@Override public void doTransform( final MutableClassDeclaration annotatedClass, @Extension final TransformationContext context) { Iterable<? extends AnnotationReference> _annotations = annotatedClass.getAnnotations(); final Function1<AnnotationReference, Boolean> _function = new Function1<AnnotationReference, Boolean>() { @Override public Boolean apply(final AnnotationReference it) { AnnotationTypeDeclaration _annotationTypeDeclaration = it.getAnnotationTypeDeclaration(); String _simpleName = _annotationTypeDeclaration.getSimpleName(); String _simpleName_1 = Delegate.class.getSimpleName(); return Boolean.valueOf(Objects.equal(_simpleName, _simpleName_1)); } }; Iterable<? extends AnnotationReference> _filter = IterableExtensions.filter(_annotations, _function); final AnnotationReference annotation = IterableExtensions.head(_filter); final String field = annotation.getStringValue("field"); TypeReference _classValue = annotation.getClassValue("to"); Type _type = _classValue.getType(); final TypeDeclaration to = ((TypeDeclaration) _type); this.process(to, field, annotatedClass, context); }
public void getSuperClass( final List<MutableClassDeclaration> s, final MutableClassDeclaration c, @Extension final TransformationContext context) { TypeReference _extendedClass = c.getExtendedClass(); boolean _notEquals = (!Objects.equal(_extendedClass, null)); if (_notEquals) { TypeReference _extendedClass_1 = c.getExtendedClass(); String _name = _extendedClass_1.getName(); final MutableClassDeclaration l = context.findClass(_name); boolean _notEquals_1 = (!Objects.equal(l, null)); if (_notEquals_1) { s.add(l); this.getSuperClass(s, l, context); } } }