-// Thread.java - Thread class.
+/* Thread -- an independent thread of executable code
+ Copyright (C) 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006
+ Free Software Foundation
-/* Copyright (C) 1998, 1999 Red Hat, Inc.
+This file is part of GNU Classpath.
- This file is part of libgcj.
+GNU Classpath is free software; you can redistribute it and/or modify
+it under the terms of the GNU General Public License as published by
+the Free Software Foundation; either version 2, or (at your option)
+any later version.
+
+GNU Classpath is distributed in the hope that it will be useful, but
+WITHOUT ANY WARRANTY; without even the implied warranty of
+MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+General Public License for more details.
+
+You should have received a copy of the GNU General Public License
+along with GNU Classpath; see the file COPYING. If not, write to the
+Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
+02110-1301 USA.
+
+Linking this library statically or dynamically with other modules is
+making a combined work based on this library. Thus, the terms and
+conditions of the GNU General Public License cover the whole
+combination.
+
+As a special exception, the copyright holders of this library give you
+permission to link this library with independent modules to produce an
+executable, regardless of the license terms of these independent
+modules, and to copy and distribute the resulting executable under
+terms of your choice, provided that you also meet, for each linked
+independent module, the terms and conditions of the license of that
+module. An independent module is a module which is not derived from
+or based on this library. If you modify this library, you may extend
+this exception to your version of the library, but you are not
+obligated to do so. If you do not wish to do so, delete this
+exception statement from your version. */
-This software is copyrighted work licensed under the terms of the
-Libgcj License. Please consult the file "LIBGCJ_LICENSE" for
-details. */
package java.lang;
-/**
- * @author Tom Tromey <tromey@cygnus.com>
- * @date August 24, 1998
- */
+import gnu.gcj.RawData;
+import gnu.gcj.RawDataManaged;
+import gnu.java.util.WeakIdentityHashMap;
+import java.util.Map;
/* Written using "Java Class Libraries", 2nd edition, ISBN 0-201-31002-3
* "The Java Language Specification", ISBN 0-201-63451-1
* plus online API docs for JDK 1.2 beta from http://www.javasoft.com.
- * Status: Complete to version 1.1, with caveats
- * Known problems:
- * No attempt was made to implement suspend/resume
- * (this could be done in some cases)
- * Various methods which assume a VM are likewise unimplemented
- * We do implement stop() even though it is deprecated.
+ * Status: Believed complete to version 1.4, with caveats. We do not
+ * implement the deprecated (and dangerous) stop, suspend, and resume
+ * methods. Security implementation is not complete.
*/
+/**
+ * Thread represents a single thread of execution in the VM. When an
+ * application VM starts up, it creates a non-daemon Thread which calls the
+ * main() method of a particular class. There may be other Threads running,
+ * such as the garbage collection thread.
+ *
+ * <p>Threads have names to identify them. These names are not necessarily
+ * unique. Every Thread has a priority, as well, which tells the VM which
+ * Threads should get more running time. New threads inherit the priority
+ * and daemon status of the parent thread, by default.
+ *
+ * <p>There are two methods of creating a Thread: you may subclass Thread and
+ * implement the <code>run()</code> method, at which point you may start the
+ * Thread by calling its <code>start()</code> method, or you may implement
+ * <code>Runnable</code> in the class you want to use and then call new
+ * <code>Thread(your_obj).start()</code>.
+ *
+ * <p>The virtual machine runs until all non-daemon threads have died (either
+ * by returning from the run() method as invoked by start(), or by throwing
+ * an uncaught exception); or until <code>System.exit</code> is called with
+ * adequate permissions.
+ *
+ * <p>It is unclear at what point a Thread should be added to a ThreadGroup,
+ * and at what point it should be removed. Should it be inserted when it
+ * starts, or when it is created? Should it be removed when it is suspended
+ * or interrupted? The only thing that is clear is that the Thread should be
+ * removed when it is stopped.
+ *
+ * @author Tom Tromey
+ * @author John Keiser
+ * @author Eric Blake (ebb9@email.byu.edu)
+ * @see Runnable
+ * @see Runtime#exit(int)
+ * @see #run()
+ * @see #start()
+ * @see ThreadLocal
+ * @since 1.0
+ * @status updated to 1.4
+ */
public class Thread implements Runnable
{
- public final static int MAX_PRIORITY = 10;
- public final static int MIN_PRIORITY = 1;
- public final static int NORM_PRIORITY = 5;
+ /** The minimum priority for a Thread. */
+ public static final int MIN_PRIORITY = 1;
+
+ /** The priority a Thread gets by default. */
+ public static final int NORM_PRIORITY = 5;
+
+ /** The maximum priority for a Thread. */
+ public static final int MAX_PRIORITY = 10;
+
+ /**
+ * The group this thread belongs to. This is set to null by
+ * ThreadGroup.removeThread when the thread dies.
+ */
+ ThreadGroup group;
+
+ /** The object to run(), null if this is the target. */
+ private Runnable runnable;
+
+ /** The thread name, non-null. */
+ String name;
+
+ /** Whether the thread is a daemon. */
+ private boolean daemon;
+
+ /** The thread priority, 1 to 10. */
+ private int priority;
+
+ boolean interrupt_flag;
+ private boolean alive_flag;
+ private boolean startable_flag;
+
+ /** The context classloader for this Thread. */
+ private ClassLoader contextClassLoader;
- public static int activeCount ()
+ /** This thread's ID. */
+ private final long threadId;
+
+ /** The next thread ID to use. */
+ private static long nextThreadId;
+
+ /** The default exception handler. */
+ private static UncaughtExceptionHandler defaultHandler;
+
+ /** Thread local storage. Package accessible for use by
+ * InheritableThreadLocal.
+ */
+ WeakIdentityHashMap locals;
+
+ /** The uncaught exception handler. */
+ UncaughtExceptionHandler exceptionHandler;
+
+ // This describes the top-most interpreter frame for this thread.
+ RawData interp_frame;
+
+ // Our native data - points to an instance of struct natThread.
+ private RawDataManaged data;
+
+ /**
+ * Allocates a new <code>Thread</code> object. This constructor has
+ * the same effect as <code>Thread(null, null,</code>
+ * <i>gname</i><code>)</code>, where <b><i>gname</i></b> is
+ * a newly generated name. Automatically generated names are of the
+ * form <code>"Thread-"+</code><i>n</i>, where <i>n</i> is an integer.
+ * <p>
+ * Threads created this way must have overridden their
+ * <code>run()</code> method to actually do anything. An example
+ * illustrating this method being used follows:
+ * <p><blockquote><pre>
+ * import java.lang.*;
+ *
+ * class plain01 implements Runnable {
+ * String name;
+ * plain01() {
+ * name = null;
+ * }
+ * plain01(String s) {
+ * name = s;
+ * }
+ * public void run() {
+ * if (name == null)
+ * System.out.println("A new thread created");
+ * else
+ * System.out.println("A new thread with name " + name +
+ * " created");
+ * }
+ * }
+ * class threadtest01 {
+ * public static void main(String args[] ) {
+ * int failed = 0 ;
+ *
+ * <b>Thread t1 = new Thread();</b>
+ * if (t1 != null)
+ * System.out.println("new Thread() succeed");
+ * else {
+ * System.out.println("new Thread() failed");
+ * failed++;
+ * }
+ * }
+ * }
+ * </pre></blockquote>
+ *
+ * @see java.lang.Thread#Thread(java.lang.ThreadGroup,
+ * java.lang.Runnable, java.lang.String)
+ */
+ public Thread()
{
- return currentThread().getThreadGroup().activeCount();
+ this(null, null, gen_name());
}
- public void checkAccess ()
+ /**
+ * Allocates a new <code>Thread</code> object. This constructor has
+ * the same effect as <code>Thread(null, target,</code>
+ * <i>gname</i><code>)</code>, where <i>gname</i> is
+ * a newly generated name. Automatically generated names are of the
+ * form <code>"Thread-"+</code><i>n</i>, where <i>n</i> is an integer.
+ *
+ * @param target the object whose <code>run</code> method is called.
+ * @see java.lang.Thread#Thread(java.lang.ThreadGroup,
+ * java.lang.Runnable, java.lang.String)
+ */
+ public Thread(Runnable target)
{
- SecurityManager s = System.getSecurityManager();
- if (s != null)
- s.checkAccess(this);
+ this(null, target, gen_name());
}
- public native int countStackFrames ();
- public static native Thread currentThread ();
- public native void destroy ();
- public static native void dumpStack ();
+ /**
+ * Allocates a new <code>Thread</code> object. This constructor has
+ * the same effect as <code>Thread(null, null, name)</code>.
+ *
+ * @param name the name of the new thread.
+ * @see java.lang.Thread#Thread(java.lang.ThreadGroup,
+ * java.lang.Runnable, java.lang.String)
+ */
+ public Thread(String name)
+ {
+ this(null, null, name);
+ }
- public static int enumerate (Thread[] threads)
+ /**
+ * Allocates a new <code>Thread</code> object. This constructor has
+ * the same effect as <code>Thread(group, target,</code>
+ * <i>gname</i><code>)</code>, where <i>gname</i> is
+ * a newly generated name. Automatically generated names are of the
+ * form <code>"Thread-"+</code><i>n</i>, where <i>n</i> is an integer.
+ *
+ * @param group the group to put the Thread into
+ * @param target the Runnable object to execute
+ * @throws SecurityException if this thread cannot access <code>group</code>
+ * @throws IllegalThreadStateException if group is destroyed
+ * @see #Thread(ThreadGroup, Runnable, String)
+ */
+ public Thread(ThreadGroup group, Runnable target)
{
- return currentThread().group.enumerate(threads);
+ this(group, target, gen_name());
}
- public final String getName ()
+ /**
+ * Allocates a new <code>Thread</code> object. This constructor has
+ * the same effect as <code>Thread(group, null, name)</code>
+ *
+ * @param group the group to put the Thread into
+ * @param name the name for the Thread
+ * @throws NullPointerException if name is null
+ * @throws SecurityException if this thread cannot access <code>group</code>
+ * @throws IllegalThreadStateException if group is destroyed
+ * @see #Thread(ThreadGroup, Runnable, String)
+ */
+ public Thread(ThreadGroup group, String name)
+ {
+ this(group, null, name);
+ }
+
+ /**
+ * Allocates a new <code>Thread</code> object. This constructor has
+ * the same effect as <code>Thread(null, target, name)</code>.
+ *
+ * @param target the Runnable object to execute
+ * @param name the name for the Thread
+ * @throws NullPointerException if name is null
+ * @see #Thread(ThreadGroup, Runnable, String)
+ */
+ public Thread(Runnable target, String name)
+ {
+ this(null, target, name);
+ }
+
+ /**
+ * Allocate a new Thread object, with the specified ThreadGroup and name, and
+ * using the specified Runnable object's <code>run()</code> method to
+ * execute. If the Runnable object is null, <code>this</code> (which is
+ * a Runnable) is used instead.
+ *
+ * <p>If the ThreadGroup is null, the security manager is checked. If a
+ * manager exists and returns a non-null object for
+ * <code>getThreadGroup</code>, that group is used; otherwise the group
+ * of the creating thread is used. Note that the security manager calls
+ * <code>checkAccess</code> if the ThreadGroup is not null.
+ *
+ * <p>The new Thread will inherit its creator's priority and daemon status.
+ * These can be changed with <code>setPriority</code> and
+ * <code>setDaemon</code>.
+ *
+ * @param group the group to put the Thread into
+ * @param target the Runnable object to execute
+ * @param name the name for the Thread
+ * @throws NullPointerException if name is null
+ * @throws SecurityException if this thread cannot access <code>group</code>
+ * @throws IllegalThreadStateException if group is destroyed
+ * @see Runnable#run()
+ * @see #run()
+ * @see #setDaemon(boolean)
+ * @see #setPriority(int)
+ * @see SecurityManager#checkAccess(ThreadGroup)
+ * @see ThreadGroup#checkAccess()
+ */
+ public Thread(ThreadGroup group, Runnable target, String name)
+ {
+ this(currentThread(), group, target, name);
+ }
+
+ /**
+ * Allocate a new Thread object, as if by
+ * <code>Thread(group, null, name)</code>, and give it the specified stack
+ * size, in bytes. The stack size is <b>highly platform independent</b>,
+ * and the virtual machine is free to round up or down, or ignore it
+ * completely. A higher value might let you go longer before a
+ * <code>StackOverflowError</code>, while a lower value might let you go
+ * longer before an <code>OutOfMemoryError</code>. Or, it may do absolutely
+ * nothing! So be careful, and expect to need to tune this value if your
+ * virtual machine even supports it.
+ *
+ * @param group the group to put the Thread into
+ * @param target the Runnable object to execute
+ * @param name the name for the Thread
+ * @param size the stack size, in bytes; 0 to be ignored
+ * @throws NullPointerException if name is null
+ * @throws SecurityException if this thread cannot access <code>group</code>
+ * @throws IllegalThreadStateException if group is destroyed
+ * @since 1.4
+ */
+ public Thread(ThreadGroup group, Runnable target, String name, long size)
+ {
+ // Just ignore stackSize for now.
+ this(currentThread(), group, target, name);
+ }
+
+ private Thread (Thread current, ThreadGroup g, Runnable r, String n)
+ {
+ // Make sure the current thread may create a new thread.
+ checkAccess();
+
+ // The Class Libraries book says ``threadName cannot be null''. I
+ // take this to mean NullPointerException.
+ if (n == null)
+ throw new NullPointerException ();
+
+ if (g == null)
+ {
+ // If CURRENT is null, then we are bootstrapping the first thread.
+ // Use ThreadGroup.root, the main threadgroup.
+ if (current == null)
+ group = ThreadGroup.root;
+ else
+ group = current.getThreadGroup();
+ }
+ else
+ group = g;
+
+ data = null;
+ interrupt_flag = false;
+ alive_flag = false;
+ startable_flag = true;
+
+ synchronized (Thread.class)
+ {
+ this.threadId = nextThreadId++;
+ }
+
+ if (current != null)
+ {
+ group.checkAccess();
+
+ daemon = current.isDaemon();
+ int gmax = group.getMaxPriority();
+ int pri = current.getPriority();
+ priority = (gmax < pri ? gmax : pri);
+ contextClassLoader = current.contextClassLoader;
+ InheritableThreadLocal.newChildThread(this);
+ }
+ else
+ {
+ daemon = false;
+ priority = NORM_PRIORITY;
+ }
+
+ name = n;
+ group.addThread(this);
+ runnable = r;
+
+ initialize_native ();
+ }
+
+ /**
+ * Get the number of active threads in the current Thread's ThreadGroup.
+ * This implementation calls
+ * <code>currentThread().getThreadGroup().activeCount()</code>.
+ *
+ * @return the number of active threads in the current ThreadGroup
+ * @see ThreadGroup#activeCount()
+ */
+ public static int activeCount()
+ {
+ return currentThread().group.activeCount();
+ }
+
+ /**
+ * Check whether the current Thread is allowed to modify this Thread. This
+ * passes the check on to <code>SecurityManager.checkAccess(this)</code>.
+ *
+ * @throws SecurityException if the current Thread cannot modify this Thread
+ * @see SecurityManager#checkAccess(Thread)
+ */
+ public final void checkAccess()
+ {
+ SecurityManager sm = System.getSecurityManager();
+ if (sm != null)
+ sm.checkAccess(this);
+ }
+
+ /**
+ * Count the number of stack frames in this Thread. The Thread in question
+ * must be suspended when this occurs.
+ *
+ * @return the number of stack frames in this Thread
+ * @throws IllegalThreadStateException if this Thread is not suspended
+ * @deprecated pointless, since suspend is deprecated
+ */
+ public native int countStackFrames();
+
+ /**
+ * Get the currently executing Thread.
+ *
+ * @return the currently executing Thread
+ */
+ public static native Thread currentThread();
+
+ /**
+ * Originally intended to destroy this thread, this method was never
+ * implemented by Sun, and is hence a no-op.
+ */
+ public void destroy()
+ {
+ throw new NoSuchMethodError();
+ }
+
+ /**
+ * Print a stack trace of the current thread to stderr using the same
+ * format as Throwable's printStackTrace() method.
+ *
+ * @see Throwable#printStackTrace()
+ */
+ public static void dumpStack()
+ {
+ (new Exception("Stack trace")).printStackTrace();
+ }
+
+ /**
+ * Copy every active thread in the current Thread's ThreadGroup into the
+ * array. Extra threads are silently ignored. This implementation calls
+ * <code>getThreadGroup().enumerate(array)</code>, which may have a
+ * security check, <code>checkAccess(group)</code>.
+ *
+ * @param array the array to place the Threads into
+ * @return the number of Threads placed into the array
+ * @throws NullPointerException if array is null
+ * @throws SecurityException if you cannot access the ThreadGroup
+ * @see ThreadGroup#enumerate(Thread[])
+ * @see #activeCount()
+ * @see SecurityManager#checkAccess(ThreadGroup)
+ */
+ public static int enumerate(Thread[] array)
+ {
+ return currentThread().group.enumerate(array);
+ }
+
+ /**
+ * Get this Thread's name.
+ *
+ * @return this Thread's name
+ */
+ public final String getName()
{
return name;
}
- public final int getPriority ()
+ /**
+ * Get this Thread's priority.
+ *
+ * @return the Thread's priority
+ */
+ public final int getPriority()
{
return priority;
}
- public final ThreadGroup getThreadGroup ()
+ /**
+ * Get the ThreadGroup this Thread belongs to. If the thread has died, this
+ * returns null.
+ *
+ * @return this Thread's ThreadGroup
+ */
+ public final ThreadGroup getThreadGroup()
{
return group;
}
- public native void interrupt ();
+ /**
+ * Checks whether the current thread holds the monitor on a given object.
+ * This allows you to do <code>assert Thread.holdsLock(obj)</code>.
+ *
+ * @param obj the object to test lock ownership on.
+ * @return true if the current thread is currently synchronized on obj
+ * @throws NullPointerException if obj is null
+ * @since 1.4
+ */
+ public static native boolean holdsLock(Object obj);
+
+ /**
+ * Interrupt this Thread. First, there is a security check,
+ * <code>checkAccess</code>. Then, depending on the current state of the
+ * thread, various actions take place:
+ *
+ * <p>If the thread is waiting because of {@link #wait()},
+ * {@link #sleep(long)}, or {@link #join()}, its <i>interrupt status</i>
+ * will be cleared, and an InterruptedException will be thrown. Notice that
+ * this case is only possible if an external thread called interrupt().
+ *
+ * <p>If the thread is blocked in an interruptible I/O operation, in
+ * {@link java.nio.channels.InterruptibleChannel}, the <i>interrupt
+ * status</i> will be set, and ClosedByInterruptException will be thrown.
+ *
+ * <p>If the thread is blocked on a {@link java.nio.channels.Selector}, the
+ * <i>interrupt status</i> will be set, and the selection will return, with
+ * a possible non-zero value, as though by the wakeup() method.
+ *
+ * <p>Otherwise, the interrupt status will be set.
+ *
+ * @throws SecurityException if you cannot modify this Thread
+ */
+ public native void interrupt();
- public static boolean interrupted ()
+ /**
+ * Determine whether the current Thread has been interrupted, and clear
+ * the <i>interrupted status</i> in the process.
+ *
+ * @return whether the current Thread has been interrupted
+ * @see #isInterrupted()
+ */
+ public static boolean interrupted()
{
- return currentThread().isInterrupted_();
+ return currentThread().isInterrupted(true);
}
- // FIXME: it seems to me that this should be synchronized.
- // Check the threads interrupted status. Note that this does not clear the
- // threads interrupted status (per JDK 1.2 online API documentation).
- public boolean isInterrupted ()
+ /**
+ * Determine whether the given Thread has been interrupted, but leave
+ * the <i>interrupted status</i> alone in the process.
+ *
+ * @return whether the Thread has been interrupted
+ * @see #interrupted()
+ */
+ public boolean isInterrupted()
{
return interrupt_flag;
}
- public final boolean isAlive ()
+ /**
+ * Determine whether this Thread is alive. A thread which is alive has
+ * started and not yet died.
+ *
+ * @return whether this Thread is alive
+ */
+ public final synchronized boolean isAlive()
{
return alive_flag;
}
- public final boolean isDaemon ()
+ /**
+ * Tell whether this is a daemon Thread or not.
+ *
+ * @return whether this is a daemon Thread or not
+ * @see #setDaemon(boolean)
+ */
+ public final boolean isDaemon()
{
- return daemon_flag;
+ return daemon;
}
- public final void join () throws InterruptedException
+ /**
+ * Wait forever for the Thread in question to die.
+ *
+ * @throws InterruptedException if the Thread is interrupted; it's
+ * <i>interrupted status</i> will be cleared
+ */
+ public final void join() throws InterruptedException
{
- join (0, 0);
+ join(0, 0);
}
- public final void join (long timeout) throws InterruptedException
+ /**
+ * Wait the specified amount of time for the Thread in question to die.
+ *
+ * @param ms the number of milliseconds to wait, or 0 for forever
+ * @throws InterruptedException if the Thread is interrupted; it's
+ * <i>interrupted status</i> will be cleared
+ */
+ public final void join(long ms) throws InterruptedException
{
- join (timeout, 0);
+ join(ms, 0);
}
- public final native void join (long timeout, int nanos)
+ /**
+ * Wait the specified amount of time for the Thread in question to die.
+ *
+ * <p>Note that 1,000,000 nanoseconds == 1 millisecond, but most VMs do
+ * not offer that fine a grain of timing resolution. Besides, there is
+ * no guarantee that this thread can start up immediately when time expires,
+ * because some other thread may be active. So don't expect real-time
+ * performance.
+ *
+ * @param ms the number of milliseconds to wait, or 0 for forever
+ * @param ns the number of extra nanoseconds to sleep (0-999999)
+ * @throws InterruptedException if the Thread is interrupted; it's
+ * <i>interrupted status</i> will be cleared
+ * @throws IllegalArgumentException if ns is invalid
+ * @XXX A ThreadListener would be nice, to make this efficient.
+ */
+ public final native void join(long ms, int ns)
throws InterruptedException;
- public final native void resume ();
+ /**
+ * Resume a suspended thread.
+ *
+ * @throws SecurityException if you cannot resume the Thread
+ * @see #checkAccess()
+ * @see #suspend()
+ * @deprecated pointless, since suspend is deprecated
+ */
+ public final native void resume();
- // This method exists only to avoid a warning from the C++ compiler.
- private static final native void run__ (Object obj);
- private native final void finish_ ();
+ private final native void finish_();
- // Convenience method to check and clear the thread's interrupted status.
- private boolean isInterrupted_ ()
+ /**
+ * Determine whether the given Thread has been interrupted, but leave
+ * the <i>interrupted status</i> alone in the process.
+ *
+ * @return whether the current Thread has been interrupted
+ * @see #interrupted()
+ */
+ private boolean isInterrupted(boolean clear_flag)
{
boolean r = interrupt_flag;
- interrupt_flag = false;
+ if (clear_flag && r)
+ {
+ // Only clear the flag if we saw it as set. Otherwise this could
+ // potentially cause us to miss an interrupt in a race condition,
+ // because this method is not synchronized.
+ interrupt_flag = false;
+ }
return r;
}
- private final void run_ ()
+ /**
+ * The method of Thread that will be run if there is no Runnable object
+ * associated with the Thread. Thread's implementation does nothing at all.
+ *
+ * @see #start()
+ * @see #Thread(ThreadGroup, Runnable, String)
+ */
+ public void run()
{
- try
- {
- run ();
- }
- catch (Throwable e)
+ if (runnable != null)
+ runnable.run();
+ }
+
+ /**
+ * Set the daemon status of this Thread. If this is a daemon Thread, then
+ * the VM may exit even if it is still running. This may only be called
+ * before the Thread starts running. There may be a security check,
+ * <code>checkAccess</code>.
+ *
+ * @param daemon whether this should be a daemon thread or not
+ * @throws SecurityException if you cannot modify this Thread
+ * @throws IllegalThreadStateException if the Thread is active
+ * @see #isDaemon()
+ * @see #checkAccess()
+ */
+ public final void setDaemon(boolean daemon)
+ {
+ if (!startable_flag)
+ throw new IllegalThreadStateException();
+ checkAccess();
+ this.daemon = daemon;
+ }
+
+ /**
+ * Returns the context classloader of this Thread. The context
+ * classloader can be used by code that want to load classes depending
+ * on the current thread. Normally classes are loaded depending on
+ * the classloader of the current class. There may be a security check
+ * for <code>RuntimePermission("getClassLoader")</code> if the caller's
+ * class loader is not null or an ancestor of this thread's context class
+ * loader.
+ *
+ * @return the context class loader
+ * @throws SecurityException when permission is denied
+ * @see setContextClassLoader(ClassLoader)
+ * @since 1.2
+ */
+ public synchronized ClassLoader getContextClassLoader()
+ {
+ if (contextClassLoader == null)
+ contextClassLoader = ClassLoader.getSystemClassLoader();
+
+ SecurityManager sm = System.getSecurityManager();
+ // FIXME: we can't currently find the caller's class loader.
+ ClassLoader callers = null;
+ if (sm != null && callers != null)
{
- // Uncaught exceptions are forwarded to the ThreadGroup. If
- // this results in an uncaught exception, that is ignored.
- try
- {
- group.uncaughtException(this, e);
- }
- catch (Throwable f)
+ // See if the caller's class loader is the same as or an
+ // ancestor of this thread's class loader.
+ while (callers != null && callers != contextClassLoader)
{
- // Nothing.
+ // FIXME: should use some internal version of getParent
+ // that avoids security checks.
+ callers = callers.getParent();
}
+
+ if (callers != contextClassLoader)
+ sm.checkPermission(new RuntimePermission("getClassLoader"));
}
- finish_ ();
- }
- public void run ()
- {
- if (runnable != null)
- runnable.run();
+ return contextClassLoader;
}
- public final void setDaemon (boolean status)
+ /**
+ * Sets the context classloader for this Thread. When not explicitly set,
+ * the context classloader for a thread is the same as the context
+ * classloader of the thread that created this thread. The first thread has
+ * as context classloader the system classloader. There may be a security
+ * check for <code>RuntimePermission("setContextClassLoader")</code>.
+ *
+ * @param classloader the new context class loader
+ * @throws SecurityException when permission is denied
+ * @see getContextClassLoader()
+ * @since 1.2
+ */
+ public synchronized void setContextClassLoader(ClassLoader classloader)
{
- checkAccess ();
- if (isAlive ())
- throw new IllegalThreadStateException ();
- daemon_flag = status;
+ SecurityManager sm = System.getSecurityManager();
+ if (sm != null)
+ sm.checkPermission(new RuntimePermission("setContextClassLoader"));
+ this.contextClassLoader = classloader;
}
- // TODO12:
- // public ClassLoader getContextClassLoader()
- // {
- // }
-
- // TODO12:
- // public void setContextClassLoader(ClassLoader cl)
- // {
- // }
-
- public final void setName (String n)
+ /**
+ * Set this Thread's name. There may be a security check,
+ * <code>checkAccess</code>.
+ *
+ * @param name the new name for this Thread
+ * @throws NullPointerException if name is null
+ * @throws SecurityException if you cannot modify this Thread
+ */
+ public final void setName(String name)
{
- checkAccess ();
+ checkAccess();
// The Class Libraries book says ``threadName cannot be null''. I
// take this to mean NullPointerException.
- if (n == null)
- throw new NullPointerException ();
- name = n;
+ if (name == null)
+ throw new NullPointerException();
+ this.name = name;
}
- public final native void setPriority (int newPriority);
+ /**
+ * Causes the currently executing thread object to temporarily pause
+ * and allow other threads to execute.
+ */
+ public static native void yield();
- public static void sleep (long timeout) throws InterruptedException
+ /**
+ * Suspend the current Thread's execution for the specified amount of
+ * time. The Thread will not lose any locks it has during this time. There
+ * are no guarantees which thread will be next to run, but most VMs will
+ * choose the highest priority thread that has been waiting longest.
+ *
+ * @param ms the number of milliseconds to sleep, or 0 for forever
+ * @throws InterruptedException if the Thread is interrupted; it's
+ * <i>interrupted status</i> will be cleared
+ * @see #notify()
+ * @see #wait(long)
+ */
+ public static void sleep(long ms) throws InterruptedException
{
- sleep (timeout, 0);
+ sleep(ms, 0);
}
- public static native void sleep (long timeout, int nanos)
+ /**
+ * Suspend the current Thread's execution for the specified amount of
+ * time. The Thread will not lose any locks it has during this time. There
+ * are no guarantees which thread will be next to run, but most VMs will
+ * choose the highest priority thread that has been waiting longest.
+ *
+ * <p>Note that 1,000,000 nanoseconds == 1 millisecond, but most VMs do
+ * not offer that fine a grain of timing resolution. Besides, there is
+ * no guarantee that this thread can start up immediately when time expires,
+ * because some other thread may be active. So don't expect real-time
+ * performance.
+ *
+ * @param ms the number of milliseconds to sleep, or 0 for forever
+ * @param ns the number of extra nanoseconds to sleep (0-999999)
+ * @throws InterruptedException if the Thread is interrupted; it's
+ * <i>interrupted status</i> will be cleared
+ * @throws IllegalArgumentException if ns is invalid
+ * @see #notify()
+ * @see #wait(long, int)
+ */
+ public static native void sleep(long timeout, int nanos)
throws InterruptedException;
- public synchronized native void start ();
- public final void stop ()
+ /**
+ * Start this Thread, calling the run() method of the Runnable this Thread
+ * was created with, or else the run() method of the Thread itself. This
+ * is the only way to start a new thread; calling run by yourself will just
+ * stay in the same thread. The virtual machine will remove the thread from
+ * its thread group when the run() method completes.
+ *
+ * @throws IllegalThreadStateException if the thread has already started
+ * @see #run()
+ */
+ public native void start();
+
+ /**
+ * Cause this Thread to stop abnormally because of the throw of a ThreadDeath
+ * error. If you stop a Thread that has not yet started, it will stop
+ * immediately when it is actually started.
+ *
+ * <p>This is inherently unsafe, as it can interrupt synchronized blocks and
+ * leave data in bad states. Hence, there is a security check:
+ * <code>checkAccess(this)</code>, plus another one if the current thread
+ * is not this: <code>RuntimePermission("stopThread")</code>. If you must
+ * catch a ThreadDeath, be sure to rethrow it after you have cleaned up.
+ * ThreadDeath is the only exception which does not print a stack trace when
+ * the thread dies.
+ *
+ * @throws SecurityException if you cannot stop the Thread
+ * @see #interrupt()
+ * @see #checkAccess()
+ * @see #start()
+ * @see ThreadDeath
+ * @see ThreadGroup#uncaughtException(Thread, Throwable)
+ * @see SecurityManager#checkAccess(Thread)
+ * @see SecurityManager#checkPermission(Permission)
+ * @deprecated unsafe operation, try not to use
+ */
+ public final void stop()
{
// Argument doesn't matter, because this is no longer
// supported.
- stop (null);
+ stop(null);
}
- public final synchronized native void stop (Throwable e);
- public final native void suspend ();
+ /**
+ * Cause this Thread to stop abnormally and throw the specified exception.
+ * If you stop a Thread that has not yet started, it will stop immediately
+ * when it is actually started. <b>WARNING</b>This bypasses Java security,
+ * and can throw a checked exception which the call stack is unprepared to
+ * handle. Do not abuse this power.
+ *
+ * <p>This is inherently unsafe, as it can interrupt synchronized blocks and
+ * leave data in bad states. Hence, there is a security check:
+ * <code>checkAccess(this)</code>, plus another one if the current thread
+ * is not this: <code>RuntimePermission("stopThread")</code>. If you must
+ * catch a ThreadDeath, be sure to rethrow it after you have cleaned up.
+ * ThreadDeath is the only exception which does not print a stack trace when
+ * the thread dies.
+ *
+ * @param t the Throwable to throw when the Thread dies
+ * @throws SecurityException if you cannot stop the Thread
+ * @throws NullPointerException in the calling thread, if t is null
+ * @see #interrupt()
+ * @see #checkAccess()
+ * @see #start()
+ * @see ThreadDeath
+ * @see ThreadGroup#uncaughtException(Thread, Throwable)
+ * @see SecurityManager#checkAccess(Thread)
+ * @see SecurityManager#checkPermission(Permission)
+ * @deprecated unsafe operation, try not to use
+ */
+ public final native void stop(Throwable t);
+
+ /**
+ * Suspend this Thread. It will not come back, ever, unless it is resumed.
+ *
+ * <p>This is inherently unsafe, as the suspended thread still holds locks,
+ * and can potentially deadlock your program. Hence, there is a security
+ * check: <code>checkAccess</code>.
+ *
+ * @throws SecurityException if you cannot suspend the Thread
+ * @see #checkAccess()
+ * @see #resume()
+ * @deprecated unsafe operation, try not to use
+ */
+ public final native void suspend();
- private final native void initialize_native ();
+ /**
+ * Set this Thread's priority. There may be a security check,
+ * <code>checkAccess</code>, then the priority is set to the smaller of
+ * priority and the ThreadGroup maximum priority.
+ *
+ * @param priority the new priority for this Thread
+ * @throws IllegalArgumentException if priority exceeds MIN_PRIORITY or
+ * MAX_PRIORITY
+ * @throws SecurityException if you cannot modify this Thread
+ * @see #getPriority()
+ * @see #checkAccess()
+ * @see ThreadGroup#getMaxPriority()
+ * @see #MIN_PRIORITY
+ * @see #MAX_PRIORITY
+ */
+ public final native void setPriority(int newPriority);
- private final synchronized static String gen_name ()
+ /**
+ * Returns a string representation of this thread, including the
+ * thread's name, priority, and thread group.
+ *
+ * @return a human-readable String representing this Thread
+ */
+ public String toString()
{
- String n;
- n = "Thread-" + nextThreadNumber;
- ++nextThreadNumber;
- return n;
+ return ("Thread[" + name + "," + priority + ","
+ + (group == null ? "" : group.getName()) + "]");
}
- public Thread (ThreadGroup g, Runnable r, String n)
- {
- // Note that CURRENT can be null when we are creating the very
- // first thread. That's why we check it below.
- Thread current = currentThread ();
+ private final native void initialize_native();
- if (g != null)
- {
- // If CURRENT is null, then we are creating the first thread.
- // In this case we don't do the security check.
- if (current != null)
- g.checkAccess();
- }
- else
- g = current.getThreadGroup();
+ private final native static String gen_name();
- // The Class Libraries book says ``threadName cannot be null''. I
- // take this to mean NullPointerException.
- if (n == null)
- throw new NullPointerException ();
-
- name = n;
- group = g;
- g.add(this);
- runnable = r;
-
- data = null;
- interrupt_flag = false;
- alive_flag = false;
- if (current != null)
- {
- daemon_flag = current.isDaemon();
- priority = current.getPriority();
- }
- else
+ /**
+ * Returns the map used by ThreadLocal to store the thread local values.
+ */
+ static Map getThreadLocals()
+ {
+ Thread thread = currentThread();
+ Map locals = thread.locals;
+ if (locals == null)
{
- daemon_flag = false;
- priority = NORM_PRIORITY;
+ locals = thread.locals = new WeakIdentityHashMap();
}
-
- initialize_native ();
- }
-
- public Thread ()
- {
- this (null, null, gen_name ());
+ return locals;
}
- public Thread (Runnable r)
+ /**
+ * Assigns the given <code>UncaughtExceptionHandler</code> to this
+ * thread. This will then be called if the thread terminates due
+ * to an uncaught exception, pre-empting that of the
+ * <code>ThreadGroup</code>.
+ *
+ * @param h the handler to use for this thread.
+ * @throws SecurityException if the current thread can't modify this thread.
+ * @since 1.5
+ */
+ public void setUncaughtExceptionHandler(UncaughtExceptionHandler h)
{
- this (null, r, gen_name ());
+ SecurityManager sm = SecurityManager.current; // Be thread-safe.
+ if (sm != null)
+ sm.checkAccess(this);
+ exceptionHandler = h;
}
- public Thread (String n)
+ /**
+ * <p>
+ * Returns the handler used when this thread terminates due to an
+ * uncaught exception. The handler used is determined by the following:
+ * </p>
+ * <ul>
+ * <li>If this thread has its own handler, this is returned.</li>
+ * <li>If not, then the handler of the thread's <code>ThreadGroup</code>
+ * object is returned.</li>
+ * <li>If both are unavailable, then <code>null</code> is returned
+ * (which can only happen when the thread was terminated since
+ * then it won't have an associated thread group anymore).</li>
+ * </ul>
+ *
+ * @return the appropriate <code>UncaughtExceptionHandler</code> or
+ * <code>null</code> if one can't be obtained.
+ * @since 1.5
+ */
+ public UncaughtExceptionHandler getUncaughtExceptionHandler()
{
- this (null, null, n);
+ return exceptionHandler != null ? exceptionHandler : group;
}
- public Thread (ThreadGroup g, Runnable r)
+ /**
+ * <p>
+ * Sets the default uncaught exception handler used when one isn't
+ * provided by the thread or its associated <code>ThreadGroup</code>.
+ * This exception handler is used when the thread itself does not
+ * have an exception handler, and the thread's <code>ThreadGroup</code>
+ * does not override this default mechanism with its own. As the group
+ * calls this handler by default, this exception handler should not defer
+ * to that of the group, as it may lead to infinite recursion.
+ * </p>
+ * <p>
+ * Uncaught exception handlers are used when a thread terminates due to
+ * an uncaught exception. Replacing this handler allows default code to
+ * be put in place for all threads in order to handle this eventuality.
+ * </p>
+ *
+ * @param h the new default uncaught exception handler to use.
+ * @throws SecurityException if a security manager is present and
+ * disallows the runtime permission
+ * "setDefaultUncaughtExceptionHandler".
+ * @since 1.5
+ */
+ public static void
+ setDefaultUncaughtExceptionHandler(UncaughtExceptionHandler h)
{
- this (g, r, gen_name ());
+ SecurityManager sm = SecurityManager.current; // Be thread-safe.
+ if (sm != null)
+ sm.checkPermission(new RuntimePermission("setDefaultUncaughtExceptionHandler"));
+ defaultHandler = h;
}
- public Thread (ThreadGroup g, String n)
+ /**
+ * Returns the handler used by default when a thread terminates
+ * unexpectedly due to an exception, or <code>null</code> if one doesn't
+ * exist.
+ *
+ * @return the default uncaught exception handler.
+ * @since 1.5
+ */
+ public static UncaughtExceptionHandler getDefaultUncaughtExceptionHandler()
{
- this (g, null, n);
+ return defaultHandler;
}
-
- public Thread (Runnable r, String n)
+
+ /**
+ * Returns the unique identifier for this thread. This ID is generated
+ * on thread creation, and may be re-used on its death.
+ *
+ * @return a positive long number representing the thread's ID.
+ * @since 1.5
+ */
+ public long getId()
{
- this (null, r, n);
+ return threadId;
}
- public String toString ()
+ /**
+ * <p>
+ * This interface is used to handle uncaught exceptions
+ * which cause a <code>Thread</code> to terminate. When
+ * a thread, t, is about to terminate due to an uncaught
+ * exception, the virtual machine looks for a class which
+ * implements this interface, in order to supply it with
+ * the dying thread and its uncaught exception.
+ * </p>
+ * <p>
+ * The virtual machine makes two attempts to find an
+ * appropriate handler for the uncaught exception, in
+ * the following order:
+ * </p>
+ * <ol>
+ * <li>
+ * <code>t.getUncaughtExceptionHandler()</code> --
+ * the dying thread is queried first for a handler
+ * specific to that thread.
+ * </li>
+ * <li>
+ * <code>t.getThreadGroup()</code> --
+ * the thread group of the dying thread is used to
+ * handle the exception. If the thread group has
+ * no special requirements for handling the exception,
+ * it may simply forward it on to
+ * <code>Thread.getDefaultUncaughtExceptionHandler()</code>,
+ * the default handler, which is used as a last resort.
+ * </li>
+ * </ol>
+ * <p>
+ * The first handler found is the one used to handle
+ * the uncaught exception.
+ * </p>
+ *
+ * @author Tom Tromey <tromey@redhat.com>
+ * @author Andrew John Hughes <gnu_andrew@member.fsf.org>
+ * @since 1.5
+ * @see Thread#getUncaughtExceptionHandler()
+ * @see Thread#setUncaughtExceptionHander(java.lang.Thread.UncaughtExceptionHandler)
+ * @see Thread#getDefaultUncaughtExceptionHandler()
+ * @see
+ * Thread#setDefaultUncaughtExceptionHandler(java.lang.Thread.UncaughtExceptionHandler)
+ */
+ public interface UncaughtExceptionHandler
{
- return "Thread[" + name + "," + priority + "," + group.getName() + "]";
+ /**
+ * Invoked by the virtual machine with the dying thread
+ * and the uncaught exception. Any exceptions thrown
+ * by this method are simply ignored by the virtual
+ * machine.
+ *
+ * @param thr the dying thread.
+ * @param exc the uncaught exception.
+ */
+ void uncaughtException(Thread thr, Throwable exc);
}
-
- public static native void yield ();
-
- // Private data.
- private ThreadGroup group;
- private String name;
- private Runnable runnable;
- private int priority;
- private boolean daemon_flag;
- private boolean interrupt_flag;
- private boolean alive_flag;
-
- // This is a bit odd. We need a way to represent some data that is
- // manipulated only by the native side of this class. We represent
- // it as a Java object reference. However, it is not actually a
- // Java object.
- private Object data;
-
- // Next thread number to assign.
- private static int nextThreadNumber = 0;
}