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ee9dd3721b
From-SVN: r26263
296 lines
7.8 KiB
C++
296 lines
7.8 KiB
C++
// natThread.cc - Native part of Thread class.
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/* Copyright (C) 1998, 1999 Cygnus Solutions
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This file is part of libgcj.
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This software is copyrighted work licensed under the terms of the
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Libgcj License. Please consult the file "LIBGCJ_LICENSE" for
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details. */
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#include <config.h>
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#include <stdlib.h>
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#include <cni.h>
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#include <jvm.h>
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#include <java/lang/Thread.h>
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#include <java/lang/ThreadGroup.h>
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#include <java/lang/IllegalArgumentException.h>
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#include <java/lang/IllegalThreadStateException.h>
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#include <java/lang/InterruptedException.h>
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#include <java/lang/NullPointerException.h>
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// This structure is used to represent all the data the native side
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// needs. An object of this type is assigned to the `data' member of
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// the Thread class.
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struct natThread
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{
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// These are used to interrupt sleep and join calls. We can share a
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// condition variable here since this thread can either be sleeping
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// or waiting for a thread exit, but not both.
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_Jv_Mutex_t interrupt_mutex;
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_Jv_ConditionVariable_t interrupt_cond;
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// This is private data for the thread system layer.
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_Jv_Thread_t *thread;
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// All threads waiting to join this thread are linked together and
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// waiting on their respective `interrupt' condition variables.
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// When this thread exits, it notifies each such thread by
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// signalling the condition. In this case the `interrupt_flag' is
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// not set; this is how the waiting thread knows whether the join
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// has failed or whether it should throw an exception.
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struct natThread *joiner;
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// Chain for waiters.
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struct natThread *next;
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};
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// This is called from the constructor to initialize the native side
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// of the Thread.
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void
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java::lang::Thread::initialize_native (void)
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{
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// FIXME: this must interact with the GC in some logical way. At
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// the very least we must register a finalizer to clean up. This
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// isn't easy to do. If the Thread object resurrects itself in its
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// own finalizer then we will need to reinitialize this structure at
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// any "interesting" point.
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natThread *nt = (natThread *) _Jv_AllocBytes (sizeof (natThread));
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data = (jobject) nt;
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_Jv_MutexInit (&nt->interrupt_mutex);
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_Jv_CondInit (&nt->interrupt_cond);
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_Jv_ThreadInitData (&nt->thread, this);
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nt->joiner = 0;
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nt->next = 0;
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}
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jint
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java::lang::Thread::countStackFrames (void)
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{
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// NOTE: This is deprecated in JDK 1.2.
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JvFail ("java::lang::Thread::countStackFrames unimplemented");
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return 0;
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}
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java::lang::Thread *
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java::lang::Thread::currentThread (void)
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{
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return _Jv_ThreadCurrent ();
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}
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// FIXME: this is apparently the only way a thread can be removed from
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// a ThreadGroup. That seems wrong.
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void
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java::lang::Thread::destroy (void)
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{
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// NOTE: This is marked as unimplemented in the JDK 1.2
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// documentation.
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JvFail ("java::lang::Thread::destroy unimplemented");
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}
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void
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java::lang::Thread::dumpStack (void)
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{
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// We don't implement this because it is very hard. Once we have a
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// VM, this could potentially ask the VM to do the dump in cases
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// where it makes sense.
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JvFail ("java::lang::Thread::dumpStack unimplemented");
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}
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void
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java::lang::Thread::interrupt (void)
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{
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interrupt_flag = true;
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// Wake up this thread, whether it is sleeping or waiting for
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// another thread to exit.
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natThread *nt = (natThread *) data;
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_Jv_MutexLock (&nt->interrupt_mutex);
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_Jv_CondNotify (&nt->interrupt_cond, &nt->interrupt_mutex);
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_Jv_MutexUnlock (&nt->interrupt_mutex);
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_Jv_ThreadInterrupt (nt->thread);
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}
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void
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java::lang::Thread::join (jlong millis, jint nanos)
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{
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// FIXME: what if we are trying to join ourselves with no timeout?
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if (millis < 0 || nanos < 0 || nanos > 999999)
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_Jv_Throw (new IllegalArgumentException);
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Thread *current = currentThread ();
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if (current->isInterrupted ())
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_Jv_Throw (new InterruptedException);
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// Update the list of all threads waiting for this thread to exit.
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// We grab a mutex when doing this in order to ensure that the
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// required state changes are atomic.
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_Jv_MonitorEnter (this);
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if (! isAlive ())
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{
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_Jv_MonitorExit (this);
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return;
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}
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// Here `CURR_NT' is the native structure for the currently
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// executing thread, while `NT' is the native structure for the
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// thread we are trying to join.
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natThread *curr_nt = (natThread *) current->data;
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natThread *nt = (natThread *) data;
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JvAssert (curr_nt->next == NULL);
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// Put thread CURR_NT onto NT's list. When NT exits, it will
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// traverse its list and notify all joiners.
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curr_nt->next = nt->joiner;
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nt->joiner = curr_nt;
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_Jv_MonitorExit (this);
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// Now wait for: (1) an interrupt, (2) the thread to exit, or (3)
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// the timeout to occur.
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_Jv_MutexLock (&curr_nt->interrupt_mutex);
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_Jv_CondWait (&curr_nt->interrupt_cond,
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&curr_nt->interrupt_mutex,
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millis, nanos);
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_Jv_MutexUnlock (&curr_nt->interrupt_mutex);
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// Now the join has completed, one way or another. Update the
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// joiners list to account for this.
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_Jv_MonitorEnter (this);
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JvAssert (nt->joiner != NULL);
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natThread *prev = 0;
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natThread *t;
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for (t = nt->joiner; t != NULL; t = t->next)
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{
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if (t == curr_nt)
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{
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if (prev)
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prev->next = t->next;
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else
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nt->joiner = t->next;
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t->next = 0;
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break;
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}
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}
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JvAssert (t != NULL);
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_Jv_MonitorExit (this);
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if (current->isInterrupted ())
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_Jv_Throw (new InterruptedException);
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}
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void
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java::lang::Thread::resume (void)
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{
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checkAccess ();
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JvFail ("java::lang::Thread::resume unimplemented");
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}
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void
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java::lang::Thread::setPriority (jint newPriority)
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{
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checkAccess ();
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if (newPriority < MIN_PRIORITY || newPriority > MAX_PRIORITY)
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_Jv_Throw (new IllegalArgumentException);
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jint gmax = group->getMaxPriority();
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if (newPriority > gmax)
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newPriority = gmax;
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priority = newPriority;
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natThread *nt = (natThread *) data;
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_Jv_ThreadSetPriority (nt->thread, priority);
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}
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void
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java::lang::Thread::sleep (jlong millis, jint nanos)
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{
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if (millis < 0 || nanos < 0 || nanos > 999999)
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_Jv_Throw (new IllegalArgumentException);
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Thread *current = currentThread ();
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if (current->isInterrupted ())
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_Jv_Throw (new InterruptedException);
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// We use a condition variable to implement sleeping so that an
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// interrupt can wake us up.
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natThread *nt = (natThread *) current->data;
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_Jv_MutexLock (&nt->interrupt_mutex);
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_Jv_CondWait (&nt->interrupt_cond, &nt->interrupt_mutex,
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millis, nanos);
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_Jv_MutexUnlock (&nt->interrupt_mutex);
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if (current->isInterrupted ())
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_Jv_Throw (new InterruptedException);
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}
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void
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java::lang::Thread::finish_ (void)
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{
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// Notify all threads waiting to join this thread.
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_Jv_MonitorEnter (this);
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alive_flag = false;
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// Note that we don't bother cleaning up the joiner list here. That
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// is taken care of when each thread wakes up again.
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natThread *nt = (natThread *) data;
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for (natThread *t = nt->joiner; t != NULL; t = t->next)
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{
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_Jv_MutexLock (&t->interrupt_mutex);
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_Jv_CondNotify (&t->interrupt_cond, &t->interrupt_mutex);
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_Jv_MutexUnlock (&t->interrupt_mutex);
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}
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_Jv_MonitorExit (this);
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}
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void
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java::lang::Thread::run__ (jobject obj)
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{
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java::lang::Thread *thread = (java::lang::Thread *) obj;
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thread->run_ ();
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}
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void
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java::lang::Thread::start (void)
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{
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JvSynchronize sync (this);
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if (alive_flag)
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_Jv_Throw (new IllegalThreadStateException);
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alive_flag = true;
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natThread *nt = (natThread *) data;
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_Jv_ThreadStart (this, nt->thread, (_Jv_ThreadStartFunc *) &run__);
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}
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void
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java::lang::Thread::stop (java::lang::Throwable *e)
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{
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JvSynchronize sync (this);
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checkAccess ();
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if (! e)
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_Jv_Throw (new NullPointerException);
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natThread *nt = (natThread *) data;
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_Jv_ThreadCancel (nt->thread, e);
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}
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void
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java::lang::Thread::suspend (void)
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{
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checkAccess ();
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JvFail ("java::lang::Thread::suspend unimplemented");
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}
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void
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java::lang::Thread::yield (void)
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{
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_Jv_ThreadYield ();
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}
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