import java.util.Iterator
import org.opendaylight.yangtools.yang.model.api.AugmentationSchema
import java.util.concurrent.ConcurrentHashMap
+import static extension org.opendaylight.controller.sal.binding.impl.util.YangSchemaUtils.*;
class TransformerGenerator {
return withClassLoaderAndLock(inputType.classLoader, lock) [ |
val ret = getGeneratedClass(inputType)
if (ret !== null) {
+ listener.onClassProcessed(inputType);
return ret as Class<? extends BindingCodec<Map<QName,Object>, Object>>;
}
val ref = Types.typeForClass(inputType)
val typeSpecBuilder = typeToDefinition.get(ref)
val typeSpec = typeSpecBuilder.toInstance();
val newret = generateTransformerFor(inputType, typeSpec, node);
+ listener.onClassProcessed(inputType);
return newret as Class<? extends BindingCodec<Map<QName,Object>, Object>>;
]
}
val typeSpecBuilder = typeToDefinition.get(ref)
val typeSpec = typeSpecBuilder.toInstance();
val newret = generateAugmentationTransformerFor(inputType, typeSpec, node);
+ listener.onClassProcessed(inputType);
return newret as Class<? extends BindingCodec<Map<QName,Object>, Object>>;
]
}
]
}
- private def Class getGeneratedClass(Class<? extends Object> cls) {
+ private def Class<?> getGeneratedClass(Class<? extends Object> cls) {
try {
return loadClassWithTCCL(cls.codecClassName)
if (transformer !== null) {
return transformer;
}
- val valueTransformer = generateValueTransformer(cls, type);
- return valueTransformer;
+ return withClassLoaderAndLock(cls.classLoader, lock) [ |
+ val valueTransformer = generateValueTransformer(cls, type);
+ return valueTransformer;
+ ]
}
private def generateKeyTransformerFor(Class<? extends Object> inputType, GeneratedType typeSpec, ListSchemaNode node) {
try {
- log.info("Generating DOM Codec for {} with {}", inputType, inputType.classLoader)
+
+ //log.info("Generating DOM Codec for {} with {}", inputType, inputType.classLoader)
val properties = typeSpec.allProperties;
val ctCls = createClass(inputType.codecClassName) [
//staticField(Map,"AUGMENTATION_SERIALIZERS");
_resultName = QNAME;
}
java.util.List _childNodes = new java.util.ArrayList();
- «inputType.name» value = («inputType.name») $2;
+ «inputType.resolvedName» value = («inputType.name») $2;
«FOR key : node.keyDefinition»
«val propertyName = key.getterName»
«val keyDef = node.getDataChildByName(key)»
}
«QName.name» _localQName = $1;
java.util.Map _compositeNode = (java.util.Map) $2;
+ boolean _is_empty = true;
«FOR key : node.keyDefinition»
«val propertyName = key.getterName»
«val keyDef = node.getDataChildByName(key)»
«val property = properties.get(propertyName)»
«deserializeProperty(keyDef, property, propertyName)»;
«ENDFOR»
- «inputType.name» _value = new «inputType.name»(«node.keyDefinition.keyConstructorList»);
+ «inputType.resolvedName» _value = new «inputType.name»(«node.keyDefinition.
+ keyConstructorList»);
return _value;
}
'''
}
}
- private def Class<? extends BindingCodec<Object, Object>> generateCaseCodec(Class inputType, GeneratedType type,
+ private def Class<? extends BindingCodec<Object, Object>> generateCaseCodec(Class<?> inputType, GeneratedType type,
ChoiceCaseNode node) {
try {
- log.info("Generating DOM Codec for {} with {}", inputType, inputType.classLoader)
+
+ //log.info("Generating DOM Codec for {} with {}, TCCL is: {}", inputType, inputType.classLoader,Thread.currentThread.contextClassLoader)
val ctCls = createClass(type.codecClassName) [
//staticField(Map,"AUGMENTATION_SERIALIZERS");
implementsType(BINDING_CODEC)
- staticQNameField(inputType);
+ staticQNameField(node.QName);
staticField(it, INSTANCE_IDENTIFIER_CODEC, BindingCodec)
staticField(it, AUGMENTATION_CODEC, BindingCodec)
method(Object, "toDomStatic", QName, Object) [
«QName.name» _resultName = «QName.name».create($1,QNAME.getLocalName());
java.util.List _childNodes = new java.util.ArrayList();
«type.resolvedName» value = («type.resolvedName») $2;
- «transformDataContainerBody(type.allProperties, node)»
+ «transformDataContainerBody(type, type.allProperties, node)»
return ($r) _childNodes;
}
'''
}
private def dispatch Class<? extends BindingCodec<Map<QName, Object>, Object>> generateTransformerFor(
- Class inputType, GeneratedType typeSpec, SchemaNode node) {
+ Class<?> inputType, GeneratedType typeSpec, SchemaNode node) {
try {
- log.info("Generating DOM Codec for {} with {}", inputType, inputType.classLoader)
+
+ //log.info("Generating DOM Codec for {} with {}", inputType, inputType.classLoader)
val ctCls = createClass(typeSpec.codecClassName) [
//staticField(Map,"AUGMENTATION_SERIALIZERS");
- staticQNameField(inputType);
+ staticQNameField(node.QName);
staticField(it, INSTANCE_IDENTIFIER_CODEC, BindingCodec)
staticField(it, AUGMENTATION_CODEC, BindingCodec)
implementsType(BINDING_CODEC)
}
private def Class<? extends BindingCodec<Map<QName, Object>, Object>> generateAugmentationTransformerFor(
- Class inputType, GeneratedType type, AugmentationSchema node) {
+ Class<?> inputType, GeneratedType type, AugmentationSchema node) {
try {
- log.info("Generating DOM Codec for {} with {}", inputType, inputType.classLoader)
+
+ //log.info("Generating DOM Codec for {} with {}", inputType, inputType.classLoader)
val properties = type.allProperties
val ctCls = createClass(type.codecClassName) [
//staticField(Map,"AUGMENTATION_SERIALIZERS");
- staticQNameField(inputType);
+ staticQNameField(node.augmentationQName);
staticField(it, INSTANCE_IDENTIFIER_CODEC, BindingCodec)
staticField(it, AUGMENTATION_CODEC, BindingCodec)
implementsType(BINDING_CODEC)
return null;
}
java.util.Map _compositeNode = (java.util.Map) $2;
- ////System.out.println(_localQName + " " + _compositeNode);
+ //System.out.println(_localQName + " " + _compositeNode);
«type.builderName» _builder = new «type.builderName»();
+ boolean _is_empty = true;
«FOR child : node.childNodes»
«val signature = properties.getFor(child)»
«deserializeProperty(child, signature.value, signature.key)»
-
_builder.«signature.key.toSetter»(«signature.key»);
«ENDFOR»
+ if(_is_empty) {
+ return null;
+ }
return _builder.build();
}
'''
}
private def dispatch Class<? extends BindingCodec<Map<QName, Object>, Object>> generateTransformerFor(
- Class inputType, GeneratedType typeSpec, ChoiceNode node) {
+ Class<?> inputType, GeneratedType typeSpec, ChoiceNode node) {
try {
- log.info("Generating DOM Codec for {} with {}", inputType, inputType.classLoader)
+
+ //log.info("Generating DOM Codec for {} with {}", inputType, inputType.classLoader)
val ctCls = createClass(typeSpec.codecClassName) [
//staticField(Map,"AUGMENTATION_SERIALIZERS");
//staticQNameField(inputType);
return null;
}
java.util.Map.Entry _input = new «SimpleEntry.name»($1,_baValue);
- return (java.util.List) _codec.serialize(_input);
+ Object _ret = _codec.serialize(_input);
+ //System.out.println("«typeSpec.name»#toDomStatic: " + _ret);
+ return («List.name») _ret;
}
'''
]
return null;
}
java.util.Map _compositeNode = (java.util.Map) $2;
- ////System.out.println(_localQName + " " + _compositeNode);
+ //System.out.println(_localQName + " " + _compositeNode);
«type.builderName» _builder = new «type.builderName»();
«deserializeDataNodeContainerBody(type, node)»
«deserializeAugmentations»
private def deserializeNodeContainerBodyImpl(GeneratedType type, HashMap<String, Type> properties,
DataNodeContainer node) {
val ret = '''
- «FOR child : node.childNodes.filter[!augmenting]»
+ boolean _is_empty = true;
+ «FOR child : node.childNodes»
«val signature = properties.getFor(child)»
- «deserializeProperty(child, signature.value, signature.key)»
-
- _builder.«signature.key.toSetter»(«signature.key»);
+ «IF signature !== null»
+ «deserializeProperty(child, signature.value, signature.key)»
+ _builder.«signature.key.toSetter»(«signature.key»);
+ «ENDIF»
«ENDFOR»
'''
return ret;
//System.out.println("Aug. key:" + _entry.getKey());
Class _type = (Class) _entry.getKey();
«Augmentation.resolvedName» _value = («Augmentation.name») _entry.getValue();
- _builder.addAugmentation(_type,_value);
+ if(_value != null) {
+ _builder.addAugmentation(_type,_value);
+ }
}
}
'''
String propertyName) '''
java.util.List _dom_«propertyName» = _compositeNode.get(«QName.name».create(_localQName,"«schema.QName.
localName»"));
- ////System.out.println("«propertyName»#deCode"+_dom_«propertyName»);
+ //System.out.println("«propertyName»#deCode"+_dom_«propertyName»);
java.util.List «propertyName» = new java.util.ArrayList();
if(_dom_«propertyName» != null) {
java.util.List _serialized = new java.util.ArrayList();
boolean _hasNext = _iterator.hasNext();
while(_hasNext) {
Object _listItem = _iterator.next();
- ////System.out.println(" item" + _listItem);
+ _is_empty = false;
+ //System.out.println(" item" + _listItem);
Object _value = «type.actualTypeArguments.get(0).serializer.resolvedName».fromDomStatic(_localQName,_listItem);
- ////System.out.println(" value" + _value);
+ //System.out.println(" value" + _value);
«propertyName».add(_value);
_hasNext = _iterator.hasNext();
}
}
- ////System.out.println(" list" + «propertyName»);
+ //System.out.println(" list" + «propertyName»);
'''
private def dispatch CharSequence deserializeProperty(LeafListSchemaNode schema, ParameterizedType type,
java.util.Iterator _iterator = _dom_«propertyName».iterator();
boolean _hasNext = _iterator.hasNext();
while(_hasNext) {
+ _is_empty = false;
Object _listItem = _iterator.next();
if(_listItem instanceof java.util.Map.Entry) {
Object _innerValue = ((java.util.Map.Entry) _listItem).getValue();
_compositeNode.get(«QName.name».create(_localQName,"«schema.QName.localName»"));
«type.resolvedName» «propertyName» = null;
if(_dom_«propertyName»_list != null && _dom_«propertyName»_list.size() > 0) {
+ _is_empty = false;
java.util.Map.Entry _dom_«propertyName» = (java.util.Map.Entry) _dom_«propertyName»_list.get(0);
Object _inner_value = _dom_«propertyName».getValue();
«propertyName» = «deserializeValue(type, "_inner_value")»;
_compositeNode.get(«QName.name».create(_localQName,"«schema.QName.localName»"));
«type.resolvedName» «propertyName» = null;
if(_dom_«propertyName»_list != null && _dom_«propertyName»_list.size() > 0) {
-
+ _is_empty = false;
java.util.Map _dom_«propertyName» = (java.util.Map) _dom_«propertyName»_list.get(0);
«propertyName» = «type.serializer.resolvedName».fromDomStatic(_localQName,_dom_«propertyName»);
}
private def dispatch CharSequence deserializeProperty(ChoiceNode schema, Type type, String propertyName) '''
«type.resolvedName» «propertyName» = «type.serializer.resolvedName».fromDomStatic(_localQName,_compositeNode);
+ if(«propertyName» != null) {
+ _is_empty = false;
+ }
'''
private def dispatch String deserializeValue(GeneratedTransferObject type, String domParameter) '''
- («type.resolvedName») «type.valueSerializer.resolvedName».fromDomValue(«domParameter»);
+ («type.resolvedName») «type.valueSerializer.resolvedName».fromDomValue(«domParameter»)
'''
private def dispatch Class<? extends BindingCodec<Map<QName, Object>, Object>> generateValueTransformer(
val returnType = typeSpec.valueReturnType;
if (returnType == null) {
-
val ctCls = createDummyImplementation(inputType, typeSpec);
val ret = ctCls.toClassImpl(inputType.classLoader, inputType.protectionDomain)
return ret as Class<? extends BindingCodec<Map<QName,Object>, Object>>;
}
+ var hasBinding = false;
+ try {
+ val bindingCodecClass = loadClassWithTCCL(BINDING_CODEC.name);
+ hasBinding = bindingCodecClass !== null;
+ } catch (ClassNotFoundException e) {
+ hasBinding = false;
+ }
+ val hasYangBinding = hasBinding
val ctCls = createClass(typeSpec.codecClassName) [
//staticField(Map,"AUGMENTATION_SERIALIZERS");
- implementsType(BINDING_CODEC)
- staticField(it, INSTANCE_IDENTIFIER_CODEC, BindingCodec)
- implementsType(BindingDeserializer.asCtClass)
+ if (hasYangBinding) {
+ implementsType(BINDING_CODEC)
+ staticField(it, INSTANCE_IDENTIFIER_CODEC, BindingCodec)
+ implementsType(BindingDeserializer.asCtClass)
+ }
method(Object, "toDomValue", Object) [
modifiers = PUBLIC + FINAL + STATIC
body = '''
{
- ////System.out.println("«inputType.simpleName»#toDomValue: "+$1);
+ //System.out.println("«inputType.simpleName»#toDomValue: "+$1);
if($1 == null) {
return null;
}
«typeSpec.resolvedName» _encapsulatedValue = («typeSpec.resolvedName») $1;
- ////System.out.println("«inputType.simpleName»#toDomValue:Enc: "+_encapsulatedValue);
+ //System.out.println("«inputType.simpleName»#toDomValue:Enc: "+_encapsulatedValue);
«returnType.resolvedName» _value = _encapsulatedValue.getValue();
- ////System.out.println("«inputType.simpleName»#toDomValue:DeEnc: "+_value);
+ //System.out.println("«inputType.simpleName»#toDomValue:DeEnc: "+_value);
Object _domValue = «serializeValue(returnType, "_value")»;
return _domValue;
}
modifiers = PUBLIC + FINAL + STATIC
body = '''
{
- ////System.out.println("«inputType.simpleName»#fromDomValue: "+$1);
+ //System.out.println("«inputType.simpleName»#fromDomValue: "+$1);
if($1 == null) {
return null;
return null;
}
- private def dispatch Class<? extends BindingCodec<Map<QName, Object>, Object>> generateValueTransformer(
- Class<?> inputType, Enumeration typeSpec) {
+ private def dispatch Class<?> generateValueTransformer(Class<?> inputType, Enumeration typeSpec) {
try {
- log.info("Generating DOM Codec for {} with {}", inputType, inputType.classLoader)
+
+ //log.info("Generating DOM Codec for {} with {}", inputType, inputType.classLoader)
val ctCls = createClass(typeSpec.codecClassName) [
//staticField(Map,"AUGMENTATION_SERIALIZERS");
- implementsType(BINDING_CODEC)
+ //implementsType(BINDING_CODEC)
method(Object, "toDomValue", Object) [
modifiers = PUBLIC + FINAL + STATIC
body = '''
val ret = ctCls.toClassImpl(inputType.classLoader, inputType.protectionDomain)
log.info("DOM Codec for {} was generated {}", inputType, ret)
- return ret as Class<? extends BindingCodec<Map<QName,Object>, Object>>;
+ return ret;
} catch (CodeGenerationException e) {
throw new CodeGenerationException("Cannot compile Transformator for " + inputType, e);
} catch (Exception e) {
*/
private def getBuilderName(GeneratedType type) '''«type.resolvedName»Builder'''
- private def staticQNameField(CtClass it, Class<?> node) {
- val field = new CtField(ctQName, "QNAME", it);
- field.modifiers = PUBLIC + FINAL + STATIC;
- addField(field, '''«node.name».QNAME''')
- }
-
private def staticQNameField(CtClass it, QName node) {
val field = new CtField(ctQName, "QNAME", it);
field.modifiers = PUBLIC + FINAL + STATIC;
«QName.name» _resultName = «QName.name».create($1,QNAME.getLocalName());
java.util.List _childNodes = new java.util.ArrayList();
«type.resolvedName» value = («type.resolvedName») $2;
- «transformDataContainerBody(type.allProperties, node)»
+ «transformDataContainerBody(type, type.allProperties, node)»
«serializeAugmentations»
return ($r) java.util.Collections.singletonMap(_resultName,_childNodes);
}
«QName.name» _resultName = «QName.name».create($1,QNAME.getLocalName());
java.util.List _childNodes = new java.util.ArrayList();
«type.resolvedName» value = («type.resolvedName») $2;
- «transformDataContainerBody(type.allProperties, node)»
+ «transformDataContainerBody(type, type.allProperties, node)»
«serializeAugmentations»
return ($r) java.util.Collections.singletonMap(_resultName,_childNodes);
}
«QName.name» _resultName = «QName.name».create($1,QNAME.getLocalName());
java.util.List _childNodes = new java.util.ArrayList();
«type.resolvedName» value = («type.resolvedName») $2;
- «transformDataContainerBody(type.allProperties, node)»
+ «transformDataContainerBody(type, type.allProperties, node)»
«serializeAugmentations»
return ($r) java.util.Collections.singletonMap(_resultName,_childNodes);
}
}
'''
- private def transformDataContainerBody(Map<String, Type> properties, DataNodeContainer node) {
+ private def transformDataContainerBody(Type type, Map<String, Type> properties, DataNodeContainer node) {
val ret = '''
- «FOR child : node.childNodes.filter[!augmenting]»
- «var signature = properties.getFor(child)»
- //System.out.println("«signature.key»" + value.«signature.key»());
- «serializeProperty(child, signature.value, signature.key)»
+ «FOR child : node.childNodes»
+ «val signature = properties.getFor(child)»
+ «IF signature !== null»
+ //System.out.println("«type.name»#«signature.key»" + value.«signature.key»());
+ «serializeProperty(child, signature.value, signature.key)»
+ «ENDIF»
«ENDFOR»
'''
return ret;
}
- def serializeAugmentations() '''
+ private def serializeAugmentations() '''
java.util.List _augmentations = (java.util.List) «AUGMENTATION_CODEC».serialize(value);
if(_augmentations != null) {
_childNodes.addAll(_augmentations);
'''
def Entry<String, Type> getFor(Map<String, Type> map, DataSchemaNode node) {
- val sig = map.get(node.getterName);
- if (sig == null) {
-
+ var sig = map.get(node.getterName);
+ if (sig != null) {
+ return new SimpleEntry(node.getterName, sig);
+ }
+ sig = map.get(node.booleanGetterName);
+ if (sig != null) {
return new SimpleEntry(node.booleanGetterName, map.get(node.booleanGetterName));
}
- return new SimpleEntry(node.getterName, sig);
+ return null;
}
private static def String getBooleanGetterName(DataSchemaNode node) {
private def dispatch CharSequence serializeProperty(ListSchemaNode schema, ParameterizedType type,
String propertyName) '''
«type.resolvedName» «propertyName» = value.«propertyName»();
+ //System.out.println("«propertyName»:" + «propertyName»);
if(«propertyName» != null) {
java.util.Iterator _iterator = «propertyName».iterator();
boolean _hasNext = _iterator.hasNext();
return '''«typeSpec.resolvedName»$Broker$Codec$DOM'''
}
- private def codecClassName(Class typeSpec) {
+ private def codecClassName(Class<?> typeSpec) {
return '''«typeSpec.name»$Broker$Codec$DOM'''
}
- private def dispatch HashMap<String, Type> getAllProperties(GeneratedType type) {
+ private def HashMap<String, Type> getAllProperties(GeneratedType type) {
val ret = new HashMap<String, Type>();
type.collectAllProperties(ret);
return ret;
return type.asCtClass.name;
}
- def String getResolvedName(Class type) {
+ def String getResolvedName(Class<?> type) {
return type.asCtClass.name;
}
def CtClass asCtClass(Type type) {
- val name = type.fullyQualifiedName
val cls = loadClassWithTCCL(type.fullyQualifiedName)
return cls.asCtClass;
}