/* * 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. * */ package org.apache.tools.ant; import java.io.File; import java.io.IOException; import java.io.EOFException; import java.io.InputStream; import java.lang.reflect.Method; import java.lang.reflect.Modifier; import java.util.Collections; import java.util.Enumeration; import java.util.Hashtable; import java.util.Properties; import java.util.Stack; import java.util.Vector; import java.util.Set; import java.util.HashSet; import java.util.HashMap; import java.util.Map; import java.util.WeakHashMap; import org.apache.tools.ant.input.DefaultInputHandler; import org.apache.tools.ant.input.InputHandler; import org.apache.tools.ant.helper.DefaultExecutor; import org.apache.tools.ant.types.FilterSet; import org.apache.tools.ant.types.FilterSetCollection; import org.apache.tools.ant.types.Description; import org.apache.tools.ant.types.Path; import org.apache.tools.ant.types.Resource; import org.apache.tools.ant.types.ResourceFactory; import org.apache.tools.ant.types.resources.FileResource; import org.apache.tools.ant.util.CollectionUtils; import org.apache.tools.ant.util.FileUtils; import org.apache.tools.ant.util.JavaEnvUtils; import org.apache.tools.ant.util.StringUtils; import org.apache.tools.ant.util.VectorSet; /** * Central representation of an Ant project. This class defines an * Ant project with all of its targets, tasks and various other * properties. It also provides the mechanism to kick off a build using * a particular target name. *

* This class also encapsulates methods which allow files to be referred * to using abstract path names which are translated to native system * file paths at runtime. * */ public class Project implements ResourceFactory { /** Message priority of "error". */ public static final int MSG_ERR = 0; /** Message priority of "warning". */ public static final int MSG_WARN = 1; /** Message priority of "information". */ public static final int MSG_INFO = 2; /** Message priority of "verbose". */ public static final int MSG_VERBOSE = 3; /** Message priority of "debug". */ public static final int MSG_DEBUG = 4; /** * Constant for the "visiting" state, used when * traversing a DFS of target dependencies. */ private static final String VISITING = "VISITING"; /** * Constant for the "visited" state, used when * traversing a DFS of target dependencies. */ private static final String VISITED = "VISITED"; /** * Version constant for Java 1.0 . * * @deprecated since 1.5.x. * Use {@link JavaEnvUtils#JAVA_1_0} instead. */ public static final String JAVA_1_0 = JavaEnvUtils.JAVA_1_0; /** * Version constant for Java 1.1 . * * @deprecated since 1.5.x. * Use {@link JavaEnvUtils#JAVA_1_1} instead. */ public static final String JAVA_1_1 = JavaEnvUtils.JAVA_1_1; /** * Version constant for Java 1.2 . * * @deprecated since 1.5.x. * Use {@link JavaEnvUtils#JAVA_1_2} instead. */ public static final String JAVA_1_2 = JavaEnvUtils.JAVA_1_2; /** * Version constant for Java 1.3 . * * @deprecated since 1.5.x. * Use {@link JavaEnvUtils#JAVA_1_3} instead. */ public static final String JAVA_1_3 = JavaEnvUtils.JAVA_1_3; /** * Version constant for Java 1.4 . * * @deprecated since 1.5.x. * Use {@link JavaEnvUtils#JAVA_1_4} instead. */ public static final String JAVA_1_4 = JavaEnvUtils.JAVA_1_4; /** Default filter start token. */ public static final String TOKEN_START = FilterSet.DEFAULT_TOKEN_START; /** Default filter end token. */ public static final String TOKEN_END = FilterSet.DEFAULT_TOKEN_END; /** Instance of a utility class to use for file operations. */ private static final FileUtils FILE_UTILS = FileUtils.getFileUtils(); /** Name of this project. */ private String name; /** Description for this project (if any). */ private String description; /** Map of references within the project (paths etc) (String to Object). */ private Hashtable references = new AntRefTable(); /** Map of id references - used for indicating broken build files */ private HashMap idReferences = new HashMap(); /** Name of the project's default target. */ private String defaultTarget; /** Map from target names to targets (String to Target). */ private Hashtable targets = new Hashtable(); /** Set of global filters. */ private FilterSet globalFilterSet = new FilterSet(); { // Initialize the globalFileSet's project globalFilterSet.setProject(this); } /** * Wrapper around globalFilterSet. This collection only ever * contains one FilterSet, but the wrapper is needed in order to * make it easier to use the FileUtils interface. */ private FilterSetCollection globalFilters = new FilterSetCollection(globalFilterSet); /** Project base directory. */ private File baseDir; /** lock object used when adding/removing listeners */ private final Object listenersLock = new Object(); /** List of listeners to notify of build events. */ private volatile BuildListener[] listeners = new BuildListener[0]; /** for each thread, record whether it is currently executing messageLogged */ private final ThreadLocal isLoggingMessage = new ThreadLocal() { protected Boolean initialValue() { return Boolean.FALSE; } }; /** * The Ant core classloader--may be null if using * parent classloader. */ private ClassLoader coreLoader = null; /** Records the latest task to be executed on a thread. */ private final Map threadTasks = Collections.synchronizedMap(new WeakHashMap()); /** Records the latest task to be executed on a thread group. */ private final Map threadGroupTasks = Collections.synchronizedMap(new WeakHashMap()); /** * Called to handle any input requests. */ private InputHandler inputHandler = null; /** * The default input stream used to read any input. */ private InputStream defaultInputStream = null; /** * Keep going flag. */ private boolean keepGoingMode = false; /** * Set the input handler. * * @param handler the InputHandler instance to use for gathering input. */ public void setInputHandler(InputHandler handler) { inputHandler = handler; } /** * Set the default System input stream. Normally this stream is set to * System.in. This inputStream is used when no task input redirection is * being performed. * * @param defaultInputStream the default input stream to use when input * is requested. * @since Ant 1.6 */ public void setDefaultInputStream(InputStream defaultInputStream) { this.defaultInputStream = defaultInputStream; } /** * Get this project's input stream. * * @return the InputStream instance in use by this Project instance to * read input. */ public InputStream getDefaultInputStream() { return defaultInputStream; } /** * Retrieve the current input handler. * * @return the InputHandler instance currently in place for the project * instance. */ public InputHandler getInputHandler() { return inputHandler; } /** * Create a new Ant project. */ public Project() { inputHandler = new DefaultInputHandler(); } /** * Create and initialize a subproject. By default the subproject will be of * the same type as its parent. If a no-arg constructor is unavailable, the * Project class will be used. * @return a Project instance configured as a subproject of this Project. * @since Ant 1.7 */ public Project createSubProject() { Project subProject = null; try { subProject = (Project) (getClass().newInstance()); } catch (Exception e) { subProject = new Project(); } initSubProject(subProject); return subProject; } /** * Initialize a subproject. * @param subProject the subproject to initialize. */ public void initSubProject(Project subProject) { ComponentHelper.getComponentHelper(subProject) .initSubProject(ComponentHelper.getComponentHelper(this)); subProject.setDefaultInputStream(getDefaultInputStream()); subProject.setKeepGoingMode(this.isKeepGoingMode()); subProject.setExecutor(getExecutor().getSubProjectExecutor()); } /** * Initialise the project. * * This involves setting the default task definitions and loading the * system properties. * * @exception BuildException if the default task list cannot be loaded. */ public void init() throws BuildException { initProperties(); ComponentHelper.getComponentHelper(this).initDefaultDefinitions(); } /** * Initializes the properties. * @exception BuildException if an vital property could not be set. * @since Ant 1.7 */ public void initProperties() throws BuildException { setJavaVersionProperty(); setSystemProperties(); setPropertyInternal(MagicNames.ANT_VERSION, Main.getAntVersion()); setAntLib(); } /** * Set a property to the location of ant.jar. * Use the locator to find the location of the Project.class, and * if this is not null, set the property {@link MagicNames#ANT_LIB} * to the result */ private void setAntLib() { File antlib = org.apache.tools.ant.launch.Locator.getClassSource( Project.class); if (antlib != null) { setPropertyInternal(MagicNames.ANT_LIB, antlib.getAbsolutePath()); } } /** * Factory method to create a class loader for loading classes from * a given path. * * @param path the path from which classes are to be loaded. * * @return an appropriate classloader. */ public AntClassLoader createClassLoader(Path path) { return AntClassLoader .newAntClassLoader(getClass().getClassLoader(), this, path, true); } /** * Factory method to create a class loader for loading classes from * a given path. * * @param parent the parent classloader for the new loader. * @param path the path from which classes are to be loaded. * * @return an appropriate classloader. */ public AntClassLoader createClassLoader( ClassLoader parent, Path path) { return AntClassLoader.newAntClassLoader(parent, this, path, true); } /** * Set the core classloader for the project. If a null * classloader is specified, the parent classloader should be used. * * @param coreLoader The classloader to use for the project. * May be null. */ public void setCoreLoader(ClassLoader coreLoader) { this.coreLoader = coreLoader; } /** * Return the core classloader to use for this project. * This may be null, indicating that * the parent classloader should be used. * * @return the core classloader to use for this project. * */ public ClassLoader getCoreLoader() { return coreLoader; } /** * Add a build listener to the list. This listener will * be notified of build events for this project. * * @param listener The listener to add to the list. * Must not be null. */ public void addBuildListener(BuildListener listener) { synchronized (listenersLock) { // If the listeners already has this listener, do nothing for (int i = 0; i < listeners.length; i++) { if (listeners[i] == listener) { return; } } // copy on write semantics BuildListener[] newListeners = new BuildListener[listeners.length + 1]; System.arraycopy(listeners, 0, newListeners, 0, listeners.length); newListeners[listeners.length] = listener; listeners = newListeners; } } /** * Remove a build listener from the list. This listener * will no longer be notified of build events for this project. * * @param listener The listener to remove from the list. * Should not be null. */ public void removeBuildListener(BuildListener listener) { synchronized (listenersLock) { // copy on write semantics for (int i = 0; i < listeners.length; i++) { if (listeners[i] == listener) { BuildListener[] newListeners = new BuildListener[listeners.length - 1]; System.arraycopy(listeners, 0, newListeners, 0, i); System.arraycopy(listeners, i + 1, newListeners, i, listeners.length - i - 1); listeners = newListeners; break; } } } } /** * Return a copy of the list of build listeners for the project. * * @return a list of build listeners for the project */ public Vector getBuildListeners() { synchronized (listenersLock) { Vector r = new Vector(listeners.length); for (int i = 0; i < listeners.length; i++) { r.add(listeners[i]); } return r; } } /** * Write a message to the log with the default log level * of MSG_INFO . * @param message The text to log. Should not be null. */ public void log(String message) { log(message, MSG_INFO); } /** * Write a project level message to the log with the given log level. * @param message The text to log. Should not be null. * @param msgLevel The log priority level to use. */ public void log(String message, int msgLevel) { log(message, null, msgLevel); } /** * Write a project level message to the log with the given log level. * @param message The text to log. Should not be null. * @param throwable The exception causing this log, may be null. * @param msgLevel The log priority level to use. * @since 1.7 */ public void log(String message, Throwable throwable, int msgLevel) { fireMessageLogged(this, message, throwable, msgLevel); } /** * Write a task level message to the log with the given log level. * @param task The task to use in the log. Must not be null. * @param message The text to log. Should not be null. * @param msgLevel The log priority level to use. */ public void log(Task task, String message, int msgLevel) { fireMessageLogged(task, message, null, msgLevel); } /** * Write a task level message to the log with the given log level. * @param task The task to use in the log. Must not be null. * @param message The text to log. Should not be null. * @param throwable The exception causing this log, may be null. * @param msgLevel The log priority level to use. * @since 1.7 */ public void log(Task task, String message, Throwable throwable, int msgLevel) { fireMessageLogged(task, message, throwable, msgLevel); } /** * Write a target level message to the log with the given log level. * @param target The target to use in the log. * Must not be null. * @param message The text to log. Should not be null. * @param msgLevel The log priority level to use. */ public void log(Target target, String message, int msgLevel) { log(target, message, null, msgLevel); } /** * Write a target level message to the log with the given log level. * @param target The target to use in the log. * Must not be null. * @param message The text to log. Should not be null. * @param throwable The exception causing this log, may be null. * @param msgLevel The log priority level to use. * @since 1.7 */ public void log(Target target, String message, Throwable throwable, int msgLevel) { fireMessageLogged(target, message, throwable, msgLevel); } /** * Return the set of global filters. * * @return the set of global filters. */ public FilterSet getGlobalFilterSet() { return globalFilterSet; } /** * Set a property. Any existing property of the same name * is overwritten, unless it is a user property. * @param name The name of property to set. * Must not be null. * @param value The new value of the property. * Must not be null. */ public void setProperty(String name, String value) { PropertyHelper.getPropertyHelper(this).setProperty(name, value, true); } /** * Set a property if no value currently exists. If the property * exists already, a message is logged and the method returns with * no other effect. * * @param name The name of property to set. * Must not be null. * @param value The new value of the property. * Must not be null. * @since 1.5 */ public void setNewProperty(String name, String value) { PropertyHelper.getPropertyHelper(this).setNewProperty(name, value); } /** * Set a user property, which cannot be overwritten by * set/unset property calls. Any previous value is overwritten. * @param name The name of property to set. * Must not be null. * @param value The new value of the property. * Must not be null. * @see #setProperty(String,String) */ public void setUserProperty(String name, String value) { PropertyHelper.getPropertyHelper(this).setUserProperty(name, value); } /** * Set a user property, which cannot be overwritten by set/unset * property calls. Any previous value is overwritten. Also marks * these properties as properties that have not come from the * command line. * * @param name The name of property to set. * Must not be null. * @param value The new value of the property. * Must not be null. * @see #setProperty(String,String) */ public void setInheritedProperty(String name, String value) { PropertyHelper.getPropertyHelper(this).setInheritedProperty(name, value); } /** * Set a property unless it is already defined as a user property * (in which case the method returns silently). * * @param name The name of the property. * Must not be null. * @param value The property value. Must not be null. */ private void setPropertyInternal(String name, String value) { PropertyHelper.getPropertyHelper(this).setProperty(name, value, false); } /** * Return the value of a property, if it is set. * * @param propertyName The name of the property. * May be null, in which case * the return value is also null. * @return the property value, or null for no match * or if a null name is provided. */ public String getProperty(String propertyName) { Object value = PropertyHelper.getPropertyHelper(this).getProperty(propertyName); return value == null ? null : String.valueOf(value); } /** * Replace ${} style constructions in the given value with the * string value of the corresponding data types. * * @param value The string to be scanned for property references. * May be null. * * @return the given string with embedded property names replaced * by values, or null if the given string is * null. * * @exception BuildException if the given value has an unclosed * property name, e.g. ${xxx. */ public String replaceProperties(String value) throws BuildException { return PropertyHelper.getPropertyHelper(this).replaceProperties(null, value, null); } /** * Return the value of a user property, if it is set. * * @param propertyName The name of the property. * May be null, in which case * the return value is also null. * @return the property value, or null for no match * or if a null name is provided. */ public String getUserProperty(String propertyName) { return (String) PropertyHelper.getPropertyHelper(this).getUserProperty(propertyName); } /** * Return a copy of the properties table. * @return a hashtable containing all properties * (including user properties). */ public Hashtable getProperties() { return PropertyHelper.getPropertyHelper(this).getProperties(); } /** * Return a copy of the user property hashtable. * @return a hashtable containing just the user properties. */ public Hashtable getUserProperties() { return PropertyHelper.getPropertyHelper(this).getUserProperties(); } /** * Return a copy of the inherited property hashtable. * @return a hashtable containing just the inherited properties. * @since Ant 1.8.0 */ public Hashtable getInheritedProperties() { return PropertyHelper.getPropertyHelper(this).getInheritedProperties(); } /** * Copy all user properties that have been set on the command * line or a GUI tool from this instance to the Project instance * given as the argument. * *

To copy all "user" properties, you will also have to call * {@link #copyInheritedProperties copyInheritedProperties}.

* * @param other the project to copy the properties to. Must not be null. * * @since Ant 1.5 */ public void copyUserProperties(Project other) { PropertyHelper.getPropertyHelper(this).copyUserProperties(other); } /** * Copy all user properties that have not been set on the * command line or a GUI tool from this instance to the Project * instance given as the argument. * *

To copy all "user" properties, you will also have to call * {@link #copyUserProperties copyUserProperties}.

* * @param other the project to copy the properties to. Must not be null. * * @since Ant 1.5 */ public void copyInheritedProperties(Project other) { PropertyHelper.getPropertyHelper(this).copyInheritedProperties(other); } /** * Set the default target of the project. * * @param defaultTarget The name of the default target for this project. * May be null, indicating that there is * no default target. * * @deprecated since 1.5.x. * Use setDefault. * @see #setDefault(String) */ public void setDefaultTarget(String defaultTarget) { setDefault(defaultTarget); } /** * Return the name of the default target of the project. * @return name of the default target or * null if no default has been set. */ public String getDefaultTarget() { return defaultTarget; } /** * Set the default target of the project. * * @param defaultTarget The name of the default target for this project. * May be null, indicating that there is * no default target. */ public void setDefault(String defaultTarget) { if (defaultTarget != null) { setUserProperty(MagicNames.PROJECT_DEFAULT_TARGET, defaultTarget); } this.defaultTarget = defaultTarget; } /** * Set the name of the project, also setting the user * property ant.project.name. * * @param name The name of the project. * Must not be null. */ public void setName(String name) { setUserProperty(MagicNames.PROJECT_NAME, name); this.name = name; } /** * Return the project name, if one has been set. * * @return the project name, or null if it hasn't been set. */ public String getName() { return name; } /** * Set the project description. * * @param description The description of the project. * May be null. */ public void setDescription(String description) { this.description = description; } /** * Return the project description, if one has been set. * * @return the project description, or null if it hasn't * been set. */ public String getDescription() { if (description == null) { description = Description.getDescription(this); } return description; } /** * Add a filter to the set of global filters. * * @param token The token to filter. * Must not be null. * @param value The replacement value. * Must not be null. * @deprecated since 1.4.x. * Use getGlobalFilterSet().addFilter(token,value) * * @see #getGlobalFilterSet() * @see FilterSet#addFilter(String,String) */ public void addFilter(String token, String value) { if (token == null) { return; } globalFilterSet.addFilter(new FilterSet.Filter(token, value)); } /** * Return a hashtable of global filters, mapping tokens to values. * * @return a hashtable of global filters, mapping tokens to values * (String to String). * * @deprecated since 1.4.x * Use getGlobalFilterSet().getFilterHash(). * * @see #getGlobalFilterSet() * @see FilterSet#getFilterHash() */ public Hashtable getFilters() { // we need to build the hashtable dynamically return globalFilterSet.getFilterHash(); } /** * Set the base directory for the project, checking that * the given filename exists and is a directory. * * @param baseD The project base directory. * Must not be null. * * @exception BuildException if the directory if invalid. */ public void setBasedir(String baseD) throws BuildException { setBaseDir(new File(baseD)); } /** * Set the base directory for the project, checking that * the given file exists and is a directory. * * @param baseDir The project base directory. * Must not be null. * @exception BuildException if the specified file doesn't exist or * isn't a directory. */ public void setBaseDir(File baseDir) throws BuildException { baseDir = FILE_UTILS.normalize(baseDir.getAbsolutePath()); if (!baseDir.exists()) { throw new BuildException("Basedir " + baseDir.getAbsolutePath() + " does not exist"); } if (!baseDir.isDirectory()) { throw new BuildException("Basedir " + baseDir.getAbsolutePath() + " is not a directory"); } this.baseDir = baseDir; setPropertyInternal(MagicNames.PROJECT_BASEDIR, this.baseDir.getPath()); String msg = "Project base dir set to: " + this.baseDir; log(msg, MSG_VERBOSE); } /** * Return the base directory of the project as a file object. * * @return the project base directory, or null if the * base directory has not been successfully set to a valid value. */ public File getBaseDir() { if (baseDir == null) { try { setBasedir("."); } catch (BuildException ex) { ex.printStackTrace(); } } return baseDir; } /** * Set "keep-going" mode. In this mode Ant will try to execute * as many targets as possible. All targets that do not depend * on failed target(s) will be executed. If the keepGoing settor/getter * methods are used in conjunction with the ant.executor.class * property, they will have no effect. * @param keepGoingMode "keep-going" mode * @since Ant 1.6 */ public void setKeepGoingMode(boolean keepGoingMode) { this.keepGoingMode = keepGoingMode; } /** * Return the keep-going mode. If the keepGoing settor/getter * methods are used in conjunction with the ant.executor.class * property, they will have no effect. * @return "keep-going" mode * @since Ant 1.6 */ public boolean isKeepGoingMode() { return this.keepGoingMode; } /** * Return the version of Java this class is running under. * @return the version of Java as a String, e.g. "1.1" . * @see org.apache.tools.ant.util.JavaEnvUtils#getJavaVersion * @deprecated since 1.5.x. * Use org.apache.tools.ant.util.JavaEnvUtils instead. */ public static String getJavaVersion() { return JavaEnvUtils.getJavaVersion(); } /** * Set the ant.java.version property and tests for * unsupported JVM versions. If the version is supported, * verbose log messages are generated to record the Java version * and operating system name. * * @exception BuildException if this Java version is not supported. * * @see org.apache.tools.ant.util.JavaEnvUtils#getJavaVersion */ public void setJavaVersionProperty() throws BuildException { String javaVersion = JavaEnvUtils.getJavaVersion(); setPropertyInternal(MagicNames.ANT_JAVA_VERSION, javaVersion); // sanity check if (!JavaEnvUtils.isAtLeastJavaVersion(JavaEnvUtils.JAVA_1_4)) { throw new BuildException("Ant cannot work on Java prior to 1.4"); } log("Detected Java version: " + javaVersion + " in: " + System.getProperty("java.home"), MSG_VERBOSE); log("Detected OS: " + System.getProperty("os.name"), MSG_VERBOSE); } /** * Add all system properties which aren't already defined as * user properties to the project properties. */ public void setSystemProperties() { Properties systemP = System.getProperties(); Enumeration e = systemP.propertyNames(); while (e.hasMoreElements()) { String propertyName = (String) e.nextElement(); String value = systemP.getProperty(propertyName); if (value != null) { this.setPropertyInternal(propertyName, value); } } } /** * Add a new task definition to the project. * Attempting to override an existing definition with an * equivalent one (i.e. with the same classname) results in * a verbose log message. Attempting to override an existing definition * with a different one results in a warning log message and * invalidates any tasks which have already been created with the * old definition. * * @param taskName The name of the task to add. * Must not be null. * @param taskClass The full name of the class implementing the task. * Must not be null. * * @exception BuildException if the class is unsuitable for being an Ant * task. An error level message is logged before * this exception is thrown. * * @see #checkTaskClass(Class) */ public void addTaskDefinition(String taskName, Class taskClass) throws BuildException { ComponentHelper.getComponentHelper(this).addTaskDefinition(taskName, taskClass); } /** * Check whether or not a class is suitable for serving as Ant task. * Ant task implementation classes must be public, concrete, and have * a no-arg constructor. * * @param taskClass The class to be checked. * Must not be null. * * @exception BuildException if the class is unsuitable for being an Ant * task. An error level message is logged before * this exception is thrown. */ public void checkTaskClass(final Class taskClass) throws BuildException { ComponentHelper.getComponentHelper(this).checkTaskClass(taskClass); if (!Modifier.isPublic(taskClass.getModifiers())) { final String message = taskClass + " is not public"; log(message, Project.MSG_ERR); throw new BuildException(message); } if (Modifier.isAbstract(taskClass.getModifiers())) { final String message = taskClass + " is abstract"; log(message, Project.MSG_ERR); throw new BuildException(message); } try { taskClass.getConstructor(); // don't have to check for public, since // getConstructor finds public constructors only. } catch (NoSuchMethodException e) { final String message = "No public no-arg constructor in " + taskClass; log(message, Project.MSG_ERR); throw new BuildException(message); } catch (LinkageError e) { String message = "Could not load " + taskClass + ": " + e; log(message, Project.MSG_ERR); throw new BuildException(message, e); } if (!Task.class.isAssignableFrom(taskClass)) { TaskAdapter.checkTaskClass(taskClass, this); } } /** * Return the current task definition hashtable. The returned hashtable is * "live" and so should not be modified. * * @return a map of from task name to implementing class * (String to Class). */ public Hashtable> getTaskDefinitions() { return ComponentHelper.getComponentHelper(this).getTaskDefinitions(); } /** * Return the current task definition map. The returned map is a * copy of the "live" definitions. * * @return a map of from task name to implementing class * (String to Class). * * @since Ant 1.8.1 */ public Map> getCopyOfTaskDefinitions() { return new HashMap>(getTaskDefinitions()); } /** * Add a new datatype definition. * Attempting to override an existing definition with an * equivalent one (i.e. with the same classname) results in * a verbose log message. Attempting to override an existing definition * with a different one results in a warning log message, but the * definition is changed. * * @param typeName The name of the datatype. * Must not be null. * @param typeClass The full name of the class implementing the datatype. * Must not be null. */ public void addDataTypeDefinition(String typeName, Class typeClass) { ComponentHelper.getComponentHelper(this).addDataTypeDefinition(typeName, typeClass); } /** * Return the current datatype definition hashtable. The returned * hashtable is "live" and so should not be modified. * * @return a map of from datatype name to implementing class * (String to Class). */ public Hashtable> getDataTypeDefinitions() { return ComponentHelper.getComponentHelper(this).getDataTypeDefinitions(); } /** * Return the current datatype definition map. The returned * map is a copy pf the "live" definitions. * * @return a map of from datatype name to implementing class * (String to Class). * * @since Ant 1.8.1 */ public Map> getCopyOfDataTypeDefinitions() { return new HashMap>(getDataTypeDefinitions()); } /** * Add a new target to the project. * * @param target The target to be added to the project. * Must not be null. * * @exception BuildException if the target already exists in the project * * @see Project#addOrReplaceTarget(Target) */ public void addTarget(Target target) throws BuildException { addTarget(target.getName(), target); } /** * Add a new target to the project. * * @param targetName The name to use for the target. * Must not be null. * @param target The target to be added to the project. * Must not be null. * * @exception BuildException if the target already exists in the project. * * @see Project#addOrReplaceTarget(String, Target) */ public void addTarget(String targetName, Target target) throws BuildException { if (targets.get(targetName) != null) { throw new BuildException("Duplicate target: `" + targetName + "'"); } addOrReplaceTarget(targetName, target); } /** * Add a target to the project, or replaces one with the same * name. * * @param target The target to be added or replaced in the project. * Must not be null. */ public void addOrReplaceTarget(Target target) { addOrReplaceTarget(target.getName(), target); } /** * Add a target to the project, or replaces one with the same * name. * * @param targetName The name to use for the target. * Must not be null. * @param target The target to be added or replaced in the project. * Must not be null. */ public void addOrReplaceTarget(String targetName, Target target) { String msg = " +Target: " + targetName; log(msg, MSG_DEBUG); target.setProject(this); targets.put(targetName, target); } /** * Return the hashtable of targets. The returned hashtable * is "live" and so should not be modified. * @return a map from name to target (String to Target). */ public Hashtable getTargets() { return targets; } /** * Return the map of targets. The returned map * is a copy of the "live" targets. * @return a map from name to target (String to Target). * @since Ant 1.8.1 */ public Map getCopyOfTargets() { return new HashMap(targets); } /** * Create a new instance of a task, adding it to a list of * created tasks for later invalidation. This causes all tasks * to be remembered until the containing project is removed * @param taskType The name of the task to create an instance of. * Must not be null. * * @return an instance of the specified task, or null if * the task name is not recognised. * * @exception BuildException if the task name is recognised but task * creation fails. */ public Task createTask(String taskType) throws BuildException { return ComponentHelper.getComponentHelper(this).createTask(taskType); } /** * Create a new instance of a data type. * * @param typeName The name of the data type to create an instance of. * Must not be null. * * @return an instance of the specified data type, or null if * the data type name is not recognised. * * @exception BuildException if the data type name is recognised but * instance creation fails. */ public Object createDataType(String typeName) throws BuildException { return ComponentHelper.getComponentHelper(this).createDataType(typeName); } /** * Set the Executor instance for this Project. * @param e the Executor to use. */ public void setExecutor(Executor e) { addReference(MagicNames.ANT_EXECUTOR_REFERENCE, e); } /** * Get this Project's Executor (setting it if necessary). * @return an Executor instance. */ public Executor getExecutor() { Object o = getReference(MagicNames.ANT_EXECUTOR_REFERENCE); if (o == null) { String classname = getProperty(MagicNames.ANT_EXECUTOR_CLASSNAME); if (classname == null) { classname = DefaultExecutor.class.getName(); } log("Attempting to create object of type " + classname, MSG_DEBUG); try { o = Class.forName(classname, true, coreLoader).newInstance(); } catch (ClassNotFoundException seaEnEfEx) { //try the current classloader try { o = Class.forName(classname).newInstance(); } catch (Exception ex) { log(ex.toString(), MSG_ERR); } } catch (Exception ex) { log(ex.toString(), MSG_ERR); } if (o == null) { throw new BuildException( "Unable to obtain a Target Executor instance."); } setExecutor((Executor) o); } return (Executor) o; } /** * Execute the specified sequence of targets, and the targets * they depend on. * * @param names A vector of target name strings to execute. * Must not be null. * * @exception BuildException if the build failed. */ public void executeTargets(Vector names) throws BuildException { setUserProperty(MagicNames.PROJECT_INVOKED_TARGETS, CollectionUtils.flattenToString(names)); getExecutor().executeTargets(this, names.toArray(new String[names.size()])); } /** * Demultiplex output so that each task receives the appropriate * messages. If the current thread is not currently executing a task, * the message is logged directly. * * @param output Message to handle. Should not be null. * @param isWarning Whether the text represents an warning (true) * or information (false). */ public void demuxOutput(String output, boolean isWarning) { Task task = getThreadTask(Thread.currentThread()); if (task == null) { log(output, isWarning ? MSG_WARN : MSG_INFO); } else { if (isWarning) { task.handleErrorOutput(output); } else { task.handleOutput(output); } } } /** * Read data from the default input stream. If no default has been * specified, System.in is used. * * @param buffer the buffer into which data is to be read. * @param offset the offset into the buffer at which data is stored. * @param length the amount of data to read. * * @return the number of bytes read. * * @exception IOException if the data cannot be read. * @since Ant 1.6 */ public int defaultInput(byte[] buffer, int offset, int length) throws IOException { if (defaultInputStream != null) { System.out.flush(); return defaultInputStream.read(buffer, offset, length); } else { throw new EOFException("No input provided for project"); } } /** * Demux an input request to the correct task. * * @param buffer the buffer into which data is to be read. * @param offset the offset into the buffer at which data is stored. * @param length the amount of data to read. * * @return the number of bytes read. * * @exception IOException if the data cannot be read. * @since Ant 1.6 */ public int demuxInput(byte[] buffer, int offset, int length) throws IOException { Task task = getThreadTask(Thread.currentThread()); if (task == null) { return defaultInput(buffer, offset, length); } else { return task.handleInput(buffer, offset, length); } } /** * Demultiplex flush operations so that each task receives the appropriate * messages. If the current thread is not currently executing a task, * the message is logged directly. * * @since Ant 1.5.2 * * @param output Message to handle. Should not be null. * @param isError Whether the text represents an error (true) * or information (false). */ public void demuxFlush(String output, boolean isError) { Task task = getThreadTask(Thread.currentThread()); if (task == null) { fireMessageLogged(this, output, isError ? MSG_ERR : MSG_INFO); } else { if (isError) { task.handleErrorFlush(output); } else { task.handleFlush(output); } } } /** * Execute the specified target and any targets it depends on. * * @param targetName The name of the target to execute. * Must not be null. * * @exception BuildException if the build failed. */ public void executeTarget(String targetName) throws BuildException { // sanity check ourselves, if we've been asked to build nothing // then we should complain if (targetName == null) { String msg = "No target specified"; throw new BuildException(msg); } // Sort and run the dependency tree. // Sorting checks if all the targets (and dependencies) // exist, and if there is any cycle in the dependency // graph. executeSortedTargets(topoSort(targetName, targets, false)); } /** * Execute a Vector of sorted targets. * @param sortedTargets the aforementioned Vector. * @throws BuildException on error. */ public void executeSortedTargets(Vector sortedTargets) throws BuildException { Set succeededTargets = new HashSet(); BuildException buildException = null; // first build exception for (Target curtarget : sortedTargets) { boolean canExecute = true; for (Enumeration depIter = curtarget.getDependencies(); depIter.hasMoreElements();) { String dependencyName = depIter.nextElement(); if (!succeededTargets.contains(dependencyName)) { canExecute = false; log(curtarget, "Cannot execute '" + curtarget.getName() + "' - '" + dependencyName + "' failed or was not executed.", MSG_ERR); break; } } if (canExecute) { Throwable thrownException = null; try { curtarget.performTasks(); succeededTargets.add(curtarget.getName()); } catch (RuntimeException ex) { if (!(keepGoingMode)) { throw ex; // throw further } thrownException = ex; } catch (Throwable ex) { if (!(keepGoingMode)) { throw new BuildException(ex); } thrownException = ex; } if (thrownException != null) { if (thrownException instanceof BuildException) { log(curtarget, "Target '" + curtarget.getName() + "' failed with message '" + thrownException.getMessage() + "'.", MSG_ERR); // only the first build exception is reported if (buildException == null) { buildException = (BuildException) thrownException; } } else { log(curtarget, "Target '" + curtarget.getName() + "' failed with message '" + thrownException.getMessage() + "'.", MSG_ERR); thrownException.printStackTrace(System.err); if (buildException == null) { buildException = new BuildException(thrownException); } } } } } if (buildException != null) { throw buildException; } } /** * Return the canonical form of a filename. *

* If the specified file name is relative it is resolved * with respect to the given root directory. * * @param fileName The name of the file to resolve. * Must not be null. * * @param rootDir The directory respective to which relative file names * are resolved. May be null, in which case * the current directory is used. * * @return the resolved File. * * @deprecated since 1.4.x */ public File resolveFile(String fileName, File rootDir) { return FILE_UTILS.resolveFile(rootDir, fileName); } /** * Return the canonical form of a filename. *

* If the specified file name is relative it is resolved * with respect to the project's base directory. * * @param fileName The name of the file to resolve. * Must not be null. * * @return the resolved File. * */ public File resolveFile(String fileName) { return FILE_UTILS.resolveFile(baseDir, fileName); } /** * Translate a path into its native (platform specific) format. *

* This method uses PathTokenizer to separate the input path * into its components. This handles DOS style paths in a relatively * sensible way. The file separators are then converted to their platform * specific versions. * * @param toProcess The path to be translated. * May be null. * * @return the native version of the specified path or * an empty string if the path is null or empty. * * @deprecated since 1.7 * Use FileUtils.translatePath instead. * * @see PathTokenizer */ public static String translatePath(String toProcess) { return FileUtils.translatePath(toProcess); } /** * Convenience method to copy a file from a source to a destination. * No filtering is performed. * * @param sourceFile Name of file to copy from. * Must not be null. * @param destFile Name of file to copy to. * Must not be null. * * @exception IOException if the copying fails. * * @deprecated since 1.4.x */ public void copyFile(String sourceFile, String destFile) throws IOException { FILE_UTILS.copyFile(sourceFile, destFile); } /** * Convenience method to copy a file from a source to a destination * specifying if token filtering should be used. * * @param sourceFile Name of file to copy from. * Must not be null. * @param destFile Name of file to copy to. * Must not be null. * @param filtering Whether or not token filtering should be used during * the copy. * * @exception IOException if the copying fails. * * @deprecated since 1.4.x */ public void copyFile(String sourceFile, String destFile, boolean filtering) throws IOException { FILE_UTILS.copyFile(sourceFile, destFile, filtering ? globalFilters : null); } /** * Convenience method to copy a file from a source to a * destination specifying if token filtering should be used and if * source files may overwrite newer destination files. * * @param sourceFile Name of file to copy from. * Must not be null. * @param destFile Name of file to copy to. * Must not be null. * @param filtering Whether or not token filtering should be used during * the copy. * @param overwrite Whether or not the destination file should be * overwritten if it already exists. * * @exception IOException if the copying fails. * * @deprecated since 1.4.x */ public void copyFile(String sourceFile, String destFile, boolean filtering, boolean overwrite) throws IOException { FILE_UTILS.copyFile(sourceFile, destFile, filtering ? globalFilters : null, overwrite); } /** * Convenience method to copy a file from a source to a * destination specifying if token filtering should be used, if * source files may overwrite newer destination files, and if the * last modified time of the resulting file should be set to * that of the source file. * * @param sourceFile Name of file to copy from. * Must not be null. * @param destFile Name of file to copy to. * Must not be null. * @param filtering Whether or not token filtering should be used during * the copy. * @param overwrite Whether or not the destination file should be * overwritten if it already exists. * @param preserveLastModified Whether or not the last modified time of * the resulting file should be set to that * of the source file. * * @exception IOException if the copying fails. * * @deprecated since 1.4.x */ public void copyFile(String sourceFile, String destFile, boolean filtering, boolean overwrite, boolean preserveLastModified) throws IOException { FILE_UTILS.copyFile(sourceFile, destFile, filtering ? globalFilters : null, overwrite, preserveLastModified); } /** * Convenience method to copy a file from a source to a destination. * No filtering is performed. * * @param sourceFile File to copy from. * Must not be null. * @param destFile File to copy to. * Must not be null. * * @exception IOException if the copying fails. * * @deprecated since 1.4.x */ public void copyFile(File sourceFile, File destFile) throws IOException { FILE_UTILS.copyFile(sourceFile, destFile); } /** * Convenience method to copy a file from a source to a destination * specifying if token filtering should be used. * * @param sourceFile File to copy from. * Must not be null. * @param destFile File to copy to. * Must not be null. * @param filtering Whether or not token filtering should be used during * the copy. * * @exception IOException if the copying fails. * * @deprecated since 1.4.x */ public void copyFile(File sourceFile, File destFile, boolean filtering) throws IOException { FILE_UTILS.copyFile(sourceFile, destFile, filtering ? globalFilters : null); } /** * Convenience method to copy a file from a source to a * destination specifying if token filtering should be used and if * source files may overwrite newer destination files. * * @param sourceFile File to copy from. * Must not be null. * @param destFile File to copy to. * Must not be null. * @param filtering Whether or not token filtering should be used during * the copy. * @param overwrite Whether or not the destination file should be * overwritten if it already exists. * * @exception IOException if the file cannot be copied. * * @deprecated since 1.4.x */ public void copyFile(File sourceFile, File destFile, boolean filtering, boolean overwrite) throws IOException { FILE_UTILS.copyFile(sourceFile, destFile, filtering ? globalFilters : null, overwrite); } /** * Convenience method to copy a file from a source to a * destination specifying if token filtering should be used, if * source files may overwrite newer destination files, and if the * last modified time of the resulting file should be set to * that of the source file. * * @param sourceFile File to copy from. * Must not be null. * @param destFile File to copy to. * Must not be null. * @param filtering Whether or not token filtering should be used during * the copy. * @param overwrite Whether or not the destination file should be * overwritten if it already exists. * @param preserveLastModified Whether or not the last modified time of * the resulting file should be set to that * of the source file. * * @exception IOException if the file cannot be copied. * * @deprecated since 1.4.x */ public void copyFile(File sourceFile, File destFile, boolean filtering, boolean overwrite, boolean preserveLastModified) throws IOException { FILE_UTILS.copyFile(sourceFile, destFile, filtering ? globalFilters : null, overwrite, preserveLastModified); } /** * Call File.setLastModified(long time) on Java above 1.1, and logs * a warning on Java 1.1. * * @param file The file to set the last modified time on. * Must not be null. * * @param time the required modification time. * * @deprecated since 1.4.x * * @exception BuildException if the last modified time cannot be set * despite running on a platform with a version * above 1.1. */ public void setFileLastModified(File file, long time) throws BuildException { FILE_UTILS.setFileLastModified(file, time); log("Setting modification time for " + file, MSG_VERBOSE); } /** * Return the boolean equivalent of a string, which is considered * true if either "on", "true", * or "yes" is found, ignoring case. * * @param s The string to convert to a boolean value. * * @return true if the given string is "on", * "true" or "yes", or * false otherwise. */ public static boolean toBoolean(String s) { return ("on".equalsIgnoreCase(s) || "true".equalsIgnoreCase(s) || "yes".equalsIgnoreCase(s)); } /** * Get the Project instance associated with the specified object. * @param o the object to query. * @return Project instance, if any. * @since Ant 1.7.1 */ public static Project getProject(Object o) { if (o instanceof ProjectComponent) { return ((ProjectComponent) o).getProject(); } try { Method m = o.getClass().getMethod("getProject", (Class[]) null); if (Project.class == m.getReturnType()) { return (Project) m.invoke(o, (Object[]) null); } } catch (Exception e) { //too bad } return null; } /** * Topologically sort a set of targets. Equivalent to calling * topoSort(new String[] {root}, targets, true). * * @param root The name of the root target. The sort is created in such * a way that the sequence of Targets up to the root * target is the minimum possible such sequence. * Must not be null. * @param targetTable A Hashtable mapping names to Targets. * Must not be null. * @return a Vector of ALL Target objects in sorted order. * @exception BuildException if there is a cyclic dependency among the * targets, or if a named target does not exist. */ public final Vector topoSort(String root, Hashtable targetTable) throws BuildException { return topoSort(new String[] {root}, targetTable, true); } /** * Topologically sort a set of targets. Equivalent to calling * topoSort(new String[] {root}, targets, returnAll). * * @param root The name of the root target. The sort is created in such * a way that the sequence of Targets up to the root * target is the minimum possible such sequence. * Must not be null. * @param targetTable A Hashtable mapping names to Targets. * Must not be null. * @param returnAll boolean indicating whether to return all * targets, or the execution sequence only. * @return a Vector of Target objects in sorted order. * @exception BuildException if there is a cyclic dependency among the * targets, or if a named target does not exist. * @since Ant 1.6.3 */ public final Vector topoSort(String root, Hashtable targetTable, boolean returnAll) throws BuildException { return topoSort(new String[] {root}, targetTable, returnAll); } /** * Topologically sort a set of targets. * * @param root String[] containing the names of the root targets. * The sort is created in such a way that the ordered sequence of * Targets is the minimum possible such sequence to the specified * root targets. * Must not be null. * @param targetTable A map of names to targets (String to Target). * Must not be null. * @param returnAll boolean indicating whether to return all * targets, or the execution sequence only. * @return a Vector of Target objects in sorted order. * @exception BuildException if there is a cyclic dependency among the * targets, or if a named target does not exist. * @since Ant 1.6.3 */ public final Vector topoSort(String[] root, Hashtable targetTable, boolean returnAll) throws BuildException { Vector ret = new VectorSet(); Hashtable state = new Hashtable(); Stack visiting = new Stack(); // We first run a DFS based sort using each root as a starting node. // This creates the minimum sequence of Targets to the root node(s). // We then do a sort on any remaining unVISITED targets. // This is unnecessary for doing our build, but it catches // circular dependencies or missing Targets on the entire // dependency tree, not just on the Targets that depend on the // build Target. for (int i = 0; i < root.length; i++) { String st = (String) (state.get(root[i])); if (st == null) { tsort(root[i], targetTable, state, visiting, ret); } else if (st == VISITING) { throw new RuntimeException("Unexpected node in visiting state: " + root[i]); } } StringBuffer buf = new StringBuffer("Build sequence for target(s)"); for (int j = 0; j < root.length; j++) { buf.append((j == 0) ? " `" : ", `").append(root[j]).append('\''); } buf.append(" is " + ret); log(buf.toString(), MSG_VERBOSE); Vector complete = (returnAll) ? ret : new Vector(ret); for (Enumeration en = targetTable.keys(); en.hasMoreElements();) { String curTarget = en.nextElement(); String st = state.get(curTarget); if (st == null) { tsort(curTarget, targetTable, state, visiting, complete); } else if (st == VISITING) { throw new RuntimeException("Unexpected node in visiting state: " + curTarget); } } log("Complete build sequence is " + complete, MSG_VERBOSE); return ret; } /** * Perform a single step in a recursive depth-first-search traversal of * the target dependency tree. *

* The current target is first set to the "visiting" state, and * pushed onto the "visiting" stack. *

* An exception is then thrown if any child of the current node is in the * visiting state, as that implies a circular dependency. The exception * contains details of the cycle, using elements of the "visiting" * stack. *

* If any child has not already been "visited", this method is * called recursively on it. *

* The current target is then added to the ordered list of targets. Note * that this is performed after the children have been visited in order * to get the correct order. The current target is set to the * "visited" state. *

* By the time this method returns, the ordered list contains the sequence * of targets up to and including the current target. * * @param root The current target to inspect. * Must not be null. * @param targetTable A mapping from names to targets (String to Target). * Must not be null. * @param state A mapping from target names to states (String to String). * The states in question are "VISITING" and * "VISITED". Must not be null. * @param visiting A stack of targets which are currently being visited. * Must not be null. * @param ret The list to add target names to. This will end up * containing the complete list of dependencies in * dependency order. * Must not be null. * * @exception BuildException if a non-existent target is specified or if * a circular dependency is detected. */ private void tsort(String root, Hashtable targetTable, Hashtable state, Stack visiting, Vector ret) throws BuildException { state.put(root, VISITING); visiting.push(root); Target target = targetTable.get(root); // Make sure we exist if (target == null) { StringBuilder sb = new StringBuilder("Target \""); sb.append(root); sb.append("\" does not exist in the project \""); sb.append(name); sb.append("\". "); visiting.pop(); if (!visiting.empty()) { String parent = visiting.peek(); sb.append("It is used from target \""); sb.append(parent); sb.append("\"."); } throw new BuildException(new String(sb)); } for (Enumeration en = target.getDependencies(); en.hasMoreElements();) { String cur = en.nextElement(); String m = state.get(cur); if (m == null) { // Not been visited tsort(cur, targetTable, state, visiting, ret); } else if (m == VISITING) { // Currently visiting this node, so have a cycle throw makeCircularException(cur, visiting); } } String p = visiting.pop(); if (root != p) { throw new RuntimeException("Unexpected internal error: expected to " + "pop " + root + " but got " + p); } state.put(root, VISITED); ret.addElement(target); } /** * Build an appropriate exception detailing a specified circular * dependency. * * @param end The dependency to stop at. Must not be null. * @param stk A stack of dependencies. Must not be null. * * @return a BuildException detailing the specified circular dependency. */ private static BuildException makeCircularException(String end, Stack stk) { final StringBuilder sb = new StringBuilder("Circular dependency: "); sb.append(end); String c; do { c = stk.pop(); sb.append(" <- "); sb.append(c); } while (!c.equals(end)); return new BuildException(sb.toString()); } /** * Inherit the id references. * @param parent the parent project of this project. */ public void inheritIDReferences(Project parent) { } /** * Add an id reference. * Used for broken build files. * @param id the id to set. * @param value the value to set it to (Unknown element in this case. */ public void addIdReference(String id, Object value) { idReferences.put(id, value); } /** * Add a reference to the project. * * @param referenceName The name of the reference. Must not be null. * @param value The value of the reference. */ public void addReference(String referenceName, Object value) { Object old = ((AntRefTable) references).getReal(referenceName); if (old == value) { // no warning, this is not changing anything return; } if (old != null && !(old instanceof UnknownElement)) { log("Overriding previous definition of reference to " + referenceName, MSG_VERBOSE); } log("Adding reference: " + referenceName, MSG_DEBUG); references.put(referenceName, value); } /** * Return a map of the references in the project (String to Object). * The returned hashtable is "live" and so must not be modified. * * @return a map of the references in the project (String to Object). */ public Hashtable getReferences() { return references; } /** * Does the project know this reference? * * @since Ant 1.8.0 */ public boolean hasReference(String key) { return references.containsKey(key); } /** * Return a map of the references in the project (String to * Object). The returned hashtable is a copy of the * "live" references. * * @return a map of the references in the project (String to Object). * * @since Ant 1.8.1 */ public Map getCopyOfReferences() { return new HashMap(references); } /** * Look up a reference by its key (ID). * * @param key The key for the desired reference. * Must not be null. * * @return the reference with the specified ID, or null if * there is no such reference in the project, with type inference. */ public T getReference(String key) { @SuppressWarnings("unchecked") final T ret = (T) references.get(key); if (ret != null) { return ret; } if (!key.equals(MagicNames.REFID_PROPERTY_HELPER)) { try { if (PropertyHelper.getPropertyHelper(this).containsProperties(key)) { log("Unresolvable reference " + key + " might be a misuse of property expansion syntax.", MSG_WARN); } } catch (Exception e) { //ignore } } return null; } /** * Return a description of the type of the given element, with * special handling for instances of tasks and data types. *

* This is useful for logging purposes. * * @param element The element to describe. * Must not be null. * * @return a description of the element type. * * @since 1.95, Ant 1.5 */ public String getElementName(Object element) { return ComponentHelper.getComponentHelper(this).getElementName(element); } /** * Send a "build started" event * to the build listeners for this project. */ public void fireBuildStarted() { BuildEvent event = new BuildEvent(this); BuildListener[] currListeners = listeners; for (int i = 0; i < currListeners.length; i++) { currListeners[i].buildStarted(event); } } /** * Send a "build finished" event to the build listeners * for this project. * @param exception an exception indicating a reason for a build * failure. May be null, indicating * a successful build. */ public void fireBuildFinished(Throwable exception) { BuildEvent event = new BuildEvent(this); event.setException(exception); BuildListener[] currListeners = listeners; for (int i = 0; i < currListeners.length; i++) { currListeners[i].buildFinished(event); } // Inform IH to clear the cache IntrospectionHelper.clearCache(); } /** * Send a "subbuild started" event to the build listeners for * this project. * * @since Ant 1.6.2 */ public void fireSubBuildStarted() { BuildEvent event = new BuildEvent(this); BuildListener[] currListeners = listeners; for (int i = 0; i < currListeners.length; i++) { if (currListeners[i] instanceof SubBuildListener) { ((SubBuildListener) currListeners[i]).subBuildStarted(event); } } } /** * Send a "subbuild finished" event to the build listeners for * this project. * @param exception an exception indicating a reason for a build * failure. May be null, indicating * a successful build. * * @since Ant 1.6.2 */ public void fireSubBuildFinished(Throwable exception) { BuildEvent event = new BuildEvent(this); event.setException(exception); BuildListener[] currListeners = listeners; for (int i = 0; i < currListeners.length; i++) { if (currListeners[i] instanceof SubBuildListener) { ((SubBuildListener) currListeners[i]).subBuildFinished(event); } } } /** * Send a "target started" event to the build listeners * for this project. * * @param target The target which is starting to build. * Must not be null. */ protected void fireTargetStarted(Target target) { BuildEvent event = new BuildEvent(target); BuildListener[] currListeners = listeners; for (int i = 0; i < currListeners.length; i++) { currListeners[i].targetStarted(event); } } /** * Send a "target finished" event to the build listeners * for this project. * * @param target The target which has finished building. * Must not be null. * @param exception an exception indicating a reason for a build * failure. May be null, indicating * a successful build. */ protected void fireTargetFinished(Target target, Throwable exception) { BuildEvent event = new BuildEvent(target); event.setException(exception); BuildListener[] currListeners = listeners; for (int i = 0; i < currListeners.length; i++) { currListeners[i].targetFinished(event); } } /** * Send a "task started" event to the build listeners * for this project. * * @param task The target which is starting to execute. * Must not be null. */ protected void fireTaskStarted(Task task) { // register this as the current task on the current thread. registerThreadTask(Thread.currentThread(), task); BuildEvent event = new BuildEvent(task); BuildListener[] currListeners = listeners; for (int i = 0; i < currListeners.length; i++) { currListeners[i].taskStarted(event); } } /** * Send a "task finished" event to the build listeners for this * project. * * @param task The task which has finished executing. * Must not be null. * @param exception an exception indicating a reason for a build * failure. May be null, indicating * a successful build. */ protected void fireTaskFinished(Task task, Throwable exception) { registerThreadTask(Thread.currentThread(), null); System.out.flush(); System.err.flush(); BuildEvent event = new BuildEvent(task); event.setException(exception); BuildListener[] currListeners = listeners; for (int i = 0; i < currListeners.length; i++) { currListeners[i].taskFinished(event); } } /** * Send a "message logged" event to the build listeners * for this project. * * @param event The event to send. This should be built up with the * appropriate task/target/project by the caller, so that * this method can set the message and priority, then send * the event. Must not be null. * @param message The message to send. Should not be null. * @param priority The priority of the message. */ private void fireMessageLoggedEvent(BuildEvent event, String message, int priority) { if (message == null) { message = String.valueOf(message); } if (message.endsWith(StringUtils.LINE_SEP)) { int endIndex = message.length() - StringUtils.LINE_SEP.length(); event.setMessage(message.substring(0, endIndex), priority); } else { event.setMessage(message, priority); } if (isLoggingMessage.get() != Boolean.FALSE) { /* * One of the Listeners has attempted to access * System.err or System.out. * * We used to throw an exception in this case, but * sometimes Listeners can't prevent it(like our own * Log4jListener which invokes getLogger() which in * turn wants to write to the console). * * @see http://marc.theaimsgroup.com/?t=110538624200006&r=1&w=2 * * We now (Ant 1.6.3 and later) simply swallow the message. */ return; } try { isLoggingMessage.set(Boolean.TRUE); BuildListener[] currListeners = listeners; for (int i = 0; i < currListeners.length; i++) { currListeners[i].messageLogged(event); } } finally { isLoggingMessage.set(Boolean.FALSE); } } /** * Send a "message logged" project level event * to the build listeners for this project. * * @param project The project generating the event. * Should not be null. * @param message The message to send. Should not be null. * @param priority The priority of the message. */ protected void fireMessageLogged(Project project, String message, int priority) { fireMessageLogged(project, message, null, priority); } /** * Send a "message logged" project level event * to the build listeners for this project. * * @param project The project generating the event. * Should not be null. * @param message The message to send. Should not be null. * @param throwable The exception that caused this message. May be null. * @param priority The priority of the message. * @since 1.7 */ protected void fireMessageLogged(Project project, String message, Throwable throwable, int priority) { BuildEvent event = new BuildEvent(project); event.setException(throwable); fireMessageLoggedEvent(event, message, priority); } /** * Send a "message logged" target level event * to the build listeners for this project. * * @param target The target generating the event. * Must not be null. * @param message The message to send. Should not be null. * @param priority The priority of the message. */ protected void fireMessageLogged(Target target, String message, int priority) { fireMessageLogged(target, message, null, priority); } /** * Send a "message logged" target level event * to the build listeners for this project. * * @param target The target generating the event. * Must not be null. * @param message The message to send. Should not be null. * @param throwable The exception that caused this message. May be null. * @param priority The priority of the message. * @since 1.7 */ protected void fireMessageLogged(Target target, String message, Throwable throwable, int priority) { BuildEvent event = new BuildEvent(target); event.setException(throwable); fireMessageLoggedEvent(event, message, priority); } /** * Send a "message logged" task level event * to the build listeners for this project. * * @param task The task generating the event. * Must not be null. * @param message The message to send. Should not be null. * @param priority The priority of the message. */ protected void fireMessageLogged(Task task, String message, int priority) { fireMessageLogged(task, message, null, priority); } /** * Send a "message logged" task level event * to the build listeners for this project. * * @param task The task generating the event. * Must not be null. * @param message The message to send. Should not be null. * @param throwable The exception that caused this message. May be null. * @param priority The priority of the message. * @since 1.7 */ protected void fireMessageLogged(Task task, String message, Throwable throwable, int priority) { BuildEvent event = new BuildEvent(task); event.setException(throwable); fireMessageLoggedEvent(event, message, priority); } /** * Register a task as the current task for a thread. * If the task is null, the thread's entry is removed. * * @param thread the thread on which the task is registered. * @param task the task to be registered. * @since Ant 1.5 */ public void registerThreadTask(Thread thread, Task task) { synchronized(threadTasks) { if (task != null) { threadTasks.put(thread, task); threadGroupTasks.put(thread.getThreadGroup(), task); } else { threadTasks.remove(thread); threadGroupTasks.remove(thread.getThreadGroup()); } } } /** * Get the current task associated with a thread, if any. * * @param thread the thread for which the task is required. * @return the task which is currently registered for the given thread or * null if no task is registered. */ public Task getThreadTask(Thread thread) { synchronized(threadTasks) { Task task = (Task) threadTasks.get(thread); if (task == null) { ThreadGroup group = thread.getThreadGroup(); while (task == null && group != null) { task = (Task) threadGroupTasks.get(group); group = group.getParent(); } } return task; } } // Should move to a separate public class - and have API to add // listeners, etc. private static class AntRefTable extends Hashtable { private static final long serialVersionUID = 1L; AntRefTable() { super(); } /** Returns the unmodified original object. * This method should be called internally to * get the "real" object. * The normal get method will do the replacement * of UnknownElement (this is similar with the JDNI * refs behavior). */ private Object getReal(Object key) { return super.get(key); } /** Get method for the reference table. * It can be used to hook dynamic references and to modify * some references on the fly--for example for delayed * evaluation. * * It is important to make sure that the processing that is * done inside is not calling get indirectly. * * @param key lookup key. * @return mapped value. */ public Object get(Object key) { Object o = getReal(key); if (o instanceof UnknownElement) { // Make sure that UnknownElement ue = (UnknownElement) o; ue.maybeConfigure(); o = ue.getRealThing(); } return o; } } /** * Set a reference to this Project on the parameterized object. * Need to set the project before other set/add elements * are called. * @param obj the object to invoke setProject(this) on. */ public final void setProjectReference(final Object obj) { if (obj instanceof ProjectComponent) { ((ProjectComponent) obj).setProject(this); return; } try { Method method = obj.getClass().getMethod( "setProject", new Class[] {Project.class}); if (method != null) { method.invoke(obj, new Object[] {this}); } } catch (Throwable e) { // ignore this if the object does not have // a set project method or the method // is private/protected. } } /** * Resolve the file relative to the project's basedir and return it as a * FileResource. * @param name the name of the file to resolve. * @return the file resource. * @since Ant 1.7 */ public Resource getResource(String name) { return new FileResource(getBaseDir(), name); } }