// Serialize the bean using the specified namespace prefix & uri
public String serialize(Object bean) throws IntrospectionException, IllegalAccessException {
// Use the class name as the name of the root element
String className = bean.getClass().getName();
String rootElementName = null;
if (bean.getClass().isAnnotationPresent(ObjectXmlAlias.class)) {
AnnotatedElement annotatedElement = bean.getClass();
ObjectXmlAlias aliasAnnotation = annotatedElement.getAnnotation(ObjectXmlAlias.class);
rootElementName = aliasAnnotation.value();
}
// Use the package name as the namespace URI
Package pkg = bean.getClass().getPackage();
nsURI = pkg.getName();
// Remove a trailing semi-colon (;) if present (i.e. if the bean is an array)
className = StringUtils.deleteTrailingChar(className, ';');
StringBuffer sb = new StringBuffer(className);
String objectName = sb.delete(0, sb.lastIndexOf(".") + 1).toString();
domDocument = createDomDocument(objectName);
document = domDocument.getDocument();
Element root = document.getDocumentElement();
// Parse the bean elements
getBeanElements(root, rootElementName, className, bean);
StringBuffer xml = new StringBuffer();
if (prettyPrint)
xml.append(domDocument.serialize(lineSeperator, indentChars, includeXmlProlog));
else xml.append(domDocument.serialize(includeXmlProlog));
if (!includeTypeInfo) {
int index = xml.indexOf(root.getNodeName());
xml.delete(index - 1, index + root.getNodeName().length() + 2);
xml.delete(xml.length() - root.getNodeName().length() - 4, xml.length());
}
return xml.toString();
}
private ClassLoaderStrategy getClassLoaderStrategy(String fullyQualifiedClassName)
throws Exception {
try {
// Get just the package name
StringBuffer sb = new StringBuffer(fullyQualifiedClassName);
sb.delete(sb.lastIndexOf("."), sb.length());
currentPackage = sb.toString();
// Retrieve the Java classpath from the system properties
String cp = System.getProperty("java.class.path");
String sepChar = System.getProperty("path.separator");
String[] paths = StringUtils.pieceList(cp, sepChar.charAt(0));
ClassLoaderStrategy cl =
ClassLoaderUtil.getClassLoader(ClassLoaderUtil.FILE_SYSTEM_CLASS_LOADER, new String[] {});
// Iterate through paths until class with the specified name is found
String classpath = StringUtils.replaceChar(currentPackage, '.', File.separatorChar);
for (int i = 0; i < paths.length; i++) {
Class[] classes = cl.getClasses(paths[i] + File.separatorChar + classpath, currentPackage);
for (int j = 0; j < classes.length; j++) {
if (classes[j].getName().equals(fullyQualifiedClassName)) {
return ClassLoaderUtil.getClassLoader(
ClassLoaderUtil.FILE_SYSTEM_CLASS_LOADER, new String[] {paths[i]});
}
}
}
throw new Exception("Class could not be found.");
} catch (Exception e) {
System.err.println("Exception creating class loader strategy.");
System.err.println(e.getMessage());
throw e;
}
}
private static String toString(NodeList self) {
StringBuffer sb = new StringBuffer();
sb.append("[");
Iterator it = DefaultGroovyMethods.iterator(self);
while (it.hasNext()) {
if (sb.length() > 1) sb.append(", ");
sb.append(it.next().toString());
}
sb.append("]");
return sb.toString();
}
/**
* Initializes this object.
*
* @param key Property-key to use for locating initialization properties.
* @param type Property-type to use for locating initialization properties.
* @exception ProcessingException when initialization fails
*/
public void initialize(String key, String type) throws ProcessingException {
super.initialize(key, type);
StringBuffer errorBuf = new StringBuffer();
// serverName = getRequiredProperty(SERVER_NAME_PROP, errorBuf);
headerLocation = getPropertyValue(NF_HEADER_LOCATION_PROP);
isAsyncLocation = getPropertyValue(IS_ASYNCHRONOUS_LOCATION_PROP);
orbAgentAddr = getPropertyValue(ORB_AGENT_ADDR_PROP);
orbAgentPort = getPropertyValue(ORB_AGENT_PORT_PROP);
orbAgentAddrLocation = getPropertyValue(ORB_AGENT_ADDR_PROP_LOCATION);
orbAgentPortLocation = getPropertyValue(ORB_AGENT_PORT_PROP_LOCATION);
if (!StringUtils.hasValue(isAsyncLocation)) {
try {
isAsync =
StringUtils.getBoolean(
(String) getRequiredPropertyValue(DEFAULT_IS_ASYNCHRONOUS_PROP, errorBuf));
} catch (FrameworkException fe) {
errorBuf.append(
"No value is specified for either "
+ IS_ASYNCHRONOUS_LOCATION_PROP
+ "or"
+ DEFAULT_IS_ASYNCHRONOUS_PROP
+ ". One of the values should be present"
+ fe.getMessage());
}
}
if (!StringUtils.hasValue(headerLocation)) {
try {
header = getRequiredPropertyValue(DEFAULT_HEADER_PROP, errorBuf);
} catch (Exception e) {
errorBuf.append(
"No value is specified for "
+ NF_HEADER_LOCATION_PROP
+ "or"
+ DEFAULT_HEADER_PROP
+ ". One of the values should be present"
+ e.getMessage());
}
}
if (errorBuf.length() > 0) throw new ProcessingException(errorBuf.toString());
}
private static String FilterID(String id) {
if (id == null) {
return null;
} else {
StringBuffer newID = new StringBuffer();
int st = 0;
for (int i = 0; i < id.length(); i++) {
char ch = Character.toLowerCase(id.charAt(i));
if (Character.isLetterOrDigit(ch)) {
newID.append(ch);
st = 1;
} else if (st == 1) {
newID.append("_");
st = 0;
} else {
// ignore char
}
}
while ((newID.length() > 0) && (newID.charAt(newID.length() - 1) == '_')) {
newID.setLength(newID.length() - 1);
}
return newID.toString();
}
}
/**
* ** Returns a ReverseGeocode instance containing address information ** @param gp The GeoPoint
* ** @return The ReverseGeocode instance
*/
private ReverseGeocode getAddressReverseGeocode(GeoPoint gp, String localeStr) {
/* URL */
String url = this.getAddressReverseGeocodeURL(gp);
Print.logInfo("Address URL: " + url);
/* create XML document */
Document xmlDoc = GetXMLDocument(url);
if (xmlDoc == null) {
return null;
}
/* create ReverseGeocode response */
Element reversegeocode = xmlDoc.getDocumentElement();
if (!reversegeocode.getTagName().equalsIgnoreCase(TAG_reversegeocode)) {
return null;
}
/* init */
String address_val = null; // null address
String house_val = null; // house number
String road_val = null; // street name
String city_val = null; // city name
String county_val = null; // county name
String state_val = null; // state/province
String postcode_val = null; // postal code
String country_name_val = null; // country name
String country_code_val = null; // country code
// full address
NodeList resultList = XMLTools.getChildElements(reversegeocode, TAG_result);
for (int r = 0; r < resultList.getLength(); r++) {
Element result = (Element) resultList.item(r);
// String osmType = XMLTools.getAttribute(result, ATTR_osm_type, null, false);
address_val = XMLTools.getNodeText(result, " ", false);
break; // only the first element
}
// address components
NodeList addresspartsList = XMLTools.getChildElements(reversegeocode, TAG_addressparts);
for (int a = 0; (a < addresspartsList.getLength()); a++) {
Element addressparts = (Element) addresspartsList.item(a);
NodeList addresspartsChildren = addressparts.getChildNodes();
for (int ac = 0; ac < addresspartsChildren.getLength(); ac++) {
Node child = addresspartsChildren.item(ac);
if (!(child instanceof Element)) {
continue;
}
Element elem = (Element) child;
String elemName = elem.getNodeName();
if (elemName.equalsIgnoreCase(TAG_house)) {
house_val = XMLTools.getNodeText(elem, " ", false);
} else if (elemName.equalsIgnoreCase(TAG_tram)) {
// ignore
} else if (elemName.equalsIgnoreCase(TAG_road)) {
road_val = XMLTools.getNodeText(elem, " ", false);
} else if (elemName.equalsIgnoreCase(TAG_residential)) {
// ignore
} else if (elemName.equalsIgnoreCase(TAG_village)) {
// ignore
} else if (elemName.equalsIgnoreCase(TAG_town)) {
if (StringTools.isBlank(city_val)) {
city_val = XMLTools.getNodeText(elem, " ", false);
}
} else if (elemName.equalsIgnoreCase(TAG_city)) {
city_val = XMLTools.getNodeText(elem, " ", false);
} else if (elemName.equalsIgnoreCase(TAG_county)) {
county_val = XMLTools.getNodeText(elem, " ", false);
} else if (elemName.equalsIgnoreCase(TAG_postcode)) {
postcode_val = XMLTools.getNodeText(elem, " ", false);
} else if (elemName.equalsIgnoreCase(TAG_state)) {
state_val = XMLTools.getNodeText(elem, " ", false);
} else if (elemName.equalsIgnoreCase(TAG_country)) {
country_name_val = XMLTools.getNodeText(elem, " ", false);
} else if (elemName.equalsIgnoreCase(TAG_country_code)) {
country_code_val = StringTools.trim(XMLTools.getNodeText(elem, " ", false)).toUpperCase();
} else {
// elemName unrecognized
}
}
break; // only the first element
}
/* populate ReverseGeocode instance */
ReverseGeocode rg = new ReverseGeocode();
StringBuffer addr = new StringBuffer();
// house number /road
if (!StringTools.isBlank(house_val)) {
addr.append(house_val);
if (!StringTools.isBlank(road_val)) {
addr.append(" ");
addr.append(road_val);
rg.setStreetAddress(house_val + " " + road_val);
} else {
rg.setStreetAddress(house_val);
}
} else if (!StringTools.isBlank(road_val)) {
addr.append(road_val);
rg.setStreetAddress(road_val);
}
// city/county
if (!StringTools.isBlank(city_val)) {
if (addr.length() > 0) {
addr.append(", ");
}
addr.append(city_val);
rg.setCity(city_val);
}
if (!StringTools.isBlank(county_val)) {
if (StringTools.isBlank(city_val)) {
// "city" not provided, at least include the "county"
if (addr.length() > 0) {
addr.append(", ");
}
addr.append("[").append(county_val).append("]");
}
// rg.setCounty(county_val);
}
// state/province
if (!StringTools.isBlank(state_val)) {
if (addr.length() > 0) {
addr.append(", ");
}
addr.append(state_val);
rg.setStateProvince(state_val);
if (!StringTools.isBlank(postcode_val)) {
addr.append(" ").append(postcode_val);
rg.setPostalCode(postcode_val);
}
} else {
if (!StringTools.isBlank(postcode_val)) {
if (addr.length() > 0) {
addr.append(", ");
}
addr.append(postcode_val);
rg.setPostalCode(postcode_val);
}
}
// country
if (!StringTools.isBlank(country_code_val)) {
if (country_code_val.equalsIgnoreCase("US")) {
// if (addr.length() > 0) { addr.append(", "); }
// addr.append("USA");
} else if (!StringTools.isBlank(country_name_val)) {
if (addr.length() > 0) {
addr.append(", ");
}
addr.append(country_name_val);
} else {
if (addr.length() > 0) {
addr.append(", ");
}
addr.append(country_code_val);
}
rg.setCountryCode(country_code_val);
}
// full address
rg.setFullAddress(addr.toString());
return rg;
}
