gcc/libjava/java/lang/Thread.java
Tom Tromey 3308c46e47 jvm.h (struct _Jv_frame_info): New structure.
* include/jvm.h (struct _Jv_frame_info): New structure.
	* gnu/gcj/runtime/natNameFinder.cc: Include StringBuffer.h,
	java-interp.h.
	(lookupInterp): New method.
	(getAddrAsString): Use _Jv_frame_info.
	(dladdrLookup): Likewise.
	* gnu/gcj/runtime/NameFinder.java (lookup): Try to look up
	interpreted frame.
	(lookupInterp): Declare.
	* java/lang/natVMThrowable.cc: Include Thread.h, java-interp.h.
	(fillInStackTrace): Collect information on interpreted frames.
	Use _Jv_frame_info.
	* interpret.cc: Include Thread.h.
	(run): Create and push _Jv_MethodChain object.
	(_Jv_EndOfInterpreter): New global.
	* java/lang/Thread.java (interp_frame): New field.
	* include/java-interp.h (struct _Jv_MethodChain): New structure.
	Include NameFinder.h.

From-SVN: r56657
2002-08-29 17:53:28 +00:00

322 lines
7.4 KiB
Java

// Thread.java - Thread class.
/* Copyright (C) 1998, 1999, 2000, 2001, 2002 Free Software Foundation
This file is part of libgcj.
This software is copyrighted work licensed under the terms of the
Libgcj License. Please consult the file "LIBGCJ_LICENSE" for
details. */
package java.lang;
import gnu.gcj.RawData;
/**
* @author Tom Tromey <tromey@cygnus.com>
* @date August 24, 1998
*/
/* 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: Believed complete to version 1.3, with caveats. We do not
* implement the deprecated (and dangerous) stop, suspend, and resume
* methods. Security implementation is not complete.
*/
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;
public static int activeCount ()
{
return currentThread().getThreadGroup().activeCount();
}
public final void checkAccess ()
{
SecurityManager s = System.getSecurityManager();
if (s != null)
s.checkAccess(this);
}
public native int countStackFrames ();
public static native Thread currentThread ();
public native void destroy ();
public static void dumpStack ()
{
(new Exception ("Stack trace")).printStackTrace ();
}
public static int enumerate (Thread[] threads)
{
return currentThread().group.enumerate(threads);
}
public final String getName ()
{
return name;
}
public final int getPriority ()
{
return priority;
}
public final ThreadGroup getThreadGroup ()
{
return group;
}
public native void interrupt ();
public static boolean interrupted ()
{
return currentThread().isInterrupted (true);
}
// Check the threads interrupted status. Note that this does not clear the
// thread's interrupted status (per JDK 1.2 online API documentation).
public boolean isInterrupted ()
{
return interrupt_flag;
}
public final boolean isAlive ()
{
return alive_flag;
}
public final boolean isDaemon ()
{
return daemon_flag;
}
public final void join () throws InterruptedException
{
join (0, 0);
}
public final void join (long timeout) throws InterruptedException
{
join (timeout, 0);
}
public final native void join (long timeout, int nanos)
throws InterruptedException;
public final native void resume ();
private final native void finish_ ();
// Check the thread's interrupted status. If clear_flag is true, the
// thread's interrupted status is also cleared.
private boolean isInterrupted (boolean clear_flag)
{
boolean r = interrupt_flag;
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;
}
public void run ()
{
if (runnable != null)
runnable.run();
}
public final void setDaemon (boolean status)
{
checkAccess ();
if (isAlive ())
throw new IllegalThreadStateException ();
daemon_flag = status;
}
public synchronized ClassLoader getContextClassLoader()
{
if (context_class_loader == null)
context_class_loader = ClassLoader.getSystemClassLoader ();
SecurityManager s = System.getSecurityManager();
// FIXME: we can't currently find the caller's class loader.
ClassLoader callers = null;
if (s != null && callers != null)
{
// See if the caller's class loader is the same as or an
// ancestor of this thread's class loader.
while (callers != null && callers != context_class_loader)
{
// FIXME: should use some internal version of getParent
// that avoids security checks.
callers = callers.getParent ();
}
if (callers != context_class_loader)
s.checkPermission (new RuntimePermission ("getClassLoader"));
}
return context_class_loader;
}
public synchronized void setContextClassLoader(ClassLoader cl)
{
SecurityManager s = System.getSecurityManager ();
if (s != null)
s.checkPermission (new RuntimePermission ("setContextClassLoader"));
context_class_loader = cl;
}
public final void setName (String n)
{
checkAccess ();
// The Class Libraries book says ``threadName cannot be null''. I
// take this to mean NullPointerException.
if (n == null)
throw new NullPointerException ();
name = n;
}
public final native void setPriority (int newPriority);
public static void sleep (long timeout) throws InterruptedException
{
sleep (timeout, 0);
}
public static native void sleep (long timeout, int nanos)
throws InterruptedException;
public native void start ();
public final void stop ()
{
// Argument doesn't matter, because this is no longer
// supported.
stop (null);
}
public final native void stop (Throwable e);
public final native void suspend ();
private final native void initialize_native ();
private final native static String gen_name ();
public Thread (ThreadGroup g, Runnable r, String n)
{
this (currentThread (), g, r, n);
// The Class Libraries book says ``threadName cannot be null''. I
// take this to mean NullPointerException.
if (n == null)
throw new NullPointerException ();
}
private Thread (Thread current, ThreadGroup g, Runnable r, String n)
{
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;
if (current != null)
{
group.checkAccess();
daemon_flag = current.isDaemon();
int gmax = group.getMaxPriority();
int pri = current.getPriority();
priority = (gmax < pri ? gmax : pri);
context_class_loader = current.context_class_loader;
InheritableThreadLocal.newChildThread(this);
}
else
{
daemon_flag = false;
priority = NORM_PRIORITY;
}
name = n;
group.addThread(this);
runnable = r;
initialize_native ();
}
public Thread ()
{
this (null, null, gen_name ());
}
public Thread (Runnable r)
{
this (null, r, gen_name ());
}
public Thread (String n)
{
this (null, null, n);
}
public Thread (ThreadGroup g, Runnable r)
{
this (g, r, gen_name ());
}
public Thread (ThreadGroup g, String n)
{
this (g, null, n);
}
public Thread (Runnable r, String n)
{
this (null, r, n);
}
public String toString ()
{
return "Thread[" + name + "," + priority + "," +
(group == null ? "" : group.getName()) + "]";
}
public static native void yield ();
// Private data.
ThreadGroup group;
String name;
private Runnable runnable;
private int priority;
private boolean daemon_flag;
boolean interrupt_flag;
private boolean alive_flag;
private boolean startable_flag;
private ClassLoader context_class_loader;
// This describes the top-most interpreter frame for this thread.
RawData interp_frame;
// Our native data - points to an instance of struct natThread.
private Object data;
}