatorKey(), registry,
discriminatorLookup, this).decode(reader, DecoderContext.builder().checkedDiscriminator(true).build());
}
}
@Override
public Class<T> getEncoderClass() {
return classModel.getType();
}
@Override
public String toString() {
return format("PojoCodec<%s>", classModel);
}
ClassModel<T> getClassModel() {
return classModel;
}
private <S> void encodeIdProperty(final BsonWriter writer, final T instance, final EncoderContext encoderContext,
final IdPropertyModelHolder<S> propertyModelHolder) {
if (propertyModelHolder.getPropertyModel() != null) {
if (propertyModelHolder.getIdGenerator() == null) {
encodeProperty(writer, instance, encoderContext, propertyModelHolder.getPropertyModel());
} else {
S id = propertyModelHolder.getPropertyModel().getPropertyAccessor().get(instance);
if (id == null && encoderContext.isEncodingCollectibleDocument()) {
id = propertyModelHolder.getIdGenerator().generate();
try {
propertyModelHolder.getPropertyModel().getPropertyAccessor().set(instance, id);
} catch (Exception e) {
}
}
encodeValue(writer, encoderContext, propertyModelHolder.getPropertyModel(), id);
}
}
}
@SuppressWarnings("unchecked")
private <S> void encodeProperty(final BsonWriter writer, final T instance, final EncoderContext encoderContext,
final PropertyModel<S> propertyModel) {
if (propertyModel != null && propertyModel.isReadable()) {
S propertyValue = propertyModel.getPropertyAccessor().get(instance);
encodeValue(writer, encoderContext, propertyModel, propertyValue);
}
}
private <S> void encodeValue(final BsonWriter writer, final EncoderContext encoderContext, final PropertyModel<S> propertyModel,
final S propertyValue) {
if (propertyModel.shouldSerialize(propertyValue)) {
writer.writeName(propertyModel.getReadName());
if (propertyValue == null) {
writer.writeNull();
} else {
try {
encoderContext.encodeWithChildContext(propertyModel.getCachedCodec(), writer, propertyValue);
} catch (CodecConfigurationException e) {
throw new CodecConfigurationException(format("Failed to encode '%s'. Encoding '%s' errored with: %s",
classModel.getName(), propertyModel.getReadName(), e.getMessage()), e);
}
}
}
}
@SuppressWarnings("unchecked")
private void decodeProperties(final BsonReader reader, final DecoderContext decoderContext, final InstanceCreator<T> instanceCreator) {
reader.readStartDocument();
while (reader.readBsonType() != BsonType.END_OF_DOCUMENT) {
String name = reader.readName();
if (classModel.useDiscriminator() && classModel.getDiscriminatorKey().equals(name)) {
reader.readString();
} else {
decodePropertyModel(reader, decoderContext, instanceCreator, name, getPropertyModelByWriteName(classModel, name));
}
}
reader.readEndDocument();
}
@SuppressWarnings("unchecked")
private <S> void decodePropertyModel(final BsonReader reader, final DecoderContext decoderContext,
final InstanceCreator<T> instanceCreator, final String name,
final PropertyModel<S> propertyModel) {
if (propertyModel != null) {
try {
S value = null;
if (reader.getCurrentBsonType() == BsonType.NULL) {
reader.readNull();
} else {
Codec<S> codec = propertyModel.getCachedCodec();
if (codec == null) {
throw new CodecConfigurationException(format("Missing codec in '%s' for '%s'",
classModel.getName(), propertyModel.getName()));
}
value = decoderContext.decodeWithChildContext(codec, reader);
}
if (propertyModel.isWritable()) {
instanceCreator.set(value, propertyModel);
}
} catch (BsonInvalidOperationException e) {
throw new CodecConfigurationException(format("Failed to decode '%s'. Decoding '%s' errored with: %s",
classModel.getName(), name, e.getMessage()), e);
} catch (CodecConfigurationException e) {
throw new CodecConfigurationException(format("Failed to decode '%s'. Decoding '%s' errored with: %s",
classModel.getName(), name, e.getMessage()), e);
}
} else {
if (LOGGER.isTraceEnabled()) {
LOGGER.trace(format("Found property not present in the ClassModel: %s", name));
}
reader.skipValue();
}
}
private <S> void addToCache(final PropertyModel<S> propertyModel) {
Codec<S> codec = propertyModel.getCodec() != null ? propertyModel.getCodec() : specializePojoCodec(propertyModel);
propertyModel.cachedCodec(codec);
}
private <S, V> boolean areEquivalentTypes(final Class<S> t1, final Class<V> t2) {
if (t1.equals(t2)) {
return true;
} else if (Collection.class.isAssignableFrom(t1) && Collection.class.isAssignableFrom(t2)) {
return true;
} else if (Map.class.isAssignableFrom(t1) && Map.class.isAssignableFrom(t2)) {
return true;
}
return false;
}
@SuppressWarnings("unchecked")
private <S> Codec<S> specializePojoCodec(final PropertyModel<S> propertyModel) {
Codec<S> codec = getCodecFromPropertyRegistry(propertyModel);
if (codec instanceof PojoCodec) {
PojoCodec<S> pojoCodec = (PojoCodec<S>) codec;
ClassModel<S> specialized = getSpecializedClassModel(pojoCodec.getClassModel(), propertyModel);
if (codecCache.containsKey(specialized)) {
codec = (Codec<S>) codecCache.get(specialized);
} else {
codec = new LazyPojoCodec<S>(specialized, registry, propertyCodecRegistry, discriminatorLookup, codecCache);
}
}
return codec;
}
private <S> Codec<S> getCodecFromPropertyRegistry(final PropertyModel<S> propertyModel) {
try {
return propertyCodecRegistry.get(propertyModel.getTypeData());
} catch (CodecConfigurationException e) {
return new LazyMissingCodec<S>(propertyModel.getTypeData().getType(), e);
}
}
@SuppressWarnings({"rawtypes", "unchecked"})
private <S, V> ClassModel<S> getSpecializedClassModel(final ClassModel<S> clazzModel, final PropertyModel<V> propertyModel) {
boolean useDiscriminator = propertyModel.useDiscriminator() == null ? clazzModel.useDiscriminator()
: propertyModel.useDiscriminator();
boolean validDiscriminator = clazzModel.getDiscriminatorKey() != null && clazzModel.getDiscriminator() != null;
boolean changeTheDiscriminator = (useDiscriminator != clazzModel.useDiscriminator()) && validDiscriminator;
if (propertyModel.getTypeData().getTypeParameters().isEmpty() && !changeTheDiscriminator){
return clazzModel;
}
ArrayList<PropertyModel<?>> concretePropertyModels = new ArrayList<PropertyModel<?>>(clazzModel.getPropertyModels());
PropertyModel<?> concreteIdProperty = clazzModel.getIdPropertyModel();
List<TypeData<?>> propertyTypeParameters = propertyModel.getTypeData().getTypeParameters();
for (int i = 0; i < concretePropertyModels.size(); i++) {
PropertyModel<?> model = concretePropertyModels.get(i);
String propertyName = model.getName();
TypeParameterMap typeParameterMap = clazzModel.getPropertyNameToTypeParameterMap().get(propertyName);
if (typeParameterMap.hasTypeParameters()) {
PropertyModel<?> concretePropertyModel = getSpecializedPropertyModel(model, typeParameterMap, propertyTypeParameters);
concretePropertyModels.set(i, concretePropertyModel);
if (concreteIdProperty != null && concreteIdProperty.getName().equals(propertyName)) {
concreteIdProperty = concretePropertyModel;
}
}
}
boolean discriminatorEnabled = changeTheDiscriminator ? propertyModel.useDiscriminator() : clazzModel.useDiscriminator();
return new ClassModel<S>(clazzModel.getType(), clazzModel.getPropertyNameToTypeParameterMap(),
clazzModel.getInstanceCreatorFactory(), discriminatorEnabled, clazzModel.getDiscriminatorKey(),
clazzModel.getDiscriminator(), IdPropertyModelHolder.create(clazzModel, concreteIdProperty), concretePropertyModels);
}
@SuppressWarnings("unchecked")
private <V> PropertyModel<V> getSpecializedPropertyModel(final PropertyModel<V> propertyModel, final TypeParameterMap typeParameterMap,
final List<TypeData<?>> propertyTypeParameters) {
TypeData<V> specializedPropertyType;
Map<Integer, Integer> propertyToClassParamIndexMap = typeParameterMap.getPropertyToClassParamIndexMap();
Integer classTypeParamRepresentsWholeProperty = propertyToClassParamIndexMap.get(-1);
if (classTypeParamRepresentsWholeProperty != null) {
specializedPropertyType = (TypeData<V>) propertyTypeParameters.get(classTypeParamRepresentsWholeProperty);
} else {
TypeData.Builder<V> builder = TypeData.builder(propertyModel.getTypeData().getType());
List<TypeData<?>> typeParameters = new ArrayList<TypeData<?>>(propertyModel.getTypeData().getTypeParameters());
for (int i = 0; i < typeParameters.size(); i++) {
for (Map.Entry<Integer, Integer> mapping : propertyToClassParamIndexMap.entrySet()) {
if (mapping.getKey().equals(i)) {
typeParameters.set(i, propertyTypeParameters.get(mapping.getValue()));
}
}
}
builder.addTypeParameters(typeParameters);
specializedPropertyType = builder.build();
}
if (propertyModel.getTypeData().equals(specializedPropertyType)) {
return propertyModel;
}
return new PropertyModel<V>(propertyModel.getName(), propertyModel.getReadName(), propertyModel.getWriteName(),
specializedPropertyType, null, propertyModel.getPropertySerialization(), propertyModel.useDiscriminator(),
propertyModel.getPropertyAccessor(), propertyModel.getError());
}
@SuppressWarnings("unchecked")
private Codec<T> getCodecFromDocument(final BsonReader reader, final boolean useDiscriminator, final String discriminatorKey,
final CodecRegistry registry, final DiscriminatorLookup discriminatorLookup,
final Codec<T> defaultCodec) {
Codec<T> codec = defaultCodec;
if (useDiscriminator) {
BsonReaderMark mark = reader.getMark();
reader.readStartDocument();
boolean discriminatorKeyFound = false;
while (!discriminatorKeyFound && reader.readBsonType() != BsonType.END_OF_DOCUMENT) {
String name = reader.readName();
if (discriminatorKey.equals(name)) {
discriminatorKeyFound = true;
try {
codec = (Codec<T>) registry.get(discriminatorLookup.lookup(reader.readString()));
} catch (Exception e) {
throw new CodecConfigurationException(format("Failed to decode '%s'. Decoding errored with: %s",
classModel.getName(), e.getMessage()), e);
}
} else {
reader.skipValue();
}
}
mark.reset();
}
return codec;
}
private PropertyModel<?> getPropertyModelByWriteName(final ClassModel<T> classModel, final String readName) {
for (PropertyModel<?> propertyModel : classModel.getPropertyModels()) {
if (propertyModel.isWritable() && propertyModel.getWriteName().equals(readName)) {
return propertyModel;
}
}
return null;
}
private static <T> boolean shouldSpecialize(final ClassModel<T> classModel) {
if (!classModel.hasTypeParameters()) {
return true;
}
for (Map.Entry<String, TypeParameterMap> entry : classModel.getPropertyNameToTypeParameterMap().entrySet()) {
TypeParameterMap typeParameterMap = entry.getValue();
PropertyModel<?> propertyModel = classModel.getPropertyModel(entry.getKey());
if (typeParameterMap.hasTypeParameters() && (propertyModel == null || propertyModel.getCodec() == null)) {
return false;
}
}
return true;
}
}