public void testXPathNodeListTest() throws Exception {
String xml =
"<foo><person id=\"1\">Claus<country>SE</country></person>"
+ "<person id=\"2\">Jonathan<country>CA</country></person></foo>";
Document doc = context.getTypeConverter().convertTo(Document.class, xml);
Object result = xpath("/foo/person").nodeSetResult().evaluate(createExchange(doc));
assertNotNull(result);
String s = context.getTypeConverter().convertTo(String.class, result);
assertEquals(ObjectHelper.between(xml, "<foo>", "</foo>"), s);
}
/**
* Choose one of the available methods to invoke if we can match the message body to the body
* parameter
*
* @param pojo the bean to invoke a method on
* @param exchange the message exchange
* @param name an optional name of the method that must match, use <tt>null</tt> to indicate all
* methods
* @return the method to invoke or null if no definitive method could be matched
* @throws AmbiguousMethodCallException is thrown if cannot choose method due to ambiguity
*/
protected MethodInfo chooseMethod(Object pojo, Exchange exchange, String name)
throws AmbiguousMethodCallException {
// @Handler should be select first
// then any single method that has a custom @annotation
// or any single method that has a match parameter type that matches the Exchange payload
// and last then try to select the best among the rest
// must use defensive copy, to avoid altering the shared lists
// and we want to remove unwanted operations from these local lists
final List<MethodInfo> localOperationsWithBody = new ArrayList<MethodInfo>(operationsWithBody);
final List<MethodInfo> localOperationsWithNoBody =
new ArrayList<MethodInfo>(operationsWithNoBody);
final List<MethodInfo> localOperationsWithCustomAnnotation =
new ArrayList<MethodInfo>(operationsWithCustomAnnotation);
final List<MethodInfo> localOperationsWithHandlerAnnotation =
new ArrayList<MethodInfo>(operationsWithHandlerAnnotation);
// remove all abstract methods
removeAllAbstractMethods(localOperationsWithBody);
removeAllAbstractMethods(localOperationsWithNoBody);
removeAllAbstractMethods(localOperationsWithCustomAnnotation);
removeAllAbstractMethods(localOperationsWithHandlerAnnotation);
if (name != null) {
// filter all lists to only include methods with this name
removeNonMatchingMethods(localOperationsWithHandlerAnnotation, name);
removeNonMatchingMethods(localOperationsWithCustomAnnotation, name);
removeNonMatchingMethods(localOperationsWithBody, name);
removeNonMatchingMethods(localOperationsWithNoBody, name);
} else {
// remove all getter/setter as we do not want to consider these methods
removeAllSetterOrGetterMethods(localOperationsWithHandlerAnnotation);
removeAllSetterOrGetterMethods(localOperationsWithCustomAnnotation);
removeAllSetterOrGetterMethods(localOperationsWithBody);
removeAllSetterOrGetterMethods(localOperationsWithNoBody);
}
if (localOperationsWithHandlerAnnotation.size() > 1) {
// if we have more than 1 @Handler then its ambiguous
throw new AmbiguousMethodCallException(exchange, localOperationsWithHandlerAnnotation);
}
if (localOperationsWithHandlerAnnotation.size() == 1) {
// methods with handler should be preferred
return localOperationsWithHandlerAnnotation.get(0);
} else if (localOperationsWithCustomAnnotation.size() == 1) {
// if there is one method with an annotation then use that one
return localOperationsWithCustomAnnotation.get(0);
}
// named method and with no parameters
boolean noParameters = name != null && name.endsWith("()");
if (noParameters && localOperationsWithNoBody.size() == 1) {
// if there was a method name configured and it has no parameters, then use the method with no
// body (eg no parameters)
return localOperationsWithNoBody.get(0);
} else if (!noParameters
&& localOperationsWithBody.size() == 1
&& localOperationsWithCustomAnnotation.isEmpty()) {
// if there is one method with body then use that one
return localOperationsWithBody.get(0);
}
Collection<MethodInfo> possibleOperations = new ArrayList<MethodInfo>();
possibleOperations.addAll(localOperationsWithBody);
possibleOperations.addAll(localOperationsWithCustomAnnotation);
if (!possibleOperations.isEmpty()) {
MethodInfo answer = null;
if (name != null) {
// do we have hardcoded parameters values provided from the method name then use that for
// matching
String parameters = ObjectHelper.between(name, "(", ")");
if (parameters != null) {
// special as we have hardcoded parameters, so we need to choose method that matches those
// parameters the best
LOG.trace("Choosing best matching method matching parameters: {}", parameters);
answer = chooseMethodWithMatchingParameters(exchange, parameters, possibleOperations);
}
}
if (answer == null) {
// multiple possible operations so find the best suited if possible
answer =
chooseMethodWithMatchingBody(
exchange, possibleOperations, localOperationsWithCustomAnnotation);
}
if (answer == null && possibleOperations.size() > 1) {
answer = getSingleCovariantMethod(possibleOperations);
}
if (answer == null) {
throw new AmbiguousMethodCallException(exchange, possibleOperations);
} else {
return answer;
}
}
// not possible to determine
return null;
}
private boolean matchMethod(Method method, String methodName) {
if (methodName == null) {
return true;
}
if (methodName.contains("(") && !methodName.endsWith(")")) {
throw new IllegalArgumentException(
"Name must have both starting and ending parenthesis, was: " + methodName);
}
// do not use qualifier for name matching
String name = methodName;
if (name.contains("(")) {
name = ObjectHelper.before(name, "(");
}
// must match name
if (name != null && !name.equals(method.getName())) {
return false;
}
// is it a method with no parameters
boolean noParameters = methodName.endsWith("()");
if (noParameters) {
return method.getParameterTypes().length == 0;
}
// match qualifier types which is used to select among overloaded methods
String types = ObjectHelper.between(methodName, "(", ")");
if (ObjectHelper.isNotEmpty(types)) {
// we must qualify based on types to match method
String[] parameters = StringQuoteHelper.splitSafeQuote(types, ',');
Iterator<?> it = ObjectHelper.createIterator(parameters);
for (int i = 0; i < method.getParameterTypes().length; i++) {
if (it.hasNext()) {
Class<?> parameterType = method.getParameterTypes()[i];
String qualifyType = (String) it.next();
if (ObjectHelper.isEmpty(qualifyType)) {
continue;
}
// trim the type
qualifyType = qualifyType.trim();
if ("*".equals(qualifyType)) {
// * is a wildcard so we accept and match that parameter type
continue;
}
if (BeanHelper.isValidParameterValue(qualifyType)) {
// its a parameter value, so continue to next parameter
// as we should only check for FQN/type parameters
continue;
}
// if qualify type indeed is a class, then it must be assignable with the parameter type
Boolean assignable =
BeanHelper.isAssignableToExpectedType(
getCamelContext().getClassResolver(), qualifyType, parameterType);
// the method will return null if the qualifyType is not a class
if (assignable != null && !assignable) {
return false;
}
} else {
// there method has more parameters than was specified in the method name qualifiers
return false;
}
}
// if the method has no more types then we can only regard it as matched
// if there are no more qualifiers
if (it.hasNext()) {
return false;
}
}
// the method matched
return true;
}
