Java tutorial
package org.springmodules.template.engine.velocity.extended; /* * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you 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. */ import java.io.File; import java.io.IOException; import java.io.InputStream; import java.io.Reader; import java.util.*; import org.apache.commons.collections.ExtendedProperties; import org.apache.velocity.Template; import org.apache.velocity.app.event.*; import org.apache.velocity.exception.ParseErrorException; import org.apache.velocity.exception.ResourceNotFoundException; import org.apache.velocity.runtime.directive.Directive; import org.apache.velocity.runtime.log.Log; import org.apache.velocity.runtime.log.LogManager; import org.apache.velocity.runtime.parser.ParseException; import org.apache.velocity.runtime.parser.Parser; import org.apache.velocity.runtime.parser.node.SimpleNode; import org.apache.velocity.runtime.resource.ContentResource; import org.apache.velocity.runtime.resource.ResourceManager; import org.apache.velocity.runtime.RuntimeConstants; import org.apache.velocity.runtime.VelocimacroFactory; import org.apache.velocity.runtime.RuntimeServices; import org.apache.velocity.runtime.ParserPool; import org.apache.velocity.util.ClassUtils; import org.apache.velocity.util.RuntimeServicesAware; import org.apache.velocity.util.StringUtils; import org.apache.velocity.util.introspection.Introspector; import org.apache.velocity.util.introspection.Uberspect; import org.apache.velocity.util.introspection.UberspectLoggable; /** * This is the Runtime system for Velocity. It is the * single access point for all functionality in Velocity. * It adheres to the mediator pattern and is the only * structure that developers need to be familiar with * in order to get Velocity to perform. * <p/> * The Runtime will also cooperate with external * systems like Turbine. Runtime properties can * set and then the Runtime is initialized. * <p/> * Turbine, for example, knows where the templates * are to be loaded from, and where the Velocity * log file should be placed. * <p/> * So in the case of Velocity cooperating with Turbine * the code might look something like the following: * <p/> * <blockquote><code><pre> * ri.setProperty(Runtime.FILE_RESOURCE_LOADER_PATH, templatePath); * ri.setProperty(Runtime.RUNTIME_LOG, pathToVelocityLog); * ri.init(); * </pre></code></blockquote> * <p/> * <pre> * ----------------------------------------------------------------------- * N O T E S O N R U N T I M E I N I T I A L I Z A T I O N * ----------------------------------------------------------------------- * init() * <p/> * If init() is called by itself the RuntimeInstance will initialize * with a set of default values. * ----------------------------------------------------------------------- * init(String/Properties) * <p/> * In this case the default velocity properties are layed down * first to provide a solid base, then any properties provided * in the given properties object will override the corresponding * default property. * ----------------------------------------------------------------------- * </pre> * * @author <a href="mailto:jvanzyl@apache.org">Jason van Zyl</a> * @author <a href="mailto:jlb@houseofdistraction.com">Jeff Bowden</a> * @author <a href="mailto:geirm@optonline.net">Geir Magusson Jr.</a> * @version $Id: ExtendedRuntimeInstance.java,v 1.1 2007/06/24 00:47:13 hueboness Exp $ */ public class ExtendedRuntimeInstance implements RuntimeConstants, RuntimeServices { /** * VelocimacroFactory object to manage VMs */ private VelocimacroFactory vmFactory = null; /** * The Runtime logger. We start with an instance of * a 'primordial logger', which just collects log messages * then, when the log system is initialized, all the * messages get dumpted out of the primordial one into the real one. */ private Log log = new Log(); /** * The Runtime parser pool */ private ParserPool parserPool; /** * Indicate whether the Runtime is in the midst of initialization. */ private boolean initializing = false; /** * Indicate whether the Runtime has been fully initialized. */ private boolean initialized = false; /** * These are the properties that are laid down over top * of the default properties when requested. */ private ExtendedProperties overridingProperties = null; /** * This is a hashtable of initialized directives. * The directives that populate this hashtable are * taken from the RUNTIME_DEFAULT_DIRECTIVES * property file. This hashtable is passed * to each parser that is created. */ private Hashtable runtimeDirectives; /** * Object that houses the configuration options for * the velocity runtime. The ExtendedProperties object allows * the convenient retrieval of a subset of properties. * For example all the properties for a resource loader * can be retrieved from the main ExtendedProperties object * using something like the following: * <p/> * ExtendedProperties loaderConfiguration = * configuration.subset(loaderID); * <p/> * And a configuration is a lot more convenient to deal * with then conventional properties objects, or Maps. */ private ExtendedProperties configuration = new ExtendedProperties(); private ResourceManager resourceManager = null; /** * This stores the engine-wide set of event handlers. Event handlers for * each specific merge are stored in the context. */ private EventCartridge eventCartridge = null; /* * Each runtime instance has it's own introspector * to ensure that each instance is completely separate. */ private Introspector introspector = null; /* * Opaque reference to something specificed by the * application for use in application supplied/specified * pluggable components */ private Map applicationAttributes = null; private Uberspect uberSpect; /** * Creates a new RuntimeInstance object. */ public ExtendedRuntimeInstance(ResourceManager resourceManager) { /* * create a VM factory, introspector, and application attributes */ vmFactory = new VelocimacroFactory(this); /* * make a new introspector and initialize it */ introspector = new Introspector(getLog()); /* * and a store for the application attributes */ applicationAttributes = new HashMap(); this.resourceManager = resourceManager; } /** * This is the primary initialization method in the Velocity * Runtime. The systems that are setup/initialized here are * as follows: * <p/> * <ul> * <li>Logging System</li> * <li>ResourceManager</li> * <li>EventHandler</li> * <li>Parser Pool</li> * <li>Global Cache</li> * <li>Static Content Include System</li> * <li>Velocimacro System</li> * </ul> * * @throws Exception When an error occured during initialization. */ public synchronized void init() throws Exception { if (!initialized && !initializing) { initializing = true; log.trace("*******************************************************************"); log.debug("Starting Apache Velocity v@build.version@ (compiled: @build.time@)"); log.trace("RuntimeInstance initializing."); initializeProperties(); initializeLog(); initializeResourceManager(); initializeDirectives(); initializeEventHandlers(); initializeParserPool(); initializeIntrospection(); /* * initialize the VM Factory. It will use the properties * accessable from Runtime, so keep this here at the end. */ vmFactory.initVelocimacro(); log.trace("RuntimeInstance successfully initialized."); initialized = true; initializing = false; } } /** * Returns true if the RuntimeInstance has been successfully initialized. * * @return True if the RuntimeInstance has been successfully initialized. */ public boolean isInitialized() { return initialized; } /** * Gets the classname for the Uberspect introspection package and * instantiates an instance. */ private void initializeIntrospection() throws Exception { String rm = getString(RuntimeConstants.UBERSPECT_CLASSNAME); if (rm != null && rm.length() > 0) { Object o = null; try { o = ClassUtils.getNewInstance(rm); } catch (ClassNotFoundException cnfe) { String err = "The specified class for Uberspect (" + rm + ") does not exist or is not accessible to the current classloader."; log.error(err); throw new Exception(err); } if (!(o instanceof Uberspect)) { String err = "The specified class for Uberspect (" + rm + ") does not implement " + Uberspect.class.getName() + "; Velocity is not initialized correctly."; log.error(err); throw new Exception(err); } uberSpect = (Uberspect) o; if (uberSpect instanceof UberspectLoggable) { ((UberspectLoggable) uberSpect).setLog(getLog()); } if (uberSpect instanceof RuntimeServicesAware) { ((RuntimeServicesAware) uberSpect).setRuntimeServices(this); } uberSpect.init(); } else { /* * someone screwed up. Lets not fool around... */ String err = "It appears that no class was specified as the" + " Uberspect. Please ensure that all configuration" + " information is correct."; log.error(err); throw new Exception(err); } } /** * Initializes the Velocity Runtime with properties file. * The properties file may be in the file system proper, * or the properties file may be in the classpath. */ private void setDefaultProperties() { InputStream inputStream = null; try { inputStream = getClass().getResourceAsStream('/' + DEFAULT_RUNTIME_PROPERTIES); configuration.load(inputStream); if (log.isDebugEnabled()) { log.debug("Default Properties File: " + new File(DEFAULT_RUNTIME_PROPERTIES).getPath()); } } catch (IOException ioe) { log.error("Cannot get Velocity Runtime default properties!", ioe); } finally { try { if (inputStream != null) { inputStream.close(); } } catch (IOException ioe) { log.error("Cannot close Velocity Runtime default properties!", ioe); } } } /** * Allows an external system to set a property in * the Velocity Runtime. * * @param key property key * @param value property value */ public void setProperty(String key, Object value) { if (overridingProperties == null) { overridingProperties = new ExtendedProperties(); } overridingProperties.setProperty(key, value); } /** * Allow an external system to set an ExtendedProperties * object to use. This is useful where the external * system also uses the ExtendedProperties class and * the velocity configuration is a subset of * parent application's configuration. This is * the case with Turbine. * * @param configuration */ public void setConfiguration(ExtendedProperties configuration) { if (overridingProperties == null) { overridingProperties = configuration; } else { // Avoid possible ConcurrentModificationException if (overridingProperties != configuration) { overridingProperties.combine(configuration); } } } /** * Add a property to the configuration. If it already * exists then the value stated here will be added * to the configuration entry. For example, if * <p/> * resource.loader = file * <p/> * is already present in the configuration and you * <p/> * addProperty("resource.loader", "classpath") * <p/> * Then you will end up with a Vector like the * following: * <p/> * ["file", "classpath"] * * @param key * @param value */ public void addProperty(String key, Object value) { if (overridingProperties == null) { overridingProperties = new ExtendedProperties(); } overridingProperties.addProperty(key, value); } /** * Clear the values pertaining to a particular * property. * * @param key of property to clear */ public void clearProperty(String key) { if (overridingProperties != null) { overridingProperties.clearProperty(key); } } /** * Allows an external caller to get a property. The calling * routine is required to know the type, as this routine * will return an Object, as that is what properties can be. * * @param key property to return * @return Value of the property or null if it does not exist. */ public Object getProperty(String key) { Object o = null; /** * Before initialization, check the user-entered properties first. */ if (!initialized && !initializing && overridingProperties != null) { o = overridingProperties.get(key); } /** * After initialization, configuration will hold all properties. */ if (o == null) { o = configuration.getProperty(key); } if (o instanceof String) { return StringUtils.nullTrim((String) o); } else { return o; } } /** * Initialize Velocity properties, if the default * properties have not been laid down first then * do so. Then proceed to process any overriding * properties. Laying down the default properties * gives a much greater chance of having a * working system. */ private void initializeProperties() { /* * Always lay down the default properties first as * to provide a solid base. */ if (configuration.isInitialized() == false) { setDefaultProperties(); } if (overridingProperties != null) { configuration.combine(overridingProperties); } } /** * Initialize the Velocity Runtime with a Properties * object. * * @param p * @throws Exception When an error occurs during initialization. */ public void init(Properties p) throws Exception { overridingProperties = ExtendedProperties.convertProperties(p); init(); } /** * Initialize the Velocity Runtime with the name of * ExtendedProperties object. * * @param configurationFile * @throws Exception When an error occurs during initialization. */ public void init(String configurationFile) throws Exception { overridingProperties = new ExtendedProperties(configurationFile); init(); } private void initializeResourceManager() throws Exception { if (resourceManager == null) { throw new Exception("Required ResourceManager is missing"); } resourceManager.initialize(this); } private void initializeEventHandlers() throws Exception { eventCartridge = new EventCartridge(); /** * For each type of event handler, get the class name, instantiate it, and store it. */ String[] referenceinsertion = configuration .getStringArray(RuntimeConstants.EVENTHANDLER_REFERENCEINSERTION); if (referenceinsertion != null) { for (int i = 0; i < referenceinsertion.length; i++) { EventHandler ev = initializeSpecificEventHandler(referenceinsertion[i], RuntimeConstants.EVENTHANDLER_REFERENCEINSERTION, ReferenceInsertionEventHandler.class); if (ev != null) eventCartridge.addReferenceInsertionEventHandler((ReferenceInsertionEventHandler) ev); } } String[] nullset = configuration.getStringArray(RuntimeConstants.EVENTHANDLER_NULLSET); if (nullset != null) { for (int i = 0; i < nullset.length; i++) { EventHandler ev = initializeSpecificEventHandler(nullset[i], RuntimeConstants.EVENTHANDLER_NULLSET, NullSetEventHandler.class); if (ev != null) eventCartridge.addNullSetEventHandler((NullSetEventHandler) ev); } } String[] methodexception = configuration.getStringArray(RuntimeConstants.EVENTHANDLER_METHODEXCEPTION); if (methodexception != null) { for (int i = 0; i < methodexception.length; i++) { EventHandler ev = initializeSpecificEventHandler(methodexception[i], RuntimeConstants.EVENTHANDLER_METHODEXCEPTION, MethodExceptionEventHandler.class); if (ev != null) eventCartridge.addMethodExceptionHandler((MethodExceptionEventHandler) ev); } } String[] includeHandler = configuration.getStringArray(RuntimeConstants.EVENTHANDLER_INCLUDE); if (includeHandler != null) { for (int i = 0; i < includeHandler.length; i++) { EventHandler ev = initializeSpecificEventHandler(includeHandler[i], RuntimeConstants.EVENTHANDLER_INCLUDE, IncludeEventHandler.class); if (ev != null) eventCartridge.addIncludeEventHandler((IncludeEventHandler) ev); } } String[] invalidReferenceSet = configuration .getStringArray(RuntimeConstants.EVENTHANDLER_INVALIDREFERENCES); if (invalidReferenceSet != null) { for (int i = 0; i < invalidReferenceSet.length; i++) { EventHandler ev = initializeSpecificEventHandler(invalidReferenceSet[i], RuntimeConstants.EVENTHANDLER_INVALIDREFERENCES, InvalidReferenceEventHandler.class); if (ev != null) { eventCartridge.addInvalidReferenceEventHandler((InvalidReferenceEventHandler) ev); } } } } private EventHandler initializeSpecificEventHandler(String classname, String paramName, Class EventHandlerInterface) throws Exception { if (classname != null && classname.length() > 0) { Object o = null; try { o = ClassUtils.getNewInstance(classname); } catch (ClassNotFoundException cnfe) { String err = "The specified class for " + paramName + " (" + classname + ") does not exist or is not accessible to the current classloader."; log.error(err); throw new Exception(err); } if (!EventHandlerInterface.isAssignableFrom(EventHandlerInterface)) { String err = "The specified class for " + paramName + " (" + classname + ") does not implement " + EventHandlerInterface.getName() + "; Velocity is not initialized correctly."; log.error(err); throw new Exception(err); } EventHandler ev = (EventHandler) o; if (ev instanceof RuntimeServicesAware) ((RuntimeServicesAware) ev).setRuntimeServices(this); return ev; } else return null; } /** * Initialize the Velocity logging system. * * @throws Exception */ private void initializeLog() throws Exception { // since the Log we started with was just placeholding, // let's update it with the real LogChute settings. LogManager.updateLog(this.log, this); } /** * This methods initializes all the directives * that are used by the Velocity Runtime. The * directives to be initialized are listed in * the RUNTIME_DEFAULT_DIRECTIVES properties * file. * * @throws Exception */ private void initializeDirectives() throws Exception { /* * Initialize the runtime directive table. * This will be used for creating parsers. */ runtimeDirectives = new Hashtable(); Properties directiveProperties = new Properties(); /* * Grab the properties file with the list of directives * that we should initialize. */ InputStream inputStream = null; try { inputStream = getClass().getResourceAsStream('/' + DEFAULT_RUNTIME_DIRECTIVES); if (inputStream == null) { throw new Exception( "Error loading directive.properties! " + "Something is very wrong if these properties " + "aren't being located. Either your Velocity " + "distribution is incomplete or your Velocity " + "jar file is corrupted!"); } directiveProperties.load(inputStream); } catch (IOException ioe) { log.error("Error while loading directive properties!", ioe); } finally { try { if (inputStream != null) { inputStream.close(); } } catch (IOException ioe) { log.error("Cannot close directive properties!", ioe); } } /* * Grab all the values of the properties. These * are all class names for example: * * org.apache.velocity.runtime.directive.Foreach */ Enumeration directiveClasses = directiveProperties.elements(); while (directiveClasses.hasMoreElements()) { String directiveClass = (String) directiveClasses.nextElement(); loadDirective(directiveClass); log.debug("Loaded System Directive: " + directiveClass); } /* * now the user's directives */ String[] userdirective = configuration.getStringArray("userdirective"); for (int i = 0; i < userdirective.length; i++) { loadDirective(userdirective[i]); if (log.isInfoEnabled()) { log.info("Loaded User Directive: " + userdirective[i]); } } } /** * instantiates and loads the directive with some basic checks * * @param directiveClass classname of directive to load */ private void loadDirective(String directiveClass) { try { Object o = ClassUtils.getNewInstance(directiveClass); if (o instanceof Directive) { Directive directive = (Directive) o; runtimeDirectives.put(directive.getName(), directive); } else { log.error(directiveClass + " does not implement " + Directive.class.getName() + "; it cannot be loaded."); } } // The ugly threesome: ClassNotFoundException, // IllegalAccessException, InstantiationException. // Ignore Findbugs complaint for now. catch (Exception e) { log.error("Failed to load Directive: " + directiveClass, e); } } /** * Initializes the Velocity parser pool. */ private void initializeParserPool() throws Exception { /* * Which parser pool? */ String pp = getString(RuntimeConstants.PARSER_POOL_CLASS); if (pp != null && pp.length() > 0) { /* * if something was specified, then make one. * if that isn't a ParserPool, consider * this a huge error and throw */ Object o = null; try { o = ClassUtils.getNewInstance(pp); } catch (ClassNotFoundException cnfe) { String err = "The specified class for ParserPool (" + pp + ") does not exist (or is not accessible to the current classloader."; log.error(err); throw new Exception(err); } if (!(o instanceof ParserPool)) { String err = "The specified class for ParserPool (" + pp + ") does not implement " + ParserPool.class + " Velocity not initialized correctly."; log.error(err); throw new Exception(err); } parserPool = (ParserPool) o; parserPool.initialize(this); } else { /* * someone screwed up. Lets not fool around... */ String err = "It appears that no class was specified as the" + " ParserPool. Please ensure that all configuration" + " information is correct."; log.error(err); throw new Exception(err); } } /** * Returns a JavaCC generated Parser. * * @return Parser javacc generated parser */ public Parser createNewParser() { /* must be initialized before we use runtimeDirectives */ if (!initialized && !initializing) { log.debug("Velocity was not initialized! Calling init()..."); try { init(); } catch (Exception e) { getLog().error("Could not auto-initialize Velocity", e); throw new IllegalStateException("Velocity could not be initialized!"); } } Parser parser = new Parser(this); parser.setDirectives(runtimeDirectives); return parser; } /** * Parse the input and return the root of * AST node structure. * <br><br> * In the event that it runs out of parsers in the * pool, it will create and let them be GC'd * dynamically, logging that it has to do that. This * is considered an exceptional condition. It is * expected that the user will set the * PARSER_POOL_SIZE property appropriately for their * application. We will revisit this. * * @param reader Reader retrieved by a resource loader * @param templateName name of the template being parsed * @return A root node representing the template as an AST tree. * @throws ParseException When the template could not be parsed. */ public SimpleNode parse(Reader reader, String templateName) throws ParseException { /* * do it and dump the VM namespace for this template */ return parse(reader, templateName, true); } /** * Parse the input and return the root of the AST node structure. * * @param reader Reader retrieved by a resource loader * @param templateName name of the template being parsed * @param dumpNamespace flag to dump the Velocimacro namespace for this template * @return A root node representing the template as an AST tree. * @throws ParseException When the template could not be parsed. */ public SimpleNode parse(Reader reader, String templateName, boolean dumpNamespace) throws ParseException { /* must be initialized before using parserPool */ if (!initialized && !initializing) { log.debug("Velocity was not initialized! Calling init()..."); try { init(); } catch (Exception e) { getLog().error("Could not auto-initialize Velocity", e); throw new IllegalStateException("Velocity could not be initialized!"); } } SimpleNode ast = null; Parser parser = (Parser) parserPool.get(); if (parser == null) { /* * if we couldn't get a parser from the pool * make one and log it. */ if (log.isInfoEnabled()) { log.info("Runtime : ran out of parsers. Creating a new one. " + " Please increment the parser.pool.size property." + " The current value is too small."); } parser = createNewParser(); } /* * now, if we have a parser */ if (parser != null) { try { /* * dump namespace if we are told to. Generally, you want to * do this - you don't in special circumstances, such as * when a VM is getting init()-ed & parsed */ if (dumpNamespace) { dumpVMNamespace(templateName); } ast = parser.parse(reader, templateName); } finally { /* * put it back */ parserPool.put(parser); } } else { log.error("Runtime : ran out of parsers and unable to create more."); } return ast; } /** * Returns a <code>Template</code> from the resource manager. * This method assumes that the character encoding of the * template is set by the <code>input.encoding</code> * property. The default is "ISO-8859-1" * * @param name The file name of the desired template. * @return The template. * @throws ResourceNotFoundException if template not found * from any available source. * @throws ParseErrorException if template cannot be parsed due * to syntax (or other) error. * @throws Exception if an error occurs in template initialization */ public Template getTemplate(String name) throws ResourceNotFoundException, ParseErrorException, Exception { return getTemplate(name, getString(INPUT_ENCODING, ENCODING_DEFAULT)); } /** * Returns a <code>Template</code> from the resource manager * * @param name The name of the desired template. * @param encoding Character encoding of the template * @return The template. * @throws ResourceNotFoundException if template not found * from any available source. * @throws ParseErrorException if template cannot be parsed due * to syntax (or other) error. * @throws Exception if an error occurs in template initialization */ public Template getTemplate(String name, String encoding) throws ResourceNotFoundException, ParseErrorException, Exception { /* must be initialized before using resourceManager */ if (!initialized && !initializing) { log.info("Velocity not initialized yet. Calling init()..."); init(); } return (Template) resourceManager.getResource(name, ResourceManager.RESOURCE_TEMPLATE, encoding); } /** * Returns a static content resource from the * resource manager. Uses the current value * if INPUT_ENCODING as the character encoding. * * @param name Name of content resource to get * @return parsed ContentResource object ready for use * @throws ResourceNotFoundException if template not found * from any available source. * @throws ParseErrorException When the template could not be parsed. * @throws Exception Any other error. */ public ContentResource getContent(String name) throws ResourceNotFoundException, ParseErrorException, Exception { /* * the encoding is irrelvant as we don't do any converstion * the bytestream should be dumped to the output stream */ return getContent(name, getString(INPUT_ENCODING, ENCODING_DEFAULT)); } /** * Returns a static content resource from the * resource manager. * * @param name Name of content resource to get * @param encoding Character encoding to use * @return parsed ContentResource object ready for use * @throws ResourceNotFoundException if template not found * from any available source. * @throws ParseErrorException When the template could not be parsed. * @throws Exception Any other error. */ public ContentResource getContent(String name, String encoding) throws ResourceNotFoundException, ParseErrorException, Exception { /* must be initialized before using resourceManager */ if (!initialized && !initializing) { log.info("Velocity not initialized yet. Calling init()..."); init(); } return (ContentResource) resourceManager.getResource(name, ResourceManager.RESOURCE_CONTENT, encoding); } /** * Determines if a template exists and returns name of the loader that * provides it. This is a slightly less hokey way to support * the Velocity.resourceExists() utility method, which was broken * when per-template encoding was introduced. We can revisit this. * * @param resourceName Name of template or content resource * @return class name of loader than can provide it */ public String getLoaderNameForResource(String resourceName) { /* must be initialized before using resourceManager */ if (!initialized && !initializing) { log.debug("Velocity was not initialized! Calling init()..."); try { init(); } catch (Exception e) { getLog().error("Could not initialize Velocity", e); throw new IllegalStateException("Velocity could not be initialized!"); } } return resourceManager.getLoaderNameForResource(resourceName); } /** * Returns a convenient Log instance that wraps the current LogChute. * Use this to log error messages. It has the usual methods. * * @return A convenience Log instance that wraps the current LogChute. */ public Log getLog() { return log; } /** * @param message The message to log. * @see Log#warn(Object) * @deprecated Use getLog() and call warn() on it. */ public void warn(Object message) { getLog().warn(message); } /** * @param message The message to log. * @see Log#info(Object) * @deprecated Use getLog() and call info() on it. */ public void info(Object message) { getLog().info(message); } /** * @param message The message to log. * @see Log#error(Object) * @deprecated Use getLog() and call error() on it. */ public void error(Object message) { getLog().error(message); } /** * @param message The message to log. * @see Log#debug(Object) * @deprecated Use getLog() and call debug() on it. */ public void debug(Object message) { getLog().debug(message); } /** * String property accessor method with default to hide the * configuration implementation. * * @param key property key * @param defaultValue default value to return if key not * found in resource manager. * @return value of key or default */ public String getString(String key, String defaultValue) { return configuration.getString(key, defaultValue); } /** * Returns the appropriate VelocimacroProxy object if strVMname * is a valid current Velocimacro. * * @param vmName Name of velocimacro requested * @param templateName Name of the template that contains the velocimacro. * @return The requested VelocimacroProxy. */ public Directive getVelocimacro(String vmName, String templateName) { return vmFactory.getVelocimacro(vmName, templateName); } /** * Adds a new Velocimacro. Usually called by Macro only while parsing. * * @param name Name of velocimacro * @param macro String form of macro body * @param argArray Array of strings, containing the * #macro() arguments. the 0th is the name. * @param sourceTemplate Name of the template that contains the velocimacro. * @return True if added, false if rejected for some * reason (either parameters or permission settings) */ public boolean addVelocimacro(String name, String macro, String argArray[], String sourceTemplate) { return vmFactory.addVelocimacro(name, macro, argArray, sourceTemplate); } /** * Checks to see if a VM exists * * @param vmName Name of the Velocimacro. * @param templateName Template on which to look for the Macro. * @return True if VM by that name exists, false if not */ public boolean isVelocimacro(String vmName, String templateName) { return vmFactory.isVelocimacro(vmName, templateName); } /** * tells the vmFactory to dump the specified namespace. This is to support * clearing the VM list when in inline-VM-local-scope mode * * @param namespace Namespace to dump. * @return True if namespace was dumped successfully. */ public boolean dumpVMNamespace(String namespace) { return vmFactory.dumpVMNamespace(namespace); } /* -------------------------------------------------------------------- * R U N T I M E A C C E S S O R M E T H O D S * -------------------------------------------------------------------- * These are the getXXX() methods that are a simple wrapper * around the configuration object. This is an attempt * to make a the Velocity Runtime the single access point * for all things Velocity, and allow the Runtime to * adhere as closely as possible the the Mediator pattern * which is the ultimate goal. * -------------------------------------------------------------------- */ /** * String property accessor method to hide the configuration implementation * * @param key property key * @return value of key or null */ public String getString(String key) { return StringUtils.nullTrim(configuration.getString(key)); } /** * Int property accessor method to hide the configuration implementation. * * @param key Property key * @return value */ public int getInt(String key) { return configuration.getInt(key); } /** * Int property accessor method to hide the configuration implementation. * * @param key property key * @param defaultValue The default value. * @return value */ public int getInt(String key, int defaultValue) { return configuration.getInt(key, defaultValue); } /** * Boolean property accessor method to hide the configuration implementation. * * @param key property key * @param def The default value if property not found. * @return value of key or default value */ public boolean getBoolean(String key, boolean def) { return configuration.getBoolean(key, def); } /** * Return the velocity runtime configuration object. * * @return Configuration object which houses the Velocity runtime * properties. */ public ExtendedProperties getConfiguration() { return configuration; } /** * Return the Introspector for this instance * * @return The Introspector for this instance */ public Introspector getIntrospector() { return introspector; } /** * Returns the event handlers for the application. * * @return The event handlers for the application. */ public EventCartridge getApplicationEventCartridge() { return eventCartridge; } /** * Gets the application attribute for the given key * * @param key * @return The application attribute for the given key. */ public Object getApplicationAttribute(Object key) { return applicationAttributes.get(key); } /** * Sets the application attribute for the given key * * @param key * @param o The new application attribute. * @return The old value of this attribute or null if it hasn't been set before. */ public Object setApplicationAttribute(Object key, Object o) { return applicationAttributes.put(key, o); } /** * Returns the Uberspect object for this Instance. * * @return The Uberspect object for this Instance. */ public Uberspect getUberspect() { return uberSpect; } }