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package java.util.logging;

import java.util.HashMap;
import java.util.Map;
import org.apidesign.bck2brwsr.core.JavaScriptBody;

/**
 * A Logger object is used to log messages for a specific
 * system or application component.  Loggers are normally named,
 * using a hierarchical dot-separated namespace.  Logger names
 * can be arbitrary strings, but they should normally be based on
 * the package name or class name of the logged component, such
 * as java.net or javax.swing.  In addition it is possible to create
 * "anonymous" Loggers that are not stored in the Logger namespace.
 * 

* Logger objects may be obtained by calls on one of the getLogger * factory methods. These will either create a new Logger or * return a suitable existing Logger. It is important to note that * the Logger returned by one of the {@code getLogger} factory methods * may be garbage collected at any time if a strong reference to the * Logger is not kept. *

* Logging messages will be forwarded to registered Handler * objects, which can forward the messages to a variety of * destinations, including consoles, files, OS logs, etc. *

* Each Logger keeps track of a "parent" Logger, which is its * nearest existing ancestor in the Logger namespace. *

* Each Logger has a "Level" associated with it. This reflects * a minimum Level that this logger cares about. If a Logger's * level is set to null, then its effective level is inherited * from its parent, which may in turn obtain it recursively from its * parent, and so on up the tree. *

* The log level can be configured based on the properties from the * logging configuration file, as described in the description * of the LogManager class. However it may also be dynamically changed * by calls on the Logger.setLevel method. If a logger's level is * changed the change may also affect child loggers, since any child * logger that has null as its level will inherit its * effective level from its parent. *

* On each logging call the Logger initially performs a cheap * check of the request level (e.g., SEVERE or FINE) against the * effective log level of the logger. If the request level is * lower than the log level, the logging call returns immediately. *

* After passing this initial (cheap) test, the Logger will allocate * a LogRecord to describe the logging message. It will then call a * Filter (if present) to do a more detailed check on whether the * record should be published. If that passes it will then publish * the LogRecord to its output Handlers. By default, loggers also * publish to their parent's Handlers, recursively up the tree. *

* Each Logger may have a ResourceBundle name associated with it. * The named bundle will be used for localizing logging messages. * If a Logger does not have its own ResourceBundle name, then * it will inherit the ResourceBundle name from its parent, * recursively up the tree. *

* Most of the logger output methods take a "msg" argument. This * msg argument may be either a raw value or a localization key. * During formatting, if the logger has (or inherits) a localization * ResourceBundle and if the ResourceBundle has a mapping for the msg * string, then the msg string is replaced by the localized value. * Otherwise the original msg string is used. Typically, formatters use * java.text.MessageFormat style formatting to format parameters, so * for example a format string "{0} {1}" would format two parameters * as strings. *

* When mapping ResourceBundle names to ResourceBundles, the Logger * will first try to use the Thread's ContextClassLoader. If that * is null it will try the SystemClassLoader instead. As a temporary * transition feature in the initial implementation, if the Logger is * unable to locate a ResourceBundle from the ContextClassLoader or * SystemClassLoader the Logger will also search up the class stack * and use successive calling ClassLoaders to try to locate a ResourceBundle. * (This call stack search is to allow containers to transition to * using ContextClassLoaders and is likely to be removed in future * versions.) *

* Formatting (including localization) is the responsibility of * the output Handler, which will typically call a Formatter. *

* Note that formatting need not occur synchronously. It may be delayed * until a LogRecord is actually written to an external sink. *

* The logging methods are grouped in five main categories: *

    *
  • * There are a set of "log" methods that take a log level, a message * string, and optionally some parameters to the message string. *

  • * There are a set of "logp" methods (for "log precise") that are * like the "log" methods, but also take an explicit source class name * and method name. *

  • * There are a set of "logrb" method (for "log with resource bundle") * that are like the "logp" method, but also take an explicit resource * bundle name for use in localizing the log message. *

  • * There are convenience methods for tracing method entries (the * "entering" methods), method returns (the "exiting" methods) and * throwing exceptions (the "throwing" methods). *

  • * Finally, there are a set of convenience methods for use in the * very simplest cases, when a developer simply wants to log a * simple string at a given log level. These methods are named * after the standard Level names ("severe", "warning", "info", etc.) * and take a single argument, a message string. *

*

* For the methods that do not take an explicit source name and * method name, the Logging framework will make a "best effort" * to determine which class and method called into the logging method. * However, it is important to realize that this automatically inferred * information may only be approximate (or may even be quite wrong!). * Virtual machines are allowed to do extensive optimizations when * JITing and may entirely remove stack frames, making it impossible * to reliably locate the calling class and method. *

* All methods on Logger are multi-thread safe. *

* Subclassing Information: Note that a LogManager class may * provide its own implementation of named Loggers for any point in * the namespace. Therefore, any subclasses of Logger (unless they * are implemented in conjunction with a new LogManager class) should * take care to obtain a Logger instance from the LogManager class and * should delegate operations such as "isLoggable" and "log(LogRecord)" * to that instance. Note that in order to intercept all logging * output, subclasses need only override the log(LogRecord) method. * All the other logging methods are implemented as calls on this * log(LogRecord) method. * * @since 1.4 */ public class Logger { private static int offValue = Level.OFF.intValue(); private static final Map ALL = new HashMap<>(); private String name; private volatile int levelValue; // current effective level value private Level levelObject; /** * GLOBAL_LOGGER_NAME is a name for the global logger. * * @since 1.6 */ public static final String GLOBAL_LOGGER_NAME = "global"; /** * Return global logger object with the name Logger.GLOBAL_LOGGER_NAME. * * @return global logger object * @since 1.7 */ public static final Logger getGlobal() { return global; } /** * The "global" Logger object is provided as a convenience to developers * who are making casual use of the Logging package. Developers * who are making serious use of the logging package (for example * in products) should create and use their own Logger objects, * with appropriate names, so that logging can be controlled on a * suitable per-Logger granularity. Developers also need to keep a * strong reference to their Logger objects to prevent them from * being garbage collected. *

* @deprecated Initialization of this field is prone to deadlocks. * The field must be initialized by the Logger class initialization * which may cause deadlocks with the LogManager class initialization. * In such cases two class initialization wait for each other to complete. * The preferred way to get the global logger object is via the call * Logger.getGlobal(). * For compatibility with old JDK versions where the * Logger.getGlobal() is not available use the call * Logger.getLogger(Logger.GLOBAL_LOGGER_NAME) * or Logger.getLogger("global"). */ @Deprecated public static final Logger global = new Logger(GLOBAL_LOGGER_NAME); /** * Protected method to construct a logger for a named subsystem. *

* The logger will be initially configured with a null Level * and with useParentHandlers set to true. * * @param name A name for the logger. This should * be a dot-separated name and should normally * be based on the package name or class name * of the subsystem, such as java.net * or javax.swing. It may be null for anonymous Loggers. * @param resourceBundleName name of ResourceBundle to be used for localizing * messages for this logger. May be null if none * of the messages require localization. * @throws MissingResourceException if the resourceBundleName is non-null and * no corresponding resource can be found. */ protected Logger(String name, String resourceBundleName) { this.name = name; levelValue = Level.INFO.intValue(); } // This constructor is used only to create the global Logger. // It is needed to break a cyclic dependence between the LogManager // and Logger static initializers causing deadlocks. private Logger(String name) { // The manager field is not initialized here. this.name = name; levelValue = Level.INFO.intValue(); } private void checkAccess() throws SecurityException { throw new SecurityException(); } /** * Find or create a logger for a named subsystem. If a logger has * already been created with the given name it is returned. Otherwise * a new logger is created. *

* If a new logger is created its log level will be configured * based on the LogManager configuration and it will configured * to also send logging output to its parent's Handlers. It will * be registered in the LogManager global namespace. *

* Note: The LogManager may only retain a weak reference to the newly * created Logger. It is important to understand that a previously * created Logger with the given name may be garbage collected at any * time if there is no strong reference to the Logger. In particular, * this means that two back-to-back calls like * {@code getLogger("MyLogger").log(...)} may use different Logger * objects named "MyLogger" if there is no strong reference to the * Logger named "MyLogger" elsewhere in the program. * * @param name A name for the logger. This should * be a dot-separated name and should normally * be based on the package name or class name * of the subsystem, such as java.net * or javax.swing * @return a suitable Logger * @throws NullPointerException if the name is null. */ // Synchronization is not required here. All synchronization for // adding a new Logger object is handled by LogManager.addLogger(). public static Logger getLogger(String name) { return getLogger(name, null); } /** * Find or create a logger for a named subsystem. If a logger has * already been created with the given name it is returned. Otherwise * a new logger is created. *

* If a new logger is created its log level will be configured * based on the LogManager and it will configured to also send logging * output to its parent's Handlers. It will be registered in * the LogManager global namespace. *

* Note: The LogManager may only retain a weak reference to the newly * created Logger. It is important to understand that a previously * created Logger with the given name may be garbage collected at any * time if there is no strong reference to the Logger. In particular, * this means that two back-to-back calls like * {@code getLogger("MyLogger", ...).log(...)} may use different Logger * objects named "MyLogger" if there is no strong reference to the * Logger named "MyLogger" elsewhere in the program. *

* If the named Logger already exists and does not yet have a * localization resource bundle then the given resource bundle * name is used. If the named Logger already exists and has * a different resource bundle name then an IllegalArgumentException * is thrown. *

* @param name A name for the logger. This should * be a dot-separated name and should normally * be based on the package name or class name * of the subsystem, such as java.net * or javax.swing * @param resourceBundleName name of ResourceBundle to be used for localizing * messages for this logger. May be null if none of * the messages require localization. * @return a suitable Logger * @throws MissingResourceException if the resourceBundleName is non-null and * no corresponding resource can be found. * @throws IllegalArgumentException if the Logger already exists and uses * a different resource bundle name. * @throws NullPointerException if the name is null. */ // Synchronization is not required here. All synchronization for // adding a new Logger object is handled by LogManager.addLogger(). public static Logger getLogger(String name, String resourceBundleName) { Logger l = ALL.get(name); if (l == null) { l = new Logger(name, resourceBundleName); ALL.put(name, l); } return l; } /** * Create an anonymous Logger. The newly created Logger is not * registered in the LogManager namespace. There will be no * access checks on updates to the logger. *

* This factory method is primarily intended for use from applets. * Because the resulting Logger is anonymous it can be kept private * by the creating class. This removes the need for normal security * checks, which in turn allows untrusted applet code to update * the control state of the Logger. For example an applet can do * a setLevel or an addHandler on an anonymous Logger. *

* Even although the new logger is anonymous, it is configured * to have the root logger ("") as its parent. This means that * by default it inherits its effective level and handlers * from the root logger. *

* * @return a newly created private Logger */ public static Logger getAnonymousLogger() { return getAnonymousLogger(null); } /** * Create an anonymous Logger. The newly created Logger is not * registered in the LogManager namespace. There will be no * access checks on updates to the logger. *

* This factory method is primarily intended for use from applets. * Because the resulting Logger is anonymous it can be kept private * by the creating class. This removes the need for normal security * checks, which in turn allows untrusted applet code to update * the control state of the Logger. For example an applet can do * a setLevel or an addHandler on an anonymous Logger. *

* Even although the new logger is anonymous, it is configured * to have the root logger ("") as its parent. This means that * by default it inherits its effective level and handlers * from the root logger. *

* @param resourceBundleName name of ResourceBundle to be used for localizing * messages for this logger. * May be null if none of the messages require localization. * @return a newly created private Logger * @throws MissingResourceException if the resourceBundleName is non-null and * no corresponding resource can be found. */ // Synchronization is not required here. All synchronization for // adding a new anonymous Logger object is handled by doSetParent(). public static Logger getAnonymousLogger(String resourceBundleName) { return new Logger(null, resourceBundleName); } /** * Retrieve the localization resource bundle for this * logger for the current default locale. Note that if * the result is null, then the Logger will use a resource * bundle inherited from its parent. * * @return localization bundle (may be null) */ // public ResourceBundle getResourceBundle() { // return findResourceBundle(getResourceBundleName()); // } /** * Retrieve the localization resource bundle name for this * logger. Note that if the result is null, then the Logger * will use a resource bundle name inherited from its parent. * * @return localization bundle name (may be null) */ public String getResourceBundleName() { return null; } /** * Set a filter to control output on this Logger. *

* After passing the initial "level" check, the Logger will * call this Filter to check if a log record should really * be published. * * @param newFilter a filter object (may be null) * @exception SecurityException if a security manager exists and if * the caller does not have LoggingPermission("control"). */ // public void setFilter(Filter newFilter) throws SecurityException { // checkAccess(); // } /** * Get the current filter for this Logger. * * @return a filter object (may be null) */ // public Filter getFilter() { // return filter; // } /** * Log a LogRecord. *

* All the other logging methods in this class call through * this method to actually perform any logging. Subclasses can * override this single method to capture all log activity. * * @param record the LogRecord to be published */ public void log(LogRecord record) { if (record.getLevel().intValue() < levelValue) { return; } String method; switch (record.getLevel().toString()) { case "INFO": method = "info"; break; case "SEVERE": method = "error"; break; case "WARNING": method = "warn"; break; default: method = "log"; break; } consoleLog( method, record.getLoggerName(), record.getMessage() ); } @JavaScriptBody(args = { "method", "logger", "msg" }, body = "window.console[method]('[' + logger + ']: ' + msg);" ) private static native void consoleLog( String method, String logger, String msg ); // private support method for logging. // We fill in the logger name, resource bundle name, and // resource bundle and then call "void log(LogRecord)". private void doLog(LogRecord lr) { doLog(lr, lr.getResourceBundleName()); } private void doLog(LogRecord lr, String bundleName) { lr.setLoggerName(name); log(lr); } //================================================================ // Start of convenience methods WITHOUT className and methodName //================================================================ /** * Log a message, with no arguments. *

* If the logger is currently enabled for the given message * level then the given message is forwarded to all the * registered output Handler objects. *

* @param level One of the message level identifiers, e.g., SEVERE * @param msg The string message (or a key in the message catalog) */ public void log(Level level, String msg) { if (level.intValue() < levelValue || levelValue == offValue) { return; } LogRecord lr = new LogRecord(level, msg); doLog(lr); } /** * Log a message, with one object parameter. *

* If the logger is currently enabled for the given message * level then a corresponding LogRecord is created and forwarded * to all the registered output Handler objects. *

* @param level One of the message level identifiers, e.g., SEVERE * @param msg The string message (or a key in the message catalog) * @param param1 parameter to the message */ public void log(Level level, String msg, Object param1) { if (level.intValue() < levelValue || levelValue == offValue) { return; } LogRecord lr = new LogRecord(level, msg); Object params[] = { param1 }; lr.setParameters(params); doLog(lr); } /** * Log a message, with an array of object arguments. *

* If the logger is currently enabled for the given message * level then a corresponding LogRecord is created and forwarded * to all the registered output Handler objects. *

* @param level One of the message level identifiers, e.g., SEVERE * @param msg The string message (or a key in the message catalog) * @param params array of parameters to the message */ public void log(Level level, String msg, Object params[]) { if (level.intValue() < levelValue || levelValue == offValue) { return; } LogRecord lr = new LogRecord(level, msg); lr.setParameters(params); doLog(lr); } /** * Log a message, with associated Throwable information. *

* If the logger is currently enabled for the given message * level then the given arguments are stored in a LogRecord * which is forwarded to all registered output handlers. *

* Note that the thrown argument is stored in the LogRecord thrown * property, rather than the LogRecord parameters property. Thus is it * processed specially by output Formatters and is not treated * as a formatting parameter to the LogRecord message property. *

* @param level One of the message level identifiers, e.g., SEVERE * @param msg The string message (or a key in the message catalog) * @param thrown Throwable associated with log message. */ public void log(Level level, String msg, Throwable thrown) { if (level.intValue() < levelValue || levelValue == offValue) { return; } LogRecord lr = new LogRecord(level, msg); lr.setThrown(thrown); doLog(lr); } //================================================================ // Start of convenience methods WITH className and methodName //================================================================ /** * Log a message, specifying source class and method, * with no arguments. *

* If the logger is currently enabled for the given message * level then the given message is forwarded to all the * registered output Handler objects. *

* @param level One of the message level identifiers, e.g., SEVERE * @param sourceClass name of class that issued the logging request * @param sourceMethod name of method that issued the logging request * @param msg The string message (or a key in the message catalog) */ public void logp(Level level, String sourceClass, String sourceMethod, String msg) { if (level.intValue() < levelValue || levelValue == offValue) { return; } LogRecord lr = new LogRecord(level, msg); lr.setSourceClassName(sourceClass); lr.setSourceMethodName(sourceMethod); doLog(lr); } /** * Log a message, specifying source class and method, * with a single object parameter to the log message. *

* If the logger is currently enabled for the given message * level then a corresponding LogRecord is created and forwarded * to all the registered output Handler objects. *

* @param level One of the message level identifiers, e.g., SEVERE * @param sourceClass name of class that issued the logging request * @param sourceMethod name of method that issued the logging request * @param msg The string message (or a key in the message catalog) * @param param1 Parameter to the log message. */ public void logp(Level level, String sourceClass, String sourceMethod, String msg, Object param1) { if (level.intValue() < levelValue || levelValue == offValue) { return; } LogRecord lr = new LogRecord(level, msg); lr.setSourceClassName(sourceClass); lr.setSourceMethodName(sourceMethod); Object params[] = { param1 }; lr.setParameters(params); doLog(lr); } /** * Log a message, specifying source class and method, * with an array of object arguments. *

* If the logger is currently enabled for the given message * level then a corresponding LogRecord is created and forwarded * to all the registered output Handler objects. *

* @param level One of the message level identifiers, e.g., SEVERE * @param sourceClass name of class that issued the logging request * @param sourceMethod name of method that issued the logging request * @param msg The string message (or a key in the message catalog) * @param params Array of parameters to the message */ public void logp(Level level, String sourceClass, String sourceMethod, String msg, Object params[]) { if (level.intValue() < levelValue || levelValue == offValue) { return; } LogRecord lr = new LogRecord(level, msg); lr.setSourceClassName(sourceClass); lr.setSourceMethodName(sourceMethod); lr.setParameters(params); doLog(lr); } /** * Log a message, specifying source class and method, * with associated Throwable information. *

* If the logger is currently enabled for the given message * level then the given arguments are stored in a LogRecord * which is forwarded to all registered output handlers. *

* Note that the thrown argument is stored in the LogRecord thrown * property, rather than the LogRecord parameters property. Thus is it * processed specially by output Formatters and is not treated * as a formatting parameter to the LogRecord message property. *

* @param level One of the message level identifiers, e.g., SEVERE * @param sourceClass name of class that issued the logging request * @param sourceMethod name of method that issued the logging request * @param msg The string message (or a key in the message catalog) * @param thrown Throwable associated with log message. */ public void logp(Level level, String sourceClass, String sourceMethod, String msg, Throwable thrown) { if (level.intValue() < levelValue || levelValue == offValue) { return; } LogRecord lr = new LogRecord(level, msg); lr.setSourceClassName(sourceClass); lr.setSourceMethodName(sourceMethod); lr.setThrown(thrown); doLog(lr); } //========================================================================= // Start of convenience methods WITH className, methodName and bundle name. //========================================================================= /** * Log a message, specifying source class, method, and resource bundle name * with no arguments. *

* If the logger is currently enabled for the given message * level then the given message is forwarded to all the * registered output Handler objects. *

* The msg string is localized using the named resource bundle. If the * resource bundle name is null, or an empty String or invalid * then the msg string is not localized. *

* @param level One of the message level identifiers, e.g., SEVERE * @param sourceClass name of class that issued the logging request * @param sourceMethod name of method that issued the logging request * @param bundleName name of resource bundle to localize msg, * can be null * @param msg The string message (or a key in the message catalog) */ public void logrb(Level level, String sourceClass, String sourceMethod, String bundleName, String msg) { if (level.intValue() < levelValue || levelValue == offValue) { return; } LogRecord lr = new LogRecord(level, msg); lr.setSourceClassName(sourceClass); lr.setSourceMethodName(sourceMethod); doLog(lr, bundleName); } /** * Log a message, specifying source class, method, and resource bundle name, * with a single object parameter to the log message. *

* If the logger is currently enabled for the given message * level then a corresponding LogRecord is created and forwarded * to all the registered output Handler objects. *

* The msg string is localized using the named resource bundle. If the * resource bundle name is null, or an empty String or invalid * then the msg string is not localized. *

* @param level One of the message level identifiers, e.g., SEVERE * @param sourceClass name of class that issued the logging request * @param sourceMethod name of method that issued the logging request * @param bundleName name of resource bundle to localize msg, * can be null * @param msg The string message (or a key in the message catalog) * @param param1 Parameter to the log message. */ public void logrb(Level level, String sourceClass, String sourceMethod, String bundleName, String msg, Object param1) { if (level.intValue() < levelValue || levelValue == offValue) { return; } LogRecord lr = new LogRecord(level, msg); lr.setSourceClassName(sourceClass); lr.setSourceMethodName(sourceMethod); Object params[] = { param1 }; lr.setParameters(params); doLog(lr, bundleName); } /** * Log a message, specifying source class, method, and resource bundle name, * with an array of object arguments. *

* If the logger is currently enabled for the given message * level then a corresponding LogRecord is created and forwarded * to all the registered output Handler objects. *

* The msg string is localized using the named resource bundle. If the * resource bundle name is null, or an empty String or invalid * then the msg string is not localized. *

* @param level One of the message level identifiers, e.g., SEVERE * @param sourceClass name of class that issued the logging request * @param sourceMethod name of method that issued the logging request * @param bundleName name of resource bundle to localize msg, * can be null. * @param msg The string message (or a key in the message catalog) * @param params Array of parameters to the message */ public void logrb(Level level, String sourceClass, String sourceMethod, String bundleName, String msg, Object params[]) { if (level.intValue() < levelValue || levelValue == offValue) { return; } LogRecord lr = new LogRecord(level, msg); lr.setSourceClassName(sourceClass); lr.setSourceMethodName(sourceMethod); lr.setParameters(params); doLog(lr, bundleName); } /** * Log a message, specifying source class, method, and resource bundle name, * with associated Throwable information. *

* If the logger is currently enabled for the given message * level then the given arguments are stored in a LogRecord * which is forwarded to all registered output handlers. *

* The msg string is localized using the named resource bundle. If the * resource bundle name is null, or an empty String or invalid * then the msg string is not localized. *

* Note that the thrown argument is stored in the LogRecord thrown * property, rather than the LogRecord parameters property. Thus is it * processed specially by output Formatters and is not treated * as a formatting parameter to the LogRecord message property. *

* @param level One of the message level identifiers, e.g., SEVERE * @param sourceClass name of class that issued the logging request * @param sourceMethod name of method that issued the logging request * @param bundleName name of resource bundle to localize msg, * can be null * @param msg The string message (or a key in the message catalog) * @param thrown Throwable associated with log message. */ public void logrb(Level level, String sourceClass, String sourceMethod, String bundleName, String msg, Throwable thrown) { if (level.intValue() < levelValue || levelValue == offValue) { return; } LogRecord lr = new LogRecord(level, msg); lr.setSourceClassName(sourceClass); lr.setSourceMethodName(sourceMethod); lr.setThrown(thrown); doLog(lr, bundleName); } //====================================================================== // Start of convenience methods for logging method entries and returns. //====================================================================== /** * Log a method entry. *

* This is a convenience method that can be used to log entry * to a method. A LogRecord with message "ENTRY", log level * FINER, and the given sourceMethod and sourceClass is logged. *

* @param sourceClass name of class that issued the logging request * @param sourceMethod name of method that is being entered */ public void entering(String sourceClass, String sourceMethod) { if (Level.FINER.intValue() < levelValue) { return; } logp(Level.FINER, sourceClass, sourceMethod, "ENTRY"); } /** * Log a method entry, with one parameter. *

* This is a convenience method that can be used to log entry * to a method. A LogRecord with message "ENTRY {0}", log level * FINER, and the given sourceMethod, sourceClass, and parameter * is logged. *

* @param sourceClass name of class that issued the logging request * @param sourceMethod name of method that is being entered * @param param1 parameter to the method being entered */ public void entering(String sourceClass, String sourceMethod, Object param1) { if (Level.FINER.intValue() < levelValue) { return; } Object params[] = { param1 }; logp(Level.FINER, sourceClass, sourceMethod, "ENTRY {0}", params); } /** * Log a method entry, with an array of parameters. *

* This is a convenience method that can be used to log entry * to a method. A LogRecord with message "ENTRY" (followed by a * format {N} indicator for each entry in the parameter array), * log level FINER, and the given sourceMethod, sourceClass, and * parameters is logged. *

* @param sourceClass name of class that issued the logging request * @param sourceMethod name of method that is being entered * @param params array of parameters to the method being entered */ public void entering(String sourceClass, String sourceMethod, Object params[]) { if (Level.FINER.intValue() < levelValue) { return; } String msg = "ENTRY"; if (params == null ) { logp(Level.FINER, sourceClass, sourceMethod, msg); return; } for (int i = 0; i < params.length; i++) { msg = msg + " {" + i + "}"; } logp(Level.FINER, sourceClass, sourceMethod, msg, params); } /** * Log a method return. *

* This is a convenience method that can be used to log returning * from a method. A LogRecord with message "RETURN", log level * FINER, and the given sourceMethod and sourceClass is logged. *

* @param sourceClass name of class that issued the logging request * @param sourceMethod name of the method */ public void exiting(String sourceClass, String sourceMethod) { if (Level.FINER.intValue() < levelValue) { return; } logp(Level.FINER, sourceClass, sourceMethod, "RETURN"); } /** * Log a method return, with result object. *

* This is a convenience method that can be used to log returning * from a method. A LogRecord with message "RETURN {0}", log level * FINER, and the gives sourceMethod, sourceClass, and result * object is logged. *

* @param sourceClass name of class that issued the logging request * @param sourceMethod name of the method * @param result Object that is being returned */ public void exiting(String sourceClass, String sourceMethod, Object result) { if (Level.FINER.intValue() < levelValue) { return; } Object params[] = { result }; logp(Level.FINER, sourceClass, sourceMethod, "RETURN {0}", result); } /** * Log throwing an exception. *

* This is a convenience method to log that a method is * terminating by throwing an exception. The logging is done * using the FINER level. *

* If the logger is currently enabled for the given message * level then the given arguments are stored in a LogRecord * which is forwarded to all registered output handlers. The * LogRecord's message is set to "THROW". *

* Note that the thrown argument is stored in the LogRecord thrown * property, rather than the LogRecord parameters property. Thus is it * processed specially by output Formatters and is not treated * as a formatting parameter to the LogRecord message property. *

* @param sourceClass name of class that issued the logging request * @param sourceMethod name of the method. * @param thrown The Throwable that is being thrown. */ public void throwing(String sourceClass, String sourceMethod, Throwable thrown) { if (Level.FINER.intValue() < levelValue || levelValue == offValue ) { return; } LogRecord lr = new LogRecord(Level.FINER, "THROW"); lr.setSourceClassName(sourceClass); lr.setSourceMethodName(sourceMethod); lr.setThrown(thrown); doLog(lr); } //======================================================================= // Start of simple convenience methods using level names as method names //======================================================================= /** * Log a SEVERE message. *

* If the logger is currently enabled for the SEVERE message * level then the given message is forwarded to all the * registered output Handler objects. *

* @param msg The string message (or a key in the message catalog) */ public void severe(String msg) { if (Level.SEVERE.intValue() < levelValue) { return; } log(Level.SEVERE, msg); } /** * Log a WARNING message. *

* If the logger is currently enabled for the WARNING message * level then the given message is forwarded to all the * registered output Handler objects. *

* @param msg The string message (or a key in the message catalog) */ public void warning(String msg) { if (Level.WARNING.intValue() < levelValue) { return; } log(Level.WARNING, msg); } /** * Log an INFO message. *

* If the logger is currently enabled for the INFO message * level then the given message is forwarded to all the * registered output Handler objects. *

* @param msg The string message (or a key in the message catalog) */ public void info(String msg) { if (Level.INFO.intValue() < levelValue) { return; } log(Level.INFO, msg); } /** * Log a CONFIG message. *

* If the logger is currently enabled for the CONFIG message * level then the given message is forwarded to all the * registered output Handler objects. *

* @param msg The string message (or a key in the message catalog) */ public void config(String msg) { if (Level.CONFIG.intValue() < levelValue) { return; } log(Level.CONFIG, msg); } /** * Log a FINE message. *

* If the logger is currently enabled for the FINE message * level then the given message is forwarded to all the * registered output Handler objects. *

* @param msg The string message (or a key in the message catalog) */ public void fine(String msg) { if (Level.FINE.intValue() < levelValue) { return; } log(Level.FINE, msg); } /** * Log a FINER message. *

* If the logger is currently enabled for the FINER message * level then the given message is forwarded to all the * registered output Handler objects. *

* @param msg The string message (or a key in the message catalog) */ public void finer(String msg) { if (Level.FINER.intValue() < levelValue) { return; } log(Level.FINER, msg); } /** * Log a FINEST message. *

* If the logger is currently enabled for the FINEST message * level then the given message is forwarded to all the * registered output Handler objects. *

* @param msg The string message (or a key in the message catalog) */ public void finest(String msg) { if (Level.FINEST.intValue() < levelValue) { return; } log(Level.FINEST, msg); } //================================================================ // End of convenience methods //================================================================ /** * Set the log level specifying which message levels will be * logged by this logger. Message levels lower than this * value will be discarded. The level value Level.OFF * can be used to turn off logging. *

* If the new level is null, it means that this node should * inherit its level from its nearest ancestor with a specific * (non-null) level value. * * @param newLevel the new value for the log level (may be null) * @exception SecurityException if a security manager exists and if * the caller does not have LoggingPermission("control"). */ public void setLevel(Level newLevel) throws SecurityException { levelValue = newLevel.intValue(); levelObject = newLevel; } /** * Get the log Level that has been specified for this Logger. * The result may be null, which means that this logger's * effective level will be inherited from its parent. * * @return this Logger's level */ public Level getLevel() { return levelObject; } /** * Check if a message of the given level would actually be logged * by this logger. This check is based on the Loggers effective level, * which may be inherited from its parent. * * @param level a message logging level * @return true if the given message level is currently being logged. */ public boolean isLoggable(Level level) { if (level.intValue() < levelValue || levelValue == offValue) { return false; } return true; } /** * Get the name for this logger. * @return logger name. Will be null for anonymous Loggers. */ public String getName() { return name; } /** * Add a log Handler to receive logging messages. *

* By default, Loggers also send their output to their parent logger. * Typically the root Logger is configured with a set of Handlers * that essentially act as default handlers for all loggers. * * @param handler a logging Handler * @exception SecurityException if a security manager exists and if * the caller does not have LoggingPermission("control"). */ // public void addHandler(Handler handler) throws SecurityException { // // Check for null handler // handler.getClass(); // checkAccess(); // handlers.add(handler); // } /** * Remove a log Handler. *

* Returns silently if the given Handler is not found or is null * * @param handler a logging Handler * @exception SecurityException if a security manager exists and if * the caller does not have LoggingPermission("control"). */ // public void removeHandler(Handler handler) throws SecurityException { // checkAccess(); // if (handler == null) { // return; // } // handlers.remove(handler); // } /** * Get the Handlers associated with this logger. *

* @return an array of all registered Handlers */ // public Handler[] getHandlers() { // return handlers.toArray(emptyHandlers); // } /** * Specify whether or not this logger should send its output * to its parent Logger. This means that any LogRecords will * also be written to the parent's Handlers, and potentially * to its parent, recursively up the namespace. * * @param useParentHandlers true if output is to be sent to the * logger's parent. * @exception SecurityException if a security manager exists and if * the caller does not have LoggingPermission("control"). */ public void setUseParentHandlers(boolean useParentHandlers) { checkAccess(); } /** * Discover whether or not this logger is sending its output * to its parent logger. * * @return true if output is to be sent to the logger's parent */ public boolean getUseParentHandlers() { return true; } /** * Return the parent for this Logger. *

* This method returns the nearest extant parent in the namespace. * Thus if a Logger is called "a.b.c.d", and a Logger called "a.b" * has been created but no logger "a.b.c" exists, then a call of * getParent on the Logger "a.b.c.d" will return the Logger "a.b". *

* The result will be null if it is called on the root Logger * in the namespace. * * @return nearest existing parent Logger */ public Logger getParent() { // Note: this used to be synchronized on treeLock. However, this only // provided memory semantics, as there was no guarantee that the caller // would synchronize on treeLock (in fact, there is no way for external // callers to so synchronize). Therefore, we have made parent volatile // instead. String n = getName(); int at = n.length(); for (;;) { int last = n.lastIndexOf('.', at - 1); if (last == -1) { return getGlobal(); } Logger p = ALL.get(n.substring(0, last)); if (p != null) { return p; } at = last; } } /** * Set the parent for this Logger. This method is used by * the LogManager to update a Logger when the namespace changes. *

* It should not be called from application code. *

* @param parent the new parent logger * @exception SecurityException if a security manager exists and if * the caller does not have LoggingPermission("control"). */ public void setParent(Logger parent) { if (parent == null) { throw new NullPointerException(); } checkAccess(); } }





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