Usage: Specify "targetClass"/"targetMethod" or "targetObject"/"targetMethod", * optionally specify arguments, prepare the invoker. Afterwards, you may * invoke the method any number of times, obtaining the invocation result. * *
Typically not used directly but via its subclasses * {@link org.springframework.beans.factory.config.MethodInvokingFactoryBean} and * {@link org.springframework.scheduling.quartz.MethodInvokingJobDetailFactoryBean}. * * @author Colin Sampaleanu * @author Juergen Hoeller * @since 19.02.2004 * @see #prepare * @see #invoke * @see org.springframework.beans.factory.config.MethodInvokingFactoryBean * @see org.springframework.scheduling.quartz.MethodInvokingJobDetailFactoryBean */ public class MethodInvoker { private Class targetClass; private Object targetObject; private String targetMethod; private String staticMethod; private Object[] arguments = new Object[0]; /** The method we will call */ private Method methodObject; /** * Set the target class on which to call the target method. * Only necessary when the target method is static; else, * a target object needs to be specified anyway. * @see #setTargetObject * @see #setTargetMethod */ public void setTargetClass(Class targetClass) { this.targetClass = targetClass; } /** * Return the target class on which to call the target method. */ public Class getTargetClass() { return this.targetClass; } /** * Set the target object on which to call the target method. * Only necessary when the target method is not static; * else, a target class is sufficient. * @see #setTargetClass * @see #setTargetMethod */ public void setTargetObject(Object targetObject) { this.targetObject = targetObject; if (targetObject != null) { this.targetClass = targetObject.getClass(); } } /** * Return the target object on which to call the target method. */ public Object getTargetObject() { return this.targetObject; } /** * Set the name of the method to be invoked. * Refers to either a static method or a non-static method, * depending on a target object being set. * @see #setTargetClass * @see #setTargetObject */ public void setTargetMethod(String targetMethod) { this.targetMethod = targetMethod; } /** * Return the name of the method to be invoked. */ public String getTargetMethod() { return this.targetMethod; } /** * Set a fully qualified static method name to invoke, * e.g. "example.MyExampleClass.myExampleMethod". * Convenient alternative to specifying targetClass and targetMethod. * @see #setTargetClass * @see #setTargetMethod */ public void setStaticMethod(String staticMethod) { this.staticMethod = staticMethod; } /** * Set arguments for the method invocation. If this property is not set, * or the Object array is of length 0, a method with no arguments is assumed. */ public void setArguments(Object[] arguments) { this.arguments = (arguments != null ? arguments : new Object[0]); } /** * Return the arguments for the method invocation. */ public Object[] getArguments() { return this.arguments; } /** * Prepare the specified method. * The method can be invoked any number of times afterwards. * @see #getPreparedMethod * @see #invoke */ public void prepare() throws ClassNotFoundException, NoSuchMethodException { if (this.staticMethod != null) { int lastDotIndex = this.staticMethod.lastIndexOf('.'); if (lastDotIndex == -1 || lastDotIndex == this.staticMethod.length()) { throw new IllegalArgumentException( "staticMethod must be a fully qualified class plus method name: " + "e.g. 'example.MyExampleClass.myExampleMethod'"); } String className = this.staticMethod.substring(0, lastDotIndex); String methodName = this.staticMethod.substring(lastDotIndex + 1); this.targetClass = resolveClassName(className); this.targetMethod = methodName; } Class targetClass = getTargetClass(); String targetMethod = getTargetMethod(); if (targetClass == null) { throw new IllegalArgumentException("Either 'targetClass' or 'targetObject' is required"); } if (targetMethod == null) { throw new IllegalArgumentException("Property 'targetMethod' is required"); } Object[] arguments = getArguments(); Class[] argTypes = new Class[arguments.length]; for (int i = 0; i < arguments.length; ++i) { argTypes[i] = (arguments[i] != null ? arguments[i].getClass() : Object.class); } // Try to get the exact method first. try { this.methodObject = targetClass.getMethod(targetMethod, argTypes); } catch (NoSuchMethodException ex) { // Just rethrow exception if we can't get any match. this.methodObject = findMatchingMethod(); if (this.methodObject == null) { throw ex; } } } /** * Resolve the given class name into a Class. *
The default implementations uses ClassUtils.forName,
* using the thread context class loader.
* @param className the class name to resolve
* @return the resolved Class
* @throws ClassNotFoundException if the class name was invalid
*/
protected Class resolveClassName(String className) throws ClassNotFoundException {
return ClassUtils.forName(className);
}
/**
* Find a matching method with the specified name for the specified arguments.
* @return a matching method, or null if none
* @see #getTargetClass()
* @see #getTargetMethod()
* @see #getArguments()
*/
protected Method findMatchingMethod() {
String targetMethod = getTargetMethod();
Object[] arguments = getArguments();
int argCount = arguments.length;
Method[] candidates = ReflectionUtils.getAllDeclaredMethods(getTargetClass());
int minTypeDiffWeight = Integer.MAX_VALUE;
Method matchingMethod = null;
for (int i = 0; i < candidates.length; i++) {
Method candidate = candidates[i];
if (candidate.getName().equals(targetMethod)) {
Class[] paramTypes = candidate.getParameterTypes();
if (paramTypes.length == argCount) {
int typeDiffWeight = getTypeDifferenceWeight(paramTypes, arguments);
if (typeDiffWeight < minTypeDiffWeight) {
minTypeDiffWeight = typeDiffWeight;
matchingMethod = candidate;
}
}
}
}
return matchingMethod;
}
/**
* Return the prepared Method object that will be invoked.
*
Can for example be used to determine the return type.
* @return the prepared Method object (never null)
* @throws IllegalStateException if the invoker hasn't been prepared yet
* @see #prepare
* @see #invoke
*/
public Method getPreparedMethod() throws IllegalStateException {
if (this.methodObject == null) {
throw new IllegalStateException("prepare() must be called prior to invoke() on MethodInvoker");
}
return this.methodObject;
}
/**
* Return whether this invoker has been prepared already,
* i.e. whether it allows access to {@link #getPreparedMethod()} already.
*/
public boolean isPrepared() {
return (this.methodObject != null);
}
/**
* Invoke the specified method.
*
The invoker needs to have been prepared before.
* @return the object (possibly null) returned by the method invocation,
* or null if the method has a void return type
* @throws InvocationTargetException if the target method threw an exception
* @throws IllegalAccessException if the target method couldn't be accessed
* @see #prepare
*/
public Object invoke() throws InvocationTargetException, IllegalAccessException {
// In the static case, target will simply be null.
Object targetObject = getTargetObject();
Method preparedMethod = getPreparedMethod();
if (targetObject == null && !Modifier.isStatic(preparedMethod.getModifiers())) {
throw new IllegalArgumentException("Target method must not be non-static without a target");
}
ReflectionUtils.makeAccessible(preparedMethod);
return preparedMethod.invoke(targetObject, getArguments());
}
/**
* Algorithm that judges the match between the declared parameter types of a candidate method
* and a specific list of arguments that this method is supposed to be invoked with.
*
Determines a weight that represents the class hierarchy difference between types and * arguments. A direct match, i.e. type Integer -> arg of class Integer, does not increase * the result - all direct matches means weight 0. A match between type Object and arg of * class Integer would increase the weight by 2, due to the superclass 2 steps up in the * hierarchy (i.e. Object) being the last one that still matches the required type Object. * Type Number and class Integer would increase the weight by 1 accordingly, due to the * superclass 1 step up the hierarchy (i.e. Number) still matching the required type Number. * Therefore, with an arg of type Integer, a constructor (Integer) would be preferred to a * constructor (Number) which would in turn be preferred to a constructor (Object). * All argument weights get accumulated. * @param paramTypes the parameter types to match * @param args the arguments to match * @return the accumulated weight for all arguments */ public static int getTypeDifferenceWeight(Class[] paramTypes, Object[] args) { int result = 0; for (int i = 0; i < paramTypes.length; i++) { if (!ClassUtils.isAssignableValue(paramTypes[i], args[i])) { return Integer.MAX_VALUE; } if (args[i] != null) { Class paramType = paramTypes[i]; Class superClass = args[i].getClass().getSuperclass(); while (superClass != null) { if (paramType.equals(superClass)) { result = result + 2; superClass = null; } else if (ClassUtils.isAssignable(paramType, superClass)) { result = result + 2; superClass = superClass.getSuperclass(); } else { superClass = null; } } if (paramType.isInterface()) { result = result + 1; } } } return result; } }