Esempio n. 1
0
  /**
   * Reads the children of an XML element and matches them to properties of a bean.
   *
   * @param ob The bean to receive the values
   * @param element The element the corresponds to the bean
   * @throws IOException If there is an error reading the document
   */
  public void readObject(Object ob, Element element) throws IOException {
    // If the object is null, skip the element
    if (ob == null) {
      return;
    }

    try {
      BeanInfo info = (BeanInfo) beanCache.get(ob.getClass());

      if (info == null) {
        // Get the bean info for the object
        info = Introspector.getBeanInfo(ob.getClass(), Object.class);

        beanCache.put(ob.getClass(), info);
      }

      // Get the object's properties
      PropertyDescriptor[] props = info.getPropertyDescriptors();

      // Get the attributes of the node
      NamedNodeMap attrs = element.getAttributes();

      // Get the children of the XML element
      NodeList nodes = element.getChildNodes();

      int numNodes = nodes.getLength();

      for (int i = 0; i < props.length; i++) {
        // Treat indexed properties a little differently
        if (props[i] instanceof IndexedPropertyDescriptor) {
          readIndexedProperty(ob, (IndexedPropertyDescriptor) props[i], nodes, attrs);
        } else {
          readProperty(ob, props[i], nodes, attrs);
        }
      }
    } catch (IntrospectionException exc) {
      throw new IOException(
          "Error getting bean info for " + ob.getClass().getName() + ": " + exc.toString());
    }
  }
Esempio n. 2
0
  public Reference createReference(Object bean) throws NamingException {
    try {
      BeanInfo bi = Introspector.getBeanInfo(bean.getClass());
      PropertyDescriptor[] pds = bi.getPropertyDescriptors();
      List refAddrs = new ArrayList();
      String factoryClassLocation = defaultFactoryClassLocation;

      boolean using_ref_props = referenceProperties.size() > 0;

      // we only include this so that on dereference we are not surprised to find some properties
      // missing
      if (using_ref_props)
        refAddrs.add(
            new BinaryRefAddr(REF_PROPS_KEY, SerializableUtils.toByteArray(referenceProperties)));

      for (int i = 0, len = pds.length; i < len; ++i) {
        PropertyDescriptor pd = pds[i];
        String propertyName = pd.getName();
        // System.err.println("Making Reference: " + propertyName);

        if (using_ref_props && !referenceProperties.contains(propertyName)) {
          // System.err.println("Not a ref_prop -- continuing.");
          continue;
        }

        Class propertyType = pd.getPropertyType();
        Method getter = pd.getReadMethod();
        Method setter = pd.getWriteMethod();
        if (getter != null
            && setter != null) // only use properties that are both readable and writable
        {
          Object val = getter.invoke(bean, EMPTY_ARGS);
          // System.err.println( "val: " + val );
          if (propertyName.equals("factoryClassLocation")) {
            if (String.class != propertyType)
              throw new NamingException(
                  this.getClass().getName()
                      + " requires a factoryClassLocation property to be a string, "
                      + propertyType.getName()
                      + " is not valid.");
            factoryClassLocation = (String) val;
          }

          if (val == null) {
            RefAddr addMe = new BinaryRefAddr(propertyName, NULL_TOKEN_BYTES);
            refAddrs.add(addMe);
          } else if (Coerce.canCoerce(propertyType)) {
            RefAddr addMe = new StringRefAddr(propertyName, String.valueOf(val));
            refAddrs.add(addMe);
          } else // other Object properties
          {
            RefAddr addMe = null;
            PropertyEditor pe = BeansUtils.findPropertyEditor(pd);
            if (pe != null) {
              pe.setValue(val);
              String textValue = pe.getAsText();
              if (textValue != null) addMe = new StringRefAddr(propertyName, textValue);
            }
            if (addMe == null) // property editor approach failed
            addMe =
                  new BinaryRefAddr(
                      propertyName,
                      SerializableUtils.toByteArray(
                          val, indirector, IndirectPolicy.INDIRECT_ON_EXCEPTION));
            refAddrs.add(addMe);
          }
        } else {
          // 				System.err.println(this.getClass().getName() +
          // 						   ": Skipping " + propertyName + " because it is " + (setter == null ?
          // "read-only." : "write-only."));

          if (logger.isLoggable(MLevel.WARNING))
            logger.warning(
                this.getClass().getName()
                    + ": Skipping "
                    + propertyName
                    + " because it is "
                    + (setter == null ? "read-only." : "write-only."));
        }
      }
      Reference out =
          new Reference(bean.getClass().getName(), factoryClassName, factoryClassLocation);
      for (Iterator ii = refAddrs.iterator(); ii.hasNext(); ) out.add((RefAddr) ii.next());
      return out;
    } catch (Exception e) {
      // e.printStackTrace();
      if (Debug.DEBUG && logger.isLoggable(MLevel.FINE))
        logger.log(MLevel.FINE, "Exception trying to create Reference.", e);

      throw new NamingException("Could not create reference from bean: " + e.toString());
    }
  }
Esempio n. 3
0
 /**
  * Check if a bean can be viewed as a given target type. The result will be true if the
  * Beans.getInstanceof method can be used on the given bean to obtain an object that represents
  * the specified targetType type view.
  *
  * @param bean Bean from which we want to obtain a view.
  * @param targetType The type of view we'd like to get.
  * @return "true" if the given bean supports the given targetType.
  */
 public static boolean isInstanceOf(Object bean, Class<?> targetType) {
   return Introspector.isSubclass(bean.getClass(), targetType);
 }