/**
  * Build the summaries for the methods that belong to the given class.
  *
  * @param node the XML element that specifies which components to document
  * @param classContentTree content tree to which the documentation will be added
  */
 public void buildSerializableMethods(XMLNode node, Content classContentTree) {
   Content serializableMethodTree = methodWriter.getSerializableMethodsHeader();
   MemberDoc[] members = currentClass.serializationMethods();
   int membersLength = members.length;
   if (membersLength > 0) {
     for (int i = 0; i < membersLength; i++) {
       currentMember = members[i];
       Content methodsContentTree = methodWriter.getMethodsContentHeader((i == membersLength - 1));
       buildChildren(node, methodsContentTree);
       serializableMethodTree.addContent(methodsContentTree);
     }
   }
   if (currentClass.serializationMethods().length > 0) {
     classContentTree.addContent(
         methodWriter.getSerializableMethods(
             configuration.getText("doclet.Serialized_Form_methods"), serializableMethodTree));
     if (currentClass.isSerializable() && !currentClass.isExternalizable()) {
       if (currentClass.serializationMethods().length == 0) {
         Content noCustomizationMsg =
             methodWriter.getNoCustomizationMsg(
                 configuration.getText("doclet.Serializable_no_customization"));
         classContentTree.addContent(
             methodWriter.getSerializableMethods(
                 configuration.getText("doclet.Serialized_Form_methods"), noCustomizationMsg));
       }
     }
   }
 }
 /**
  * Build the class serialized form.
  *
  * @param node the XML element that specifies which components to document
  * @param packageSerializedTree content tree to which the documentation will be added
  */
 public void buildClassSerializedForm(XMLNode node, Content packageSerializedTree) {
   Content classSerializedTree = writer.getClassSerializedHeader();
   ClassDoc[] classes = currentPackage.allClasses(false);
   Arrays.sort(classes);
   for (int j = 0; j < classes.length; j++) {
     currentClass = classes[j];
     fieldWriter = writer.getSerialFieldWriter(currentClass);
     methodWriter = writer.getSerialMethodWriter(currentClass);
     if (currentClass.isClass() && currentClass.isSerializable()) {
       if (!serialClassInclude(currentClass)) {
         continue;
       }
       Content classTree = writer.getClassHeader(currentClass);
       buildChildren(node, classTree);
       classSerializedTree.addContent(classTree);
     }
   }
   packageSerializedTree.addContent(classSerializedTree);
 }
 /**
  * Return true if the given ClassDoc should be included in the serialized form.
  *
  * @param cd the ClassDoc object to check for serializability.
  */
 private static boolean serialClassInclude(ClassDoc cd) {
   if (cd.isEnum()) {
     return false;
   }
   try {
     cd.superclassType();
   } catch (NullPointerException e) {
     // Workaround for null pointer bug in ClassDoc.superclassType().
     return false;
   }
   if (cd.isSerializable()) {
     if (cd.tags("serial").length > 0) {
       return serialDocInclude(cd);
     } else if (cd.isPublic() || cd.isProtected()) {
       return true;
     } else {
       return false;
     }
   }
   return false;
 }
Exemplo n.º 4
0
  /**
   * Parses the data for a class type definition
   *
   * @param docClass
   * @return
   */
  protected static Class ParseClass(ClassDoc docClass) {
    assert (docClass != null);

    Class xmlClass = new Class();

    // illegal use of this class.
    assert (xmlClass != null);

    xmlClass.name = docClass.name();
    xmlClass.qualifiedName = docClass.qualifiedName();
    xmlClass.isSerializable = docClass.isSerializable();
    xmlClass.isExternalizable = docClass.isExternalizable();
    xmlClass.isAbstract = docClass.isAbstract();
    xmlClass.isException = docClass.isException();
    xmlClass.isError = docClass.isError();
    xmlClass.comment = docClass.commentText();
    xmlClass.scope = DetermineScope(docClass);
    xmlClass.isIncluded = docClass.isIncluded();
    xmlClass.typeVariables =
        ParseTypeVariables(docClass.typeParameters(), docClass.typeParamTags());
    Type superClassType = docClass.superclassType();
    if (superClassType != null) {
      xmlClass.superClass = ParseType(superClassType);
    }

    Type[] interfaces = docClass.interfaceTypes();

    ArrayList<TypeInfo> interfaceTypeNames = new ArrayList<TypeInfo>();
    if (interfaces != null && interfaces.length > 0) {
      for (Type interfaceType : interfaces) {
        interfaceTypeNames.add(ParseType(interfaceType));
      }

      xmlClass.interfaces = interfaceTypeNames.toArray(new TypeInfo[] {});
    }

    ConstructorDoc[] constructors = docClass.constructors();

    if (constructors != null && constructors.length > 0) {
      ArrayList<Constructor> constructorList = new ArrayList<Constructor>();

      for (ConstructorDoc constructor : constructors) {
        constructorList.add(ParseConstructor(constructor));
      }

      xmlClass.constructors = constructorList.toArray(new Constructor[] {});
    } else {
      log.debug("No constructors in class: " + docClass.name());
    }

    MethodDoc[] methods = docClass.methods();

    if (methods != null && methods.length > 0) {
      ArrayList<Method> methodList = new ArrayList<Method>();

      for (MethodDoc method : methods) {
        methodList.add(ParseMethod(method));
      }

      xmlClass.methods = methodList.toArray(new Method[] {});
    } else {
      log.debug("No methods in class: " + docClass.name());
    }

    FieldDoc[] fields = docClass.fields();

    if (fields != null && fields.length > 0) {
      ArrayList<Field> fieldList = new ArrayList<Field>();

      for (FieldDoc field : fields) {
        fieldList.add(ParseField(field));
      }

      xmlClass.fields = fieldList.toArray(new Field[] {});
    }

    xmlClass.annotationInstances =
        ParseAnnotationInstances(docClass.annotations(), docClass.qualifiedName());
    return xmlClass;
  }