connectors/util/java/org/apache/tomcat/util/digester/CallMethodRule.java - tomcat55 - Git at Google

 /* $Id$
  *
  * Copyright 2001-2004 The Apache Software Foundation.
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */


 package org.apache.tomcat.util.digester;


 import org.apache.tomcat.util.IntrospectionUtils;
 import org.xml.sax.Attributes;


 /**
  * <p>Rule implementation that calls a method on an object on the stack
  * (normally the top/parent object), passing arguments collected from
  * subsequent <code>CallParamRule</code> rules or from the body of this
  * element. </p>
  *
  * <p>By using {@link #CallMethodRule(String methodName)}
  * a method call can be made to a method which accepts no
  * arguments.</p>
  *
  * <p>Incompatible method parameter types are converted
  * using <code>org.apache.commons.beanutils.ConvertUtils</code>.
  * </p>
  *
  * <p>This rule now uses {@see org.apache.commons.beanutils.MethodUtils#invokeMethod}
  * by default.
  * This increases the kinds of methods successfully and allows primitives
  * to be matched by passing in wrapper classes.
  * There are rare cases when {@see org.apache.commons.beanutils.MethodUtils#invokeExactMethod}
  * (the old defualt) is required.
  * This method is much stricter in it's reflection.
  * Setting the <code>UseExactMatch</code> to true reverts to the use of this
  * method.</p>
  *
  * <p>Note that the target method is invoked when the  <i>end</i> of
  * the tag the CallMethodRule fired on is encountered, <i>not</i> when the
  * last parameter becomes available. This implies that rules which fire on
  * tags nested within the one associated with the CallMethodRule will
  * fire before the CallMethodRule invokes the target method. This behaviour is
  * not configurable. </p>
  *
  * <p>Note also that if a CallMethodRule is expecting exactly one parameter
  * and that parameter is not available (eg CallParamRule is used with an
  * attribute name but the attribute does not exist) then the method will
  * not be invoked. If a CallMethodRule is expecting more than one parameter,
  * then it is always invoked, regardless of whether the parameters were
  * available or not (missing parameters are passed as null values).</p>
  */

 public class CallMethodRule extends Rule {

     // ----------------------------------------------------------- Constructors


     /**
      * Construct a "call method" rule with the specified method name.  The
      * parameter types (if any) default to java.lang.String.
      *
      * @param digester The associated Digester
      * @param methodName Method name of the parent method to call
      * @param paramCount The number of parameters to collect, or
      *  zero for a single argument from the body of this element.
      *
      *
      * @deprecated The digester instance is now set in the {@link Digester#addRule} method.
      * Use {@link #CallMethodRule(String methodName,int paramCount)} instead.
      */
     public CallMethodRule(Digester digester, String methodName,
                           int paramCount) {

         this(methodName, paramCount);

     }


     /**
      * Construct a "call method" rule with the specified method name.
      *
      * @param digester The associated Digester
      * @param methodName Method name of the parent method to call
      * @param paramCount The number of parameters to collect, or
      *  zero for a single argument from the body of ths element
      * @param paramTypes The Java class names of the arguments
      *  (if you wish to use a primitive type, specify the corresonding
      *  Java wrapper class instead, such as <code>java.lang.Boolean</code>
      *  for a <code>boolean</code> parameter)
      *
      * @deprecated The digester instance is now set in the {@link Digester#addRule} method.
      * Use {@link #CallMethodRule(String methodName,int paramCount, String [] paramTypes)} instead.
      */
     public CallMethodRule(Digester digester, String methodName,
                           int paramCount, String paramTypes[]) {

         this(methodName, paramCount, paramTypes);

     }


     /**
      * Construct a "call method" rule with the specified method name.
      *
      * @param digester The associated Digester
      * @param methodName Method name of the parent method to call
      * @param paramCount The number of parameters to collect, or
      *  zero for a single argument from the body of ths element
      * @param paramTypes The Java classes that represent the
      *  parameter types of the method arguments
      *  (if you wish to use a primitive type, specify the corresonding
      *  Java wrapper class instead, such as <code>java.lang.Boolean.TYPE</code>
      *  for a <code>boolean</code> parameter)
      *
      * @deprecated The digester instance is now set in the {@link Digester#addRule} method.
      * Use {@link #CallMethodRule(String methodName,int paramCount, Class [] paramTypes)} instead.
      */
     public CallMethodRule(Digester digester, String methodName,
                           int paramCount, Class paramTypes[]) {

         this(methodName, paramCount, paramTypes);
     }


     /**
      * Construct a "call method" rule with the specified method name.  The
      * parameter types (if any) default to java.lang.String.
      *
      * @param methodName Method name of the parent method to call
      * @param paramCount The number of parameters to collect, or
      *  zero for a single argument from the body of this element.
      */
     public CallMethodRule(String methodName,
                           int paramCount) {
         this(0, methodName, paramCount);
     }

     /**
      * Construct a "call method" rule with the specified method name.  The
      * parameter types (if any) default to java.lang.String.
      *
      * @param targetOffset location of the target object. Positive numbers are
      * relative to the top of the digester object stack. Negative numbers
      * are relative to the bottom of the stack. Zero implies the top
      * object on the stack.
      * @param methodName Method name of the parent method to call
      * @param paramCount The number of parameters to collect, or
      *  zero for a single argument from the body of this element.
      */
     public CallMethodRule(int targetOffset,
                           String methodName,
                           int paramCount) {

         this.targetOffset = targetOffset;
         this.methodName = methodName;
         this.paramCount = paramCount;
         if (paramCount == 0) {
             this.paramTypes = new Class[] { String.class };
         } else {
             this.paramTypes = new Class[paramCount];
             for (int i = 0; i < this.paramTypes.length; i++) {
                 this.paramTypes[i] = String.class;
             }
         }

     }

     /**
      * Construct a "call method" rule with the specified method name.
      * The method should accept no parameters.
      *
      * @param methodName Method name of the parent method to call
      */
     public CallMethodRule(String methodName) {

         this(0, methodName, 0, (Class[]) null);

     }


     /**
      * Construct a "call method" rule with the specified method name.
      * The method should accept no parameters.
      *
      * @param targetOffset location of the target object. Positive numbers are
      * relative to the top of the digester object stack. Negative numbers
      * are relative to the bottom of the stack. Zero implies the top
      * object on the stack.
      * @param methodName Method name of the parent method to call
      */
     public CallMethodRule(int targetOffset, String methodName) {

         this(targetOffset, methodName, 0, (Class[]) null);

     }


     /**
      * Construct a "call method" rule with the specified method name and
      * parameter types. If <code>paramCount</code> is set to zero the rule
      * will use the body of this element as the single argument of the
      * method, unless <code>paramTypes</code> is null or empty, in this
      * case the rule will call the specified method with no arguments.
      *
      * @param methodName Method name of the parent method to call
      * @param paramCount The number of parameters to collect, or
      *  zero for a single argument from the body of ths element
      * @param paramTypes The Java class names of the arguments
      *  (if you wish to use a primitive type, specify the corresonding
      *  Java wrapper class instead, such as <code>java.lang.Boolean</code>
      *  for a <code>boolean</code> parameter)
      */
     public CallMethodRule(
                             String methodName,
                             int paramCount,
                             String paramTypes[]) {
         this(0, methodName, paramCount, paramTypes);
     }

     /**
      * Construct a "call method" rule with the specified method name and
      * parameter types. If <code>paramCount</code> is set to zero the rule
      * will use the body of this element as the single argument of the
      * method, unless <code>paramTypes</code> is null or empty, in this
      * case the rule will call the specified method with no arguments.
      *
      * @param targetOffset location of the target object. Positive numbers are
      * relative to the top of the digester object stack. Negative numbers
      * are relative to the bottom of the stack. Zero implies the top
      * object on the stack.
      * @param methodName Method name of the parent method to call
      * @param paramCount The number of parameters to collect, or
      *  zero for a single argument from the body of ths element
      * @param paramTypes The Java class names of the arguments
      *  (if you wish to use a primitive type, specify the corresonding
      *  Java wrapper class instead, such as <code>java.lang.Boolean</code>
      *  for a <code>boolean</code> parameter)
      */
     public CallMethodRule(  int targetOffset,
                             String methodName,
                             int paramCount,
                             String paramTypes[]) {

         this.targetOffset = targetOffset;
         this.methodName = methodName;
         this.paramCount = paramCount;
         if (paramTypes == null) {
             this.paramTypes = new Class[paramCount];
             for (int i = 0; i < this.paramTypes.length; i++) {
                 this.paramTypes[i] = "abc".getClass();
             }
         } else {
             // copy the parameter class names into an array
             // the classes will be loaded when the digester is set
             this.paramClassNames = new String[paramTypes.length];
             for (int i = 0; i < this.paramClassNames.length; i++) {
                 this.paramClassNames[i] = paramTypes[i];
             }
         }

     }


     /**
      * Construct a "call method" rule with the specified method name and
      * parameter types. If <code>paramCount</code> is set to zero the rule
      * will use the body of this element as the single argument of the
      * method, unless <code>paramTypes</code> is null or empty, in this
      * case the rule will call the specified method with no arguments.
      *
      * @param methodName Method name of the parent method to call
      * @param paramCount The number of parameters to collect, or
      *  zero for a single argument from the body of ths element
      * @param paramTypes The Java classes that represent the
      *  parameter types of the method arguments
      *  (if you wish to use a primitive type, specify the corresonding
      *  Java wrapper class instead, such as <code>java.lang.Boolean.TYPE</code>
      *  for a <code>boolean</code> parameter)
      */
     public CallMethodRule(
                             String methodName,
                             int paramCount,
                             Class paramTypes[]) {
         this(0, methodName, paramCount, paramTypes);
     }

     /**
      * Construct a "call method" rule with the specified method name and
      * parameter types. If <code>paramCount</code> is set to zero the rule
      * will use the body of this element as the single argument of the
      * method, unless <code>paramTypes</code> is null or empty, in this
      * case the rule will call the specified method with no arguments.
      *
      * @param targetOffset location of the target object. Positive numbers are
      * relative to the top of the digester object stack. Negative numbers
      * are relative to the bottom of the stack. Zero implies the top
      * object on the stack.
      * @param methodName Method name of the parent method to call
      * @param paramCount The number of parameters to collect, or
      *  zero for a single argument from the body of ths element
      * @param paramTypes The Java classes that represent the
      *  parameter types of the method arguments
      *  (if you wish to use a primitive type, specify the corresonding
      *  Java wrapper class instead, such as <code>java.lang.Boolean.TYPE</code>
      *  for a <code>boolean</code> parameter)
      */
     public CallMethodRule(  int targetOffset,
                             String methodName,
                             int paramCount,
                             Class paramTypes[]) {

         this.targetOffset = targetOffset;
         this.methodName = methodName;
         this.paramCount = paramCount;
         if (paramTypes == null) {
             this.paramTypes = new Class[paramCount];
             for (int i = 0; i < this.paramTypes.length; i++) {
                 this.paramTypes[i] = "abc".getClass();
             }
         } else {
             this.paramTypes = new Class[paramTypes.length];
             for (int i = 0; i < this.paramTypes.length; i++) {
                 this.paramTypes[i] = paramTypes[i];
             }
         }

     }


     // ----------------------------------------------------- Instance Variables


     /**
      * The body text collected from this element.
      */
     protected String bodyText = null;


     /**
      * location of the target object for the call, relative to the
      * top of the digester object stack. The default value of zero
      * means the target object is the one on top of the stack.
      */
     private int targetOffset = 0;

     /**
      * The method name to call on the parent object.
      */
     protected String methodName = null;


     /**
      * The number of parameters to collect from <code>MethodParam</code> rules.
      * If this value is zero, a single parameter will be collected from the
      * body of this element.
      */
     protected int paramCount = 0;


     /**
      * The parameter types of the parameters to be collected.
      */
     protected Class paramTypes[] = null;

     /**
      * The names of the classes of the parameters to be collected.
      * This attribute allows creation of the classes to be postponed until the digester is set.
      */
     private String paramClassNames[] = null;

     /**
      * Should <code>MethodUtils.invokeExactMethod</code> be used for reflection.
      */
     protected boolean useExactMatch = false;

     // --------------------------------------------------------- Public Methods

     /**
      * Should <code>MethodUtils.invokeExactMethod</code>
      * be used for the reflection.
      */
     public boolean getUseExactMatch() {
         return useExactMatch;
     }

     /**
      * Set whether <code>MethodUtils.invokeExactMethod</code>
      * should be used for the reflection.
      */
     public void setUseExactMatch(boolean useExactMatch)
     {
         this.useExactMatch = useExactMatch;
     }

     /**
      * Set the associated digester.
      * If needed, this class loads the parameter classes from their names.
      */
     public void setDigester(Digester digester)
     {
         // call superclass
         super.setDigester(digester);
         // if necessary, load parameter classes
         if (this.paramClassNames != null) {
             this.paramTypes = new Class[paramClassNames.length];
             for (int i = 0; i < this.paramClassNames.length; i++) {
                 try {
                     this.paramTypes[i] =
                             digester.getClassLoader().loadClass(this.paramClassNames[i]);
                 } catch (ClassNotFoundException e) {
                     // use the digester log
                     digester.getLogger().error("(CallMethodRule) Cannot load class " + this.paramClassNames[i], e);
                     this.paramTypes[i] = null; // Will cause NPE later
                 }
             }
         }
     }

     /**
      * Process the start of this element.
      *
      * @param attributes The attribute list for this element
      */
     public void begin(Attributes attributes) throws Exception {

         // Push an array to capture the parameter values if necessary
         if (paramCount > 0) {
             Object parameters[] = new Object[paramCount];
             for (int i = 0; i < parameters.length; i++) {
                 parameters[i] = null;
             }
             digester.pushParams(parameters);
         }

     }


     /**
      * Process the body text of this element.
      *
      * @param bodyText The body text of this element
      */
     public void body(String bodyText) throws Exception {

         if (paramCount == 0) {
             this.bodyText = bodyText.trim();
         }

     }


     /**
      * Process the end of this element.
      */
     public void end() throws Exception {

         // Retrieve or construct the parameter values array
         Object parameters[] = null;
         if (paramCount > 0) {

             parameters = (Object[]) digester.popParams();

             if (digester.log.isTraceEnabled()) {
                 for (int i=0,size=parameters.length;i<size;i++) {
                     digester.log.trace("[CallMethodRule](" + i + ")" + parameters[i]) ;
                 }
             }

             // In the case where the parameter for the method
             // is taken from an attribute, and that attribute
             // isn't actually defined in the source XML file,
             // skip the method call
             if (paramCount == 1 && parameters[0] == null) {
                 return;
             }

         } else if (paramTypes != null && paramTypes.length != 0) {

             // In the case where the parameter for the method
             // is taken from the body text, but there is no
             // body text included in the source XML file,
             // skip the method call
             if (bodyText == null) {
                 return;
             }

             parameters = new Object[1];
             parameters[0] = bodyText;
             if (paramTypes.length == 0) {
                 paramTypes = new Class[1];
                 paramTypes[0] = "abc".getClass();
             }

         }

         // Construct the parameter values array we will need
         // We only do the conversion if the param value is a String and
         // the specified paramType is not String.
         Object paramValues[] = new Object[paramTypes.length];
         for (int i = 0; i < paramTypes.length; i++) {
             // convert nulls and convert stringy parameters
             // for non-stringy param types
             if(
                 parameters[i] == null ||
                  (parameters[i] instanceof String &&
                    !String.class.isAssignableFrom(paramTypes[i]))) {

                 paramValues[i] =
                         IntrospectionUtils.convert((String) parameters[i], paramTypes[i]);
             } else {
                 paramValues[i] = parameters[i];
             }
         }

         // Determine the target object for the method call
         Object target;
         if (targetOffset >= 0) {
             target = digester.peek(targetOffset);
         } else {
             target = digester.peek( digester.getCount() + targetOffset );
         }

         if (target == null) {
             StringBuffer sb = new StringBuffer();
             sb.append("[CallMethodRule]{");
             sb.append(digester.match);
             sb.append("} Call target is null (");
             sb.append("targetOffset=");
             sb.append(targetOffset);
             sb.append(",stackdepth=");
             sb.append(digester.getCount());
             sb.append(")");
             throw new org.xml.sax.SAXException(sb.toString());
         }

         // Invoke the required method on the top object
         if (digester.log.isDebugEnabled()) {
             StringBuffer sb = new StringBuffer("[CallMethodRule]{");
             sb.append(digester.match);
             sb.append("} Call ");
             sb.append(target.getClass().getName());
             sb.append(".");
             sb.append(methodName);
             sb.append("(");
             for (int i = 0; i < paramValues.length; i++) {
                 if (i > 0) {
                     sb.append(",");
                 }
                 if (paramValues[i] == null) {
                     sb.append("null");
                 } else {
                     sb.append(paramValues[i].toString());
                 }
                 sb.append("/");
                 if (paramTypes[i] == null) {
                     sb.append("null");
                 } else {
                     sb.append(paramTypes[i].getName());
                 }
             }
             sb.append(")");
             digester.log.debug(sb.toString());
         }
         Object result = IntrospectionUtils.callMethodN(target, methodName,
                 paramValues, paramTypes);
         processMethodCallResult(result);
     }


     /**
      * Clean up after parsing is complete.
      */
     public void finish() throws Exception {

         bodyText = null;

     }

     /**
      * Subclasses may override this method to perform additional processing of the
      * invoked method's result.
      *
      * @param result the Object returned by the method invoked, possibly null
      */
     protected void processMethodCallResult(Object result) {
         // do nothing
     }

     /**
      * Render a printable version of this Rule.
      */
     public String toString() {

         StringBuffer sb = new StringBuffer("CallMethodRule[");
         sb.append("methodName=");
         sb.append(methodName);
         sb.append(", paramCount=");
         sb.append(paramCount);
         sb.append(", paramTypes={");
         if (paramTypes != null) {
             for (int i = 0; i < paramTypes.length; i++) {
                 if (i > 0) {
                     sb.append(", ");
                 }
                 sb.append(paramTypes[i].getName());
             }
         }
         sb.append("}");
         sb.append("]");
         return (sb.toString());

     }


 }
	/* $Id$
	*
	* Copyright 2001-2004 The Apache Software Foundation.
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/


	package org.apache.tomcat.util.digester;


	import org.apache.tomcat.util.IntrospectionUtils;
	import org.xml.sax.Attributes;


	/**
	* <p>Rule implementation that calls a method on an object on the stack
	* (normally the top/parent object), passing arguments collected from
	* subsequent <code>CallParamRule</code> rules or from the body of this
	* element. </p>
	*
	* <p>By using {@link #CallMethodRule(String methodName)}
	* a method call can be made to a method which accepts no
	* arguments.</p>
	*
	* <p>Incompatible method parameter types are converted
	* using <code>org.apache.commons.beanutils.ConvertUtils</code>.
	* </p>
	*
	* <p>This rule now uses {@see org.apache.commons.beanutils.MethodUtils#invokeMethod}
	* by default.
	* This increases the kinds of methods successfully and allows primitives
	* to be matched by passing in wrapper classes.
	* There are rare cases when {@see org.apache.commons.beanutils.MethodUtils#invokeExactMethod}
	* (the old defualt) is required.
	* This method is much stricter in it's reflection.
	* Setting the <code>UseExactMatch</code> to true reverts to the use of this
	* method.</p>
	*
	* <p>Note that the target method is invoked when the <i>end</i> of
	* the tag the CallMethodRule fired on is encountered, <i>not</i> when the
	* last parameter becomes available. This implies that rules which fire on
	* tags nested within the one associated with the CallMethodRule will
	* fire before the CallMethodRule invokes the target method. This behaviour is
	* not configurable. </p>
	*
	* <p>Note also that if a CallMethodRule is expecting exactly one parameter
	* and that parameter is not available (eg CallParamRule is used with an
	* attribute name but the attribute does not exist) then the method will
	* not be invoked. If a CallMethodRule is expecting more than one parameter,
	* then it is always invoked, regardless of whether the parameters were
	* available or not (missing parameters are passed as null values).</p>
	*/

	public class CallMethodRule extends Rule {

	// ----------------------------------------------------------- Constructors


	/**
	* Construct a "call method" rule with the specified method name. The
	* parameter types (if any) default to java.lang.String.
	*
	* @param digester The associated Digester
	* @param methodName Method name of the parent method to call
	* @param paramCount The number of parameters to collect, or
	* zero for a single argument from the body of this element.
	*
	*
	* @deprecated The digester instance is now set in the {@link Digester#addRule} method.
	* Use {@link #CallMethodRule(String methodName,int paramCount)} instead.
	*/
	public CallMethodRule(Digester digester, String methodName,
	int paramCount) {

	this(methodName, paramCount);

	}


	/**
	* Construct a "call method" rule with the specified method name.
	*
	* @param digester The associated Digester
	* @param methodName Method name of the parent method to call
	* @param paramCount The number of parameters to collect, or
	* zero for a single argument from the body of ths element
	* @param paramTypes The Java class names of the arguments
	* (if you wish to use a primitive type, specify the corresonding
	* Java wrapper class instead, such as <code>java.lang.Boolean</code>
	* for a <code>boolean</code> parameter)
	*
	* @deprecated The digester instance is now set in the {@link Digester#addRule} method.
	* Use {@link #CallMethodRule(String methodName,int paramCount, String [] paramTypes)} instead.
	*/
	public CallMethodRule(Digester digester, String methodName,
	int paramCount, String paramTypes[]) {

	this(methodName, paramCount, paramTypes);

	}


	/**
	* Construct a "call method" rule with the specified method name.
	*
	* @param digester The associated Digester
	* @param methodName Method name of the parent method to call
	* @param paramCount The number of parameters to collect, or
	* zero for a single argument from the body of ths element
	* @param paramTypes The Java classes that represent the
	* parameter types of the method arguments
	* (if you wish to use a primitive type, specify the corresonding
	* Java wrapper class instead, such as <code>java.lang.Boolean.TYPE</code>
	* for a <code>boolean</code> parameter)
	*
	* @deprecated The digester instance is now set in the {@link Digester#addRule} method.
	* Use {@link #CallMethodRule(String methodName,int paramCount, Class [] paramTypes)} instead.
	*/
	public CallMethodRule(Digester digester, String methodName,
	int paramCount, Class paramTypes[]) {

	this(methodName, paramCount, paramTypes);
	}


	/**
	* Construct a "call method" rule with the specified method name. The
	* parameter types (if any) default to java.lang.String.
	*
	* @param methodName Method name of the parent method to call
	* @param paramCount The number of parameters to collect, or
	* zero for a single argument from the body of this element.
	*/
	public CallMethodRule(String methodName,
	int paramCount) {
	this(0, methodName, paramCount);
	}

	/**
	* Construct a "call method" rule with the specified method name. The
	* parameter types (if any) default to java.lang.String.
	*
	* @param targetOffset location of the target object. Positive numbers are
	* relative to the top of the digester object stack. Negative numbers
	* are relative to the bottom of the stack. Zero implies the top
	* object on the stack.
	* @param methodName Method name of the parent method to call
	* @param paramCount The number of parameters to collect, or
	* zero for a single argument from the body of this element.
	*/
	public CallMethodRule(int targetOffset,
	String methodName,
	int paramCount) {

	this.targetOffset = targetOffset;
	this.methodName = methodName;
	this.paramCount = paramCount;
	if (paramCount == 0) {
	this.paramTypes = new Class[] { String.class };
	} else {
	this.paramTypes = new Class[paramCount];
	for (int i = 0; i < this.paramTypes.length; i++) {
	this.paramTypes[i] = String.class;
	}
	}

	}

	/**
	* Construct a "call method" rule with the specified method name.
	* The method should accept no parameters.
	*
	* @param methodName Method name of the parent method to call
	*/
	public CallMethodRule(String methodName) {

	this(0, methodName, 0, (Class[]) null);

	}


	/**
	* Construct a "call method" rule with the specified method name.
	* The method should accept no parameters.
	*
	* @param targetOffset location of the target object. Positive numbers are
	* relative to the top of the digester object stack. Negative numbers
	* are relative to the bottom of the stack. Zero implies the top
	* object on the stack.
	* @param methodName Method name of the parent method to call
	*/
	public CallMethodRule(int targetOffset, String methodName) {

	this(targetOffset, methodName, 0, (Class[]) null);

	}


	/**
	* Construct a "call method" rule with the specified method name and
	* parameter types. If <code>paramCount</code> is set to zero the rule
	* will use the body of this element as the single argument of the
	* method, unless <code>paramTypes</code> is null or empty, in this
	* case the rule will call the specified method with no arguments.
	*
	* @param methodName Method name of the parent method to call
	* @param paramCount The number of parameters to collect, or
	* zero for a single argument from the body of ths element
	* @param paramTypes The Java class names of the arguments
	* (if you wish to use a primitive type, specify the corresonding
	* Java wrapper class instead, such as <code>java.lang.Boolean</code>
	* for a <code>boolean</code> parameter)
	*/
	public CallMethodRule(
	String methodName,
	int paramCount,
	String paramTypes[]) {
	this(0, methodName, paramCount, paramTypes);
	}

	/**
	* Construct a "call method" rule with the specified method name and
	* parameter types. If <code>paramCount</code> is set to zero the rule
	* will use the body of this element as the single argument of the
	* method, unless <code>paramTypes</code> is null or empty, in this
	* case the rule will call the specified method with no arguments.
	*
	* @param targetOffset location of the target object. Positive numbers are
	* relative to the top of the digester object stack. Negative numbers
	* are relative to the bottom of the stack. Zero implies the top
	* object on the stack.
	* @param methodName Method name of the parent method to call
	* @param paramCount The number of parameters to collect, or
	* zero for a single argument from the body of ths element
	* @param paramTypes The Java class names of the arguments
	* (if you wish to use a primitive type, specify the corresonding
	* Java wrapper class instead, such as <code>java.lang.Boolean</code>
	* for a <code>boolean</code> parameter)
	*/
	public CallMethodRule( int targetOffset,
	String methodName,
	int paramCount,
	String paramTypes[]) {

	this.targetOffset = targetOffset;
	this.methodName = methodName;
	this.paramCount = paramCount;
	if (paramTypes == null) {
	this.paramTypes = new Class[paramCount];
	for (int i = 0; i < this.paramTypes.length; i++) {
	this.paramTypes[i] = "abc".getClass();
	}
	} else {
	// copy the parameter class names into an array
	// the classes will be loaded when the digester is set
	this.paramClassNames = new String[paramTypes.length];
	for (int i = 0; i < this.paramClassNames.length; i++) {
	this.paramClassNames[i] = paramTypes[i];
	}
	}

	}


	/**
	* Construct a "call method" rule with the specified method name and
	* parameter types. If <code>paramCount</code> is set to zero the rule
	* will use the body of this element as the single argument of the
	* method, unless <code>paramTypes</code> is null or empty, in this
	* case the rule will call the specified method with no arguments.
	*
	* @param methodName Method name of the parent method to call
	* @param paramCount The number of parameters to collect, or
	* zero for a single argument from the body of ths element
	* @param paramTypes The Java classes that represent the
	* parameter types of the method arguments
	* (if you wish to use a primitive type, specify the corresonding
	* Java wrapper class instead, such as <code>java.lang.Boolean.TYPE</code>
	* for a <code>boolean</code> parameter)
	*/
	public CallMethodRule(
	String methodName,
	int paramCount,
	Class paramTypes[]) {
	this(0, methodName, paramCount, paramTypes);
	}

	/**
	* Construct a "call method" rule with the specified method name and
	* parameter types. If <code>paramCount</code> is set to zero the rule
	* will use the body of this element as the single argument of the
	* method, unless <code>paramTypes</code> is null or empty, in this
	* case the rule will call the specified method with no arguments.
	*
	* @param targetOffset location of the target object. Positive numbers are
	* relative to the top of the digester object stack. Negative numbers
	* are relative to the bottom of the stack. Zero implies the top
	* object on the stack.
	* @param methodName Method name of the parent method to call
	* @param paramCount The number of parameters to collect, or
	* zero for a single argument from the body of ths element
	* @param paramTypes The Java classes that represent the
	* parameter types of the method arguments
	* (if you wish to use a primitive type, specify the corresonding
	* Java wrapper class instead, such as <code>java.lang.Boolean.TYPE</code>
	* for a <code>boolean</code> parameter)
	*/
	public CallMethodRule( int targetOffset,
	String methodName,
	int paramCount,
	Class paramTypes[]) {

	this.targetOffset = targetOffset;
	this.methodName = methodName;
	this.paramCount = paramCount;
	if (paramTypes == null) {
	this.paramTypes = new Class[paramCount];
	for (int i = 0; i < this.paramTypes.length; i++) {
	this.paramTypes[i] = "abc".getClass();
	}
	} else {
	this.paramTypes = new Class[paramTypes.length];
	for (int i = 0; i < this.paramTypes.length; i++) {
	this.paramTypes[i] = paramTypes[i];
	}
	}

	}


	// ----------------------------------------------------- Instance Variables


	/**
	* The body text collected from this element.
	*/
	protected String bodyText = null;


	/**
	* location of the target object for the call, relative to the
	* top of the digester object stack. The default value of zero
	* means the target object is the one on top of the stack.
	*/
	private int targetOffset = 0;

	/**
	* The method name to call on the parent object.
	*/
	protected String methodName = null;


	/**
	* The number of parameters to collect from <code>MethodParam</code> rules.
	* If this value is zero, a single parameter will be collected from the
	* body of this element.
	*/
	protected int paramCount = 0;


	/**
	* The parameter types of the parameters to be collected.
	*/
	protected Class paramTypes[] = null;

	/**
	* The names of the classes of the parameters to be collected.
	* This attribute allows creation of the classes to be postponed until the digester is set.
	*/
	private String paramClassNames[] = null;

	/**
	* Should <code>MethodUtils.invokeExactMethod</code> be used for reflection.
	*/
	protected boolean useExactMatch = false;

	// --------------------------------------------------------- Public Methods

	/**
	* Should <code>MethodUtils.invokeExactMethod</code>
	* be used for the reflection.
	*/
	public boolean getUseExactMatch() {
	return useExactMatch;
	}

	/**
	* Set whether <code>MethodUtils.invokeExactMethod</code>
	* should be used for the reflection.
	*/
	public void setUseExactMatch(boolean useExactMatch)
	{
	this.useExactMatch = useExactMatch;
	}

	/**
	* Set the associated digester.
	* If needed, this class loads the parameter classes from their names.
	*/
	public void setDigester(Digester digester)
	{
	// call superclass
	super.setDigester(digester);
	// if necessary, load parameter classes
	if (this.paramClassNames != null) {
	this.paramTypes = new Class[paramClassNames.length];
	for (int i = 0; i < this.paramClassNames.length; i++) {
	try {
	this.paramTypes[i] =
	digester.getClassLoader().loadClass(this.paramClassNames[i]);
	} catch (ClassNotFoundException e) {
	// use the digester log
	digester.getLogger().error("(CallMethodRule) Cannot load class " + this.paramClassNames[i], e);
	this.paramTypes[i] = null; // Will cause NPE later
	}
	}
	}
	}

	/**
	* Process the start of this element.
	*
	* @param attributes The attribute list for this element
	*/
	public void begin(Attributes attributes) throws Exception {

	// Push an array to capture the parameter values if necessary
	if (paramCount > 0) {
	Object parameters[] = new Object[paramCount];
	for (int i = 0; i < parameters.length; i++) {
	parameters[i] = null;
	}
	digester.pushParams(parameters);
	}

	}


	/**
	* Process the body text of this element.
	*
	* @param bodyText The body text of this element
	*/
	public void body(String bodyText) throws Exception {

	if (paramCount == 0) {
	this.bodyText = bodyText.trim();
	}

	}


	/**
	* Process the end of this element.
	*/
	public void end() throws Exception {

	// Retrieve or construct the parameter values array
	Object parameters[] = null;
	if (paramCount > 0) {

	parameters = (Object[]) digester.popParams();

	if (digester.log.isTraceEnabled()) {
	for (int i=0,size=parameters.length;i<size;i++) {
	digester.log.trace("[CallMethodRule](" + i + ")" + parameters[i]) ;
	}
	}

	// In the case where the parameter for the method
	// is taken from an attribute, and that attribute
	// isn't actually defined in the source XML file,
	// skip the method call
	if (paramCount == 1 && parameters[0] == null) {
	return;
	}

	} else if (paramTypes != null && paramTypes.length != 0) {

	// In the case where the parameter for the method
	// is taken from the body text, but there is no
	// body text included in the source XML file,
	// skip the method call
	if (bodyText == null) {
	return;
	}

	parameters = new Object[1];
	parameters[0] = bodyText;
	if (paramTypes.length == 0) {
	paramTypes = new Class[1];
	paramTypes[0] = "abc".getClass();
	}

	}

	// Construct the parameter values array we will need
	// We only do the conversion if the param value is a String and
	// the specified paramType is not String.
	Object paramValues[] = new Object[paramTypes.length];
	for (int i = 0; i < paramTypes.length; i++) {
	// convert nulls and convert stringy parameters
	// for non-stringy param types
	if(
	parameters[i] == null \|\|
	(parameters[i] instanceof String &&
	!String.class.isAssignableFrom(paramTypes[i]))) {

	paramValues[i] =
	IntrospectionUtils.convert((String) parameters[i], paramTypes[i]);
	} else {
	paramValues[i] = parameters[i];
	}
	}

	// Determine the target object for the method call
	Object target;
	if (targetOffset >= 0) {
	target = digester.peek(targetOffset);
	} else {
	target = digester.peek( digester.getCount() + targetOffset );
	}

	if (target == null) {
	StringBuffer sb = new StringBuffer();
	sb.append("[CallMethodRule]{");
	sb.append(digester.match);
	sb.append("} Call target is null (");
	sb.append("targetOffset=");
	sb.append(targetOffset);
	sb.append(",stackdepth=");
	sb.append(digester.getCount());
	sb.append(")");
	throw new org.xml.sax.SAXException(sb.toString());
	}

	// Invoke the required method on the top object
	if (digester.log.isDebugEnabled()) {
	StringBuffer sb = new StringBuffer("[CallMethodRule]{");
	sb.append(digester.match);
	sb.append("} Call ");
	sb.append(target.getClass().getName());
	sb.append(".");
	sb.append(methodName);
	sb.append("(");
	for (int i = 0; i < paramValues.length; i++) {
	if (i > 0) {
	sb.append(",");
	}
	if (paramValues[i] == null) {
	sb.append("null");
	} else {
	sb.append(paramValues[i].toString());
	}
	sb.append("/");
	if (paramTypes[i] == null) {
	sb.append("null");
	} else {
	sb.append(paramTypes[i].getName());
	}
	}
	sb.append(")");
	digester.log.debug(sb.toString());
	}
	Object result = IntrospectionUtils.callMethodN(target, methodName,
	paramValues, paramTypes);
	processMethodCallResult(result);
	}


	/**
	* Clean up after parsing is complete.
	*/
	public void finish() throws Exception {

	bodyText = null;

	}

	/**
	* Subclasses may override this method to perform additional processing of the
	* invoked method's result.
	*
	* @param result the Object returned by the method invoked, possibly null
	*/
	protected void processMethodCallResult(Object result) {
	// do nothing
	}

	/**
	* Render a printable version of this Rule.
	*/
	public String toString() {

	StringBuffer sb = new StringBuffer("CallMethodRule[");
	sb.append("methodName=");
	sb.append(methodName);
	sb.append(", paramCount=");
	sb.append(paramCount);
	sb.append(", paramTypes={");
	if (paramTypes != null) {
	for (int i = 0; i < paramTypes.length; i++) {
	if (i > 0) {
	sb.append(", ");
	}
	sb.append(paramTypes[i].getName());
	}
	}
	sb.append("}");
	sb.append("]");
	return (sb.toString());

	}


	}