/**
* Process the root WADL file and generate code.
*
* @param rootDesc the URI of the WADL file to process
* @throws javax.xml.bind.JAXBException if the WADL file is invalid, a referenced WADL file is
* invalid, or if the code generator encounters a problem.
* @throws java.io.IOException if the specified WADL file cannot be read.
* @throws com.sun.codemodel.JClassAlreadyExistsException if, during code generation, the WADL
* processor attempts to create a duplicate class. This indicates a structural problem with
* the WADL file, e.g. duplicate peer resource entries.
*/
public void process(URI rootDesc)
throws JAXBException, IOException, JClassAlreadyExistsException {
// read in root WADL file
JAXBContext jbc =
JAXBContext.newInstance("org.jvnet.ws.wadl", this.getClass().getClassLoader());
u = jbc.createUnmarshaller();
s2j = new SchemaCompilerImpl();
errorListener = new SchemaCompilerErrorListener();
if (!autoPackage) s2j.setDefaultPackageName(pkg);
s2j.setErrorListener(errorListener);
idMap = new HashMap<String, Object>();
ifaceMap = new HashMap<String, ResourceTypeNode>();
Application a = processDescription(rootDesc);
ResourceNode r = buildAst(a, rootDesc);
// generate code
s2jModel = s2j.bind();
if (s2jModel != null) {
codeModel = s2jModel.generateCode(null, errorListener);
Iterator<JPackage> packages = codeModel.packages();
StringBuilder buf = new StringBuilder();
while (packages.hasNext()) {
JPackage genPkg = packages.next();
if (!genPkg.isDefined("ObjectFactory")) continue;
if (buf.length() > 0) buf.append(':');
buf.append(genPkg.name());
}
generatedPackages = buf.toString();
jPkg = codeModel._package(pkg);
generateResourceTypeInterfaces();
generateEndpointClass(r);
codeModel.build(outputDir);
}
}
/*
* Methods added newly
*/
private static void sortGeneratedObjectFactoryClasses(S2JJAXBModel jaxbModel) {
List<JClass> jClasses = jaxbModel.getAllObjectFactories();
for (JClass jclazz : jClasses) {
if (jclazz instanceof JDefinedClass) {
ObjectFactoryClassContentsSorter.getInstance().sort((JDefinedClass) jclazz);
}
}
}
/**
* @param additionalSchemas
* @throws RuntimeException
*/
public static TypeMapper processSchemas(
final List schemas, Element[] additionalSchemas, CodeGenConfiguration cgconfig)
throws RuntimeException {
try {
// check for the imported types. Any imported types are supposed to be here also
if (schemas == null || schemas.isEmpty()) {
// there are no types to be code generated
// However if the type mapper is left empty it will be a problem for the other
// processes. Hence the default type mapper is set to the configuration
return new DefaultTypeMapper();
}
final Map schemaToInputSourceMap = new HashMap();
final Map<String, StringBuffer> publicIDToStringMap = new HashMap<String, StringBuffer>();
// create the type mapper
JavaTypeMapper mapper = new JavaTypeMapper();
String baseURI = cgconfig.getBaseURI();
if (!baseURI.endsWith("/")) {
baseURI = baseURI + "/";
}
for (int i = 0; i < schemas.size(); i++) {
XmlSchema schema = (XmlSchema) schemas.get(i);
InputSource inputSource = new InputSource(new StringReader(getSchemaAsString(schema)));
// here we have to set a proper system ID. otherwise when processing the
// included schaemas for this schema we have a problem
// it creates the system ID using this target namespace value
inputSource.setSystemId(baseURI + "xsd" + i + ".xsd");
inputSource.setPublicId(schema.getTargetNamespace());
schemaToInputSourceMap.put(schema, inputSource);
}
File outputDir = new File(cgconfig.getOutputLocation(), "src");
// outputDir.mkdir();
createDir(outputDir);
Map nsMap = cgconfig.getUri2PackageNameMap();
EntityResolver resolver =
new EntityResolver() {
public InputSource resolveEntity(String publicId, String systemId)
throws SAXException, IOException {
InputSource returnInputSource = null;
XmlSchema key = null;
for (Iterator iter = schemaToInputSourceMap.keySet().iterator(); iter.hasNext(); ) {
key = (XmlSchema) iter.next();
String nsp = key.getTargetNamespace();
if (nsp != null && nsp.equals(publicId)) {
// when returning the input stream we have to always return a new
// input stream.
// sinc jaxbri internally consumes the input stream it gives an
// exception.
returnInputSource = new InputSource(new StringReader(getSchemaAsString(key)));
InputSource existingInputSource = (InputSource) schemaToInputSourceMap.get(key);
returnInputSource.setSystemId(existingInputSource.getSystemId());
returnInputSource.setPublicId(existingInputSource.getPublicId());
break;
}
}
if (returnInputSource == null) {
// then we have to find this using the file system
if (systemId != null) {
returnInputSource = new InputSource(systemId);
returnInputSource.setSystemId(systemId);
}
}
if (returnInputSource == null) {
if (publicId != null) {
if (!publicIDToStringMap.containsKey(publicId)) {
URL url = new URL(publicId);
BufferedReader bufferedReader =
new BufferedReader(new InputStreamReader(url.openStream()));
StringBuffer stringBuffer = new StringBuffer();
String str = null;
while ((str = bufferedReader.readLine()) != null) {
stringBuffer.append(str);
}
publicIDToStringMap.put(publicId, stringBuffer);
}
String schemaString = publicIDToStringMap.get(publicId).toString();
returnInputSource = new InputSource(new StringReader(schemaString));
returnInputSource.setPublicId(publicId);
returnInputSource.setSystemId(publicId);
}
}
return returnInputSource;
}
};
Map properties = cgconfig.getProperties();
String bindingFileName = (String) properties.get(BINDING_FILE_NAME);
XmlSchema key = null;
for (Iterator schemaIter = schemaToInputSourceMap.keySet().iterator();
schemaIter.hasNext(); ) {
SchemaCompiler sc = XJC.createSchemaCompiler();
if (bindingFileName != null) {
if (bindingFileName.endsWith(".jar")) {
scanEpisodeFile(new File(bindingFileName), sc);
} else {
InputSource inputSoruce = new InputSource(new FileInputStream(bindingFileName));
inputSoruce.setSystemId(new File(bindingFileName).toURI().toString());
sc.getOptions().addBindFile(inputSoruce);
}
}
key = (XmlSchema) schemaIter.next();
if (nsMap != null) {
Iterator iterator = nsMap.entrySet().iterator();
while (iterator.hasNext()) {
Map.Entry entry = (Map.Entry) iterator.next();
String namespace = (String) entry.getKey();
String pkg = (String) nsMap.get(namespace);
registerNamespace(sc, namespace, pkg);
}
}
sc.setEntityResolver(resolver);
sc.setErrorListener(
new ErrorListener() {
public void error(SAXParseException saxParseException) {
log.error(saxParseException.getMessage());
log.debug(saxParseException.getMessage(), saxParseException);
}
public void fatalError(SAXParseException saxParseException) {
log.error(saxParseException.getMessage());
log.debug(saxParseException.getMessage(), saxParseException);
}
public void warning(SAXParseException saxParseException) {
log.warn(saxParseException.getMessage());
log.debug(saxParseException.getMessage(), saxParseException);
}
public void info(SAXParseException saxParseException) {
log.info(saxParseException.getMessage());
log.debug(saxParseException.getMessage(), saxParseException);
}
});
sc.parseSchema((InputSource) schemaToInputSourceMap.get(key));
sc.getOptions().addGrammar((InputSource) schemaToInputSourceMap.get(key));
for (Object property : properties.keySet()) {
String propertyName = (String) property;
if (propertyName.startsWith("X")) {
String[] args = null;
String propertyValue = (String) properties.get(property);
if (propertyValue != null) {
args = new String[] {"-" + propertyName, propertyValue};
} else {
args = new String[] {"-" + propertyName};
}
sc.getOptions().parseArguments(args);
}
}
// Bind the XML
S2JJAXBModel jaxbModel = sc.bind();
if (jaxbModel == null) {
throw new RuntimeException("Unable to generate code using jaxbri");
}
// Code change to sort Object factory classes start -SOA2.8
sortGeneratedObjectFactoryClasses(jaxbModel);
// Code change to sort Object factory classes end -SOA2.8
// Emit the code artifacts
JCodeModel codeModel = jaxbModel.generateCode(null, null);
FileCodeWriter writer = new FileCodeWriter(outputDir);
codeModel.build(writer);
Collection mappings = jaxbModel.getMappings();
Iterator iter = mappings.iterator();
while (iter.hasNext()) {
Mapping mapping = (Mapping) iter.next();
QName qn = mapping.getElement();
String typeName = mapping.getType().getTypeClass().fullName();
mapper.addTypeMappingName(qn, typeName);
}
// process the unwrapped parameters
if (!cgconfig.isParametersWrapped()) {
// figure out the unwrapped operations
List axisServices = cgconfig.getAxisServices();
for (Iterator servicesIter = axisServices.iterator(); servicesIter.hasNext(); ) {
AxisService axisService = (AxisService) servicesIter.next();
for (Iterator operations = axisService.getOperations(); operations.hasNext(); ) {
AxisOperation op = (AxisOperation) operations.next();
if (WSDLUtil.isInputPresentForMEP(op.getMessageExchangePattern())) {
AxisMessage message = op.getMessage(WSDLConstants.MESSAGE_LABEL_IN_VALUE);
if (message != null && message.getParameter(Constants.UNWRAPPED_KEY) != null) {
Mapping mapping = jaxbModel.get(message.getElementQName());
List elementProperties = mapping.getWrapperStyleDrilldown();
for (int j = 0; j < elementProperties.size(); j++) {
Property elementProperty = (Property) elementProperties.get(j);
QName partQName =
WSDLUtil.getPartQName(
op.getName().getLocalPart(),
WSDLConstants.INPUT_PART_QNAME_SUFFIX,
elementProperty.elementName().getLocalPart());
// this type is based on a primitive type- use the
// primitive type name in this case
String fullJaveName = elementProperty.type().fullName();
if (elementProperty.type().isArray()) {
fullJaveName = fullJaveName.concat("[]");
}
mapper.addTypeMappingName(partQName, fullJaveName);
if (elementProperty.type().isPrimitive()) {
mapper.addTypeMappingStatus(partQName, Boolean.TRUE);
}
if (elementProperty.type().isArray()) {
mapper.addTypeMappingStatus(partQName, Constants.ARRAY_TYPE);
}
}
}
}
if (WSDLUtil.isOutputPresentForMEP(op.getMessageExchangePattern())) {
AxisMessage message = op.getMessage(WSDLConstants.MESSAGE_LABEL_OUT_VALUE);
if (message != null && message.getParameter(Constants.UNWRAPPED_KEY) != null) {
Mapping mapping = jaxbModel.get(message.getElementQName());
List elementProperties = mapping.getWrapperStyleDrilldown();
for (int j = 0; j < elementProperties.size(); j++) {
Property elementProperty = (Property) elementProperties.get(j);
QName partQName =
WSDLUtil.getPartQName(
op.getName().getLocalPart(),
WSDLConstants.OUTPUT_PART_QNAME_SUFFIX,
elementProperty.elementName().getLocalPart());
// this type is based on a primitive type- use the
// primitive type name in this case
String fullJaveName = elementProperty.type().fullName();
if (elementProperty.type().isArray()) {
fullJaveName = fullJaveName.concat("[]");
}
mapper.addTypeMappingName(partQName, fullJaveName);
if (elementProperty.type().isPrimitive()) {
mapper.addTypeMappingStatus(partQName, Boolean.TRUE);
}
if (elementProperty.type().isArray()) {
mapper.addTypeMappingStatus(partQName, Constants.ARRAY_TYPE);
}
}
}
}
}
}
}
}
// Return the type mapper
return mapper;
} catch (Exception e) {
throw new RuntimeException(e);
}
}