private Object deserialize(Node node, boolean setProperty, boolean popBean) throws Exception { Object object = null; currentType = null; currentNode = node; currentName = node.getNodeName(); boolean isNull = false; NamedNodeMap attrs = node.getAttributes(); String arrayType = null; for (int i = 0; i < attrs.getLength(); i++) { String nodeName = attrs.item(i).getNodeName(); String nodeValue = attrs.item(i).getNodeValue(); if (nodeName.equals(NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":" + Constants.ATTR_TYPE)) currentType = new StringBuffer(nodeValue).delete(0, nodeValue.indexOf(':') + 1).toString(); else if (nodeName.equals( NamespaceConstants.NSPREFIX_SOAP_ENCODING + ":" + Constants.ATTR_ARRAY_TYPE)) arrayType = new StringBuffer(nodeValue).delete(0, nodeValue.indexOf(':') + 1).toString(); else if (nodeName.equals(NamespaceConstants.NSPREFIX_SCHEMA_XSI + ":null")) isNull = nodeValue.equals("true"); } Class cls = null; if (currentType != null) cls = getXsdTypeClass(currentType); // Handle array, Vector, ArrayList, LinkedList, Hashtable, // Properties, and HashMap data types if ((cls != null) && ((cls == java.lang.reflect.Array.class) || (cls == Vector.class) || (cls == ArrayList.class) || (cls == LinkedList.class) || (cls == Hashtable.class) || (cls == Properties.class) || (cls == HashMap.class) || (cls == SortedMap.class))) { parentNode = currentNode; String name = node.getNodeName(); // Handle arrays if (cls == java.lang.reflect.Array.class) { int a = arrayType.indexOf("["); int b = arrayType.indexOf("]"); String s = arrayType.substring(a + 1, b); int arrayLen = Integer.valueOf(s).intValue(); arrayType = arrayType.substring(0, a); // check if the array element is a standard Java class Class arrayClass = getXsdTypeClass(arrayType); // otherwise try to get the class of the bean if (arrayClass == null) arrayClass = getClassOfBean((ClassLoader) classLoaderStrategy, arrayType); object = java.lang.reflect.Array.newInstance(arrayClass, arrayLen); } else { // Construct the list or map type Constructor ct = cls.getConstructor((Class[]) null); object = ct.newInstance((Object[]) null); } // deserialize the elements of the array, list, or map NodeList childNodes = node.getChildNodes(); int arrayIndex = -1; Node childNode = null; Object nodeObj = null; for (int i = 0; i < childNodes.getLength(); i++) { childNode = childNodes.item(i); if (childNode.getNodeType() == Node.ELEMENT_NODE) { if ((cls == java.lang.reflect.Array.class) || (cls == Vector.class) || (cls == ArrayList.class) || (cls == LinkedList.class)) { nodeObj = deserialize(childNode, false, true); if (nodeObj != null) { if (cls == java.lang.reflect.Array.class) java.lang.reflect.Array.set(object, ++arrayIndex, nodeObj); else ((List) object).add(nodeObj); } } else if ((cls == Hashtable.class) || (cls == Properties.class) || (cls == HashMap.class) || (cls == SortedMap.class)) { if (childNode.getLocalName().equals("item")) { NodeList htNodes = childNode.getChildNodes(); if (htNodes.getLength() == 2) { Object hashKey = deserialize(htNodes.item(0), false, false); Object hashValue = deserialize(htNodes.item(1), false, true); ((Map) object).put(hashKey, hashValue); } } } } } setBeanProperty(name, object); // Handle everything else (primitives & POJOs) } else { // recurse on each of the child nodes NodeList childNodes = node.getChildNodes(); if ((childNodes != null) && (childNodes.getLength() > 0)) { for (int i = 0; i < childNodes.getLength(); i++) { Node childNode = childNodes.item(i); if (childNode.getNodeType() == Node.ELEMENT_NODE) { if (currentType != null) createObject( node, currentName, currentPackage, currentType, childNode.getNodeValue(), setProperty); parentNode = node; object = deserialize(childNode, true, true); } else if ((childNode.getNodeType() == Node.TEXT_NODE) && (currentType != null)) { object = createObject( node, currentName, currentPackage, currentType, childNode.getNodeValue(), setProperty); } currentType = null; } } else { if (!isNull) object = createObject(node, currentName, currentPackage, currentType, null, setProperty); } if (node.getParentNode() != parentNode) { parentNode = node.getParentNode(); if (popBean) { Object bean = popBeanOffStack(); if (bean != null) object = bean; } } } return object; }
/** * Reads XML element(s) into an indexed bean property by first locating the XML element(s) * corresponding to this property. * * @param ob The bean whose property is being set * @param desc The property that will be set * @param nodes The list of XML items that may contain the property * @throws IOException If there is an error reading the document */ public void readIndexedProperty( Object ob, IndexedPropertyDescriptor desc, NodeList nodes, NamedNodeMap attrs) throws IOException { // Create a vector to hold the property values Vector v = new Vector(); int numAttrs = attrs.getLength(); for (int i = 0; i < numAttrs; i++) { // See if this attribute matches the property name if (namesMatch(desc.getName(), attrs.item(i).getNodeName())) { // Get the property value Object obValue = getObjectValue(desc, attrs.item(i).getNodeValue()); if (obValue != null) { // Add the value to the list of values to be set v.addElement(obValue); } } } int numNodes = nodes.getLength(); for (int i = 0; i < numNodes; i++) { Node node = nodes.item(i); // Skip non-element nodes if (!(node instanceof Element)) continue; Element element = (Element) node; // See if this element tag matches the property name if (namesMatch(desc.getName(), element.getTagName())) { // Get the property value Object obValue = getObjectValue(desc, element); if (obValue != null) { // Add the value to the list of values to be set v.addElement(obValue); } } } // Get the method used to set the property value Method setter = desc.getWriteMethod(); // If this property has no setter, don't write it if (setter == null) return; // Create a new array of property values Object propArray = Array.newInstance(desc.getPropertyType().getComponentType(), v.size()); // Copy the vector into the array v.copyInto((Object[]) propArray); try { // Store the array of property values setter.invoke(ob, new Object[] {propArray}); } catch (InvocationTargetException exc) { throw new IOException("Error setting property " + desc.getName() + ": " + exc.toString()); } catch (IllegalAccessException exc) { throw new IOException("Error setting property " + desc.getName() + ": " + exc.toString()); } }
private Object createObject( Node node, String name, String classPackage, String type, String value, boolean setProperty) { Bean parentBean = null; if (beansStack.size() > 0) parentBean = (Bean) beansStack.peek(); Object object = null; // param is either an XSD type or a bean, // check if it can be converted to an XSD type XSDatatype dt = null; try { dt = DatatypeFactory.getTypeByName(type); } catch (DatatypeException dte) { // the type is not a valid XSD data type } // convert null value to default if ((dt != null) && (value == null)) { Class objType = dt.getJavaObjectType(); if (objType == String.class) value = ""; else if ((objType == java.math.BigInteger.class) || (objType == Long.class) || (objType == Integer.class) || (objType == Short.class) || (objType == Byte.class)) value = "0"; else if ((objType == java.math.BigDecimal.class) || (objType == Double.class) || (objType == Float.class)) value = "0.0"; else if (objType == Boolean.class) value = "false"; else if (objType == java.util.Date.class) value = DateUtils.getCurrentDate(); else if (objType == java.util.Calendar.class) value = DateUtils.getCurrentDateTime(); } // check whether the type was converted to an XSD datatype if ((dt != null) && dt.isValid(value, null)) { // create and return an XSD Java object (e.g. String, Integer, Boolean, etc) object = dt.createJavaObject(value, null); if (object instanceof java.util.Calendar) { // check that the object is truly a Calendar // because DatatypeFactory converts xsd:date // types to GregorianCalendar instead of Date. if (type.equals("date")) { java.text.DateFormat df = new java.text.SimpleDateFormat("yyyy-MM-dd"); try { object = df.parse(value); } catch (java.text.ParseException pe) { object = new java.util.Date(); } } } } else { // Create a bean object if (topLevelBean == null) topLevelBean = parentBean; object = pushBeanOnStack(classPackage, type); // Check fields to see if this property is the 'value' for the object Field[] fields = object.getClass().getDeclaredFields(); for (int i = 0; i < fields.length; i++) { if (fields[i].isAnnotationPresent(ObjectXmlAsValue.class)) { try { StringBuffer fieldName = new StringBuffer(fields[i].getName()); char c = fieldName.charAt(0); if (c >= 'a' && c <= 'z') { c += 'A' - 'a'; } fieldName.setCharAt(0, c); fieldName.insert(0, "set"); Method method = object .getClass() .getMethod(fieldName.toString(), new Class[] {fields[i].getType()}); method.invoke(object, value); break; } catch (Exception e) { System.err.println(e.getMessage()); } } } NamedNodeMap nodeAttrs = node.getAttributes(); // iterate attributes and set field values for property attributes for (int i = 0; i < nodeAttrs.getLength(); i++) { String nodePrefix = nodeAttrs.item(i).getPrefix(); if (nodePrefix.equals(nsPrefix)) { String nodeName = nodeAttrs.item(i).getLocalName(); String nodeValue = nodeAttrs.item(i).getNodeValue(); try { Field field = object.getClass().getDeclaredField(nodeName); if (field.isAnnotationPresent(ObjectXmlAsAttribute.class)) { StringBuffer fieldName = new StringBuffer(field.getName()); char c = fieldName.charAt(0); if (c >= 'a' && c <= 'z') { c += 'A' - 'a'; } fieldName.setCharAt(0, c); fieldName.insert(0, "set"); Method method = object.getClass().getMethod(fieldName.toString(), new Class[] {field.getType()}); if (field.getType() == String.class) method.invoke(object, nodeValue); else if (field.getType() == Boolean.TYPE) method.invoke(object, StringUtils.strToBool(nodeValue, "true")); else if (field.getType() == Byte.TYPE) method.invoke(object, Byte.valueOf(nodeValue).byteValue()); else if (field.getType() == Character.TYPE) method.invoke(object, Character.valueOf(nodeValue.charAt(0))); else if (field.getType() == Double.TYPE) method.invoke(object, Double.valueOf(nodeValue).doubleValue()); else if (field.getType() == Float.TYPE) method.invoke(object, Float.valueOf(nodeValue).floatValue()); else if (field.getType() == Integer.TYPE) method.invoke(object, Integer.valueOf(nodeValue).intValue()); else if (field.getType() == Long.TYPE) method.invoke(object, Long.valueOf(nodeValue).longValue()); else if (field.getType() == Short.TYPE) method.invoke(object, Short.valueOf(nodeValue).shortValue()); } } catch (Exception e) { System.err.println(e.getMessage()); } } } } if ((parentBean != null) && (setProperty)) { parentBean.setProperty(name, object); } return object; }
/** * Reads an XML element into a bean property by first locating the XML element corresponding to * this property. * * @param ob The bean whose property is being set * @param desc The property that will be set * @param nodes The list of XML items that may contain the property * @throws IOException If there is an error reading the document */ public void readProperty(Object ob, PropertyDescriptor desc, NodeList nodes, NamedNodeMap attrs) throws IOException { int numAttrs = attrs.getLength(); for (int i = 0; i < numAttrs; i++) { // See if the attribute name matches the property name if (namesMatch(desc.getName(), attrs.item(i).getNodeName())) { // Get the method used to set this property Method setter = desc.getWriteMethod(); // If this object has no setter, don't bother writing it if (setter == null) continue; // Get the value of the property Object obValue = getObjectValue(desc, attrs.item(i).getNodeValue()); if (obValue != null) { try { // Set the property value setter.invoke(ob, new Object[] {obValue}); } catch (InvocationTargetException exc) { throw new IOException( "Error setting property " + desc.getName() + ": " + exc.toString()); } catch (IllegalAccessException exc) { throw new IOException( "Error setting property " + desc.getName() + ": " + exc.toString()); } } return; } } int numNodes = nodes.getLength(); Vector arrayBuild = null; for (int i = 0; i < numNodes; i++) { Node node = nodes.item(i); // If this node isn't an element, skip it if (!(node instanceof Element)) continue; Element element = (Element) node; // See if the tag name matches the property name if (namesMatch(desc.getName(), element.getTagName())) { // Get the method used to set this property Method setter = desc.getWriteMethod(); // If this object has no setter, don't bother writing it if (setter == null) continue; // Get the value of the property Object obValue = getObjectValue(desc, element); // 070201 MAW: Modified from change submitted by Steve Poulson if (setter.getParameterTypes()[0].isArray()) { if (arrayBuild == null) { arrayBuild = new Vector(); } arrayBuild.addElement(obValue); // 070201 MAW: Go ahead and read through the rest of the nodes in case // another one matches the array. This has the effect of skipping // over the "return" statement down below continue; } if (obValue != null) { try { // Set the property value setter.invoke(ob, new Object[] {obValue}); } catch (InvocationTargetException exc) { throw new IOException( "Error setting property " + desc.getName() + ": " + exc.toString()); } catch (IllegalAccessException exc) { throw new IOException( "Error setting property " + desc.getName() + ": " + exc.toString()); } } return; } } // If we build a vector of array members, convert the vector into // an array and save it in the property if (arrayBuild != null) { // Get the method used to set this property Method setter = desc.getWriteMethod(); if (setter == null) return; Object[] obValues = (Object[]) Array.newInstance(desc.getPropertyType(), arrayBuild.size()); arrayBuild.copyInto(obValues); try { setter.invoke(ob, new Object[] {obValues}); } catch (InvocationTargetException exc) { throw new IOException("Error setting property " + desc.getName() + ": " + exc.toString()); } catch (IllegalAccessException exc) { throw new IOException("Error setting property " + desc.getName() + ": " + exc.toString()); } return; } }