288 lines
6.5 KiB
C++
288 lines
6.5 KiB
C++
// -*- c++ -*-
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// posix-threads.h - Defines for using POSIX threads.
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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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#ifndef __JV_POSIX_THREADS__
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#define __JV_POSIX_THREADS__
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// NOTE: This file may only reference those pthread functions which
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// are known not to be overridden by the Boehm GC. If in doubt, scan
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// boehm-gc/gc.h. This is yucky but lets us avoid including gc.h
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// everywhere (which would be truly yucky).
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#include <pthread.h>
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#include <sched.h>
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#if defined (HAVE_PTHREAD_MUTEXATTR_SETTYPE) || defined (HAVE_PTHREAD_MUTEXATTR_SETKIND_NP)
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# define HAVE_RECURSIVE_MUTEX 1
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#endif
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//
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// Typedefs.
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//
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typedef pthread_cond_t _Jv_ConditionVariable_t;
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#if defined (PTHREAD_MUTEX_HAVE_M_COUNT) || defined (PTHREAD_MUTEX_HAVE___M_COUNT)
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// On Linux we use implementation details of mutexes in order to get
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// faster results.
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typedef pthread_mutex_t _Jv_Mutex_t;
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#else /* LINUX_THREADS */
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#define PTHREAD_MUTEX_IS_STRUCT
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typedef struct
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{
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// Mutex used when locking this structure transiently.
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pthread_mutex_t mutex;
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#ifndef HAVE_RECURSIVE_MUTEX
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// Some systems do not have recursive mutexes, so we must simulate
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// them. Solaris is one such system.
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// Mutex the thread holds the entire time this mutex is held. This
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// is used to make condition variables work properly.
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pthread_mutex_t mutex2;
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// Condition variable used when waiting for this lock.
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pthread_cond_t cond;
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// Thread holding this mutex. If COUNT is 0, no thread is holding.
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pthread_t thread;
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#endif /* HAVE_RECURSIVE_MUTEX */
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// Number of times mutex is held. If 0, the lock is not held. We
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// do this even if we have a native recursive mutex so that we can
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// keep track of whether the lock is held; this lets us do error
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// checking. FIXME it would be nice to optimize this; on some
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// systems we could do so by relying on implementation details of
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// recursive mutexes.
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int count;
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} _Jv_Mutex_t;
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#endif
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typedef struct
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{
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// Flag values are defined in implementation.
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int flags;
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// Actual thread id.
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pthread_t thread;
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// Exception we want to throw when cancelled.
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void *exception;
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} _Jv_Thread_t;
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typedef void _Jv_ThreadStartFunc (java::lang::Thread *);
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// This convenience function is used to return the POSIX mutex
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// corresponding to our mutex.
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inline pthread_mutex_t *
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_Jv_PthreadGetMutex (_Jv_Mutex_t *mu)
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{
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#if ! defined (PTHREAD_MUTEX_IS_STRUCT)
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return mu;
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#elif defined (HAVE_RECURSIVE_MUTEX)
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return &mu->mutex;
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#else
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return &mu->mutex2;
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#endif
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}
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#include <stdio.h>
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// This is a convenience function used only by the pthreads thread
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// implementation. This is slow, but that's too bad -- we need to do
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// the checks for correctness. It might be nice to be able to compile
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// this out.
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inline int
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_Jv_PthreadCheckMonitor (_Jv_Mutex_t *mu)
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{
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pthread_mutex_t *pmu = _Jv_PthreadGetMutex (mu);
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// See if the mutex is locked by this thread.
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if (pthread_mutex_trylock (pmu))
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return 1;
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#if defined (PTHREAD_MUTEX_HAVE_M_COUNT)
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// On Linux we exploit knowledge of the implementation.
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int r = pmu->m_count == 1;
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#elif defined (PTHREAD_MUTEX_HAVE___M_COUNT)
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// In glibc 2.1, the first time the mutex is grabbed __m_count is
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// set to 0 and __m_owner is set to pthread_self().
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int r = ! pmu->__m_count;
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#else
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int r = mu->count == 0;
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#endif
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pthread_mutex_unlock (pmu);
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return r;
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}
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//
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// Condition variables.
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//
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inline void
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_Jv_CondInit (_Jv_ConditionVariable_t *cv)
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{
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pthread_cond_init (cv, 0);
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}
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#ifndef LINUX_THREADS
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// pthread_cond_destroy does nothing on Linux and it is a win to avoid
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// defining this macro.
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#define _Jv_HaveCondDestroy
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inline void
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_Jv_CondDestroy (_Jv_ConditionVariable_t *cv)
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{
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pthread_cond_destroy (cv);
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}
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#endif /* LINUX_THREADS */
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int _Jv_CondWait (_Jv_ConditionVariable_t *cv, _Jv_Mutex_t *mu,
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jlong millis, jint nanos);
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inline int
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_Jv_CondNotify (_Jv_ConditionVariable_t *cv, _Jv_Mutex_t *mu)
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{
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return _Jv_PthreadCheckMonitor (mu) || pthread_cond_signal (cv);
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}
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inline int
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_Jv_CondNotifyAll (_Jv_ConditionVariable_t *cv, _Jv_Mutex_t *mu)
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{
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return _Jv_PthreadCheckMonitor (mu) || pthread_cond_broadcast (cv);
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}
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//
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// Mutexes.
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//
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#ifdef RECURSIVE_MUTEX_IS_DEFAULT
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inline void
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_Jv_MutexInit (_Jv_Mutex_t *mu)
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{
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pthread_mutex_init (_Jv_PthreadGetMutex (mu), NULL);
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#ifdef PTHREAD_MUTEX_IS_STRUCT
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mu->count = 0;
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#endif
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}
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#else
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void _Jv_MutexInit (_Jv_Mutex_t *mu);
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#endif
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#ifndef LINUX_THREADS
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// pthread_mutex_destroy does nothing on Linux and it is a win to avoid
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// defining this macro.
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#define _Jv_HaveMutexDestroy
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#ifdef HAVE_RECURSIVE_MUTEX
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inline void
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_Jv_MutexDestroy (_Jv_Mutex_t *mu)
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{
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pthread_mutex_destroy (_Jv_PthreadGetMutex (mu));
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}
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#else /* HAVE_RECURSIVE_MUTEX */
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extern void _Jv_MutexDestroy (_Jv_Mutex_t *mu);
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#endif /* HAVE_RECURSIVE_MUTEX */
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#endif /* LINUX_THREADS */
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#ifdef HAVE_RECURSIVE_MUTEX
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inline int
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_Jv_MutexLock (_Jv_Mutex_t *mu)
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{
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int r = pthread_mutex_lock (_Jv_PthreadGetMutex (mu));
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#ifdef PTHREAD_MUTEX_IS_STRUCT
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if (! r)
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++mu->count;
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#endif
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return r;
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}
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inline int
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_Jv_MutexUnlock (_Jv_Mutex_t *mu)
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{
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int r = pthread_mutex_unlock (_Jv_PthreadGetMutex (mu));
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#ifdef PTHREAD_MUTEX_IS_STRUCT
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if (! r)
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--mu->count;
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#endif
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return r;
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}
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#else /* HAVE_RECURSIVE_MUTEX */
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extern int _Jv_MutexLock (_Jv_Mutex_t *mu);
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extern int _Jv_MutexUnlock (_Jv_Mutex_t *mu);
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#endif /* HAVE_RECURSIVE_MUTEX */
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//
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// Thread creation and manipulation.
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//
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void _Jv_InitThreads (void);
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void _Jv_ThreadInitData (_Jv_Thread_t **data, java::lang::Thread *thread);
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inline java::lang::Thread *
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_Jv_ThreadCurrent (void)
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{
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extern pthread_key_t _Jv_ThreadKey;
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return (java::lang::Thread *) pthread_getspecific (_Jv_ThreadKey);
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}
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inline _Jv_Thread_t *
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_Jv_ThreadCurrentData (void)
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{
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extern pthread_key_t _Jv_ThreadDataKey;
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return (_Jv_Thread_t *) pthread_getspecific (_Jv_ThreadDataKey);
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}
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inline void
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_Jv_ThreadYield (void)
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{
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#ifdef HAVE_SCHED_YIELD
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sched_yield ();
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#endif /* HAVE_SCHED_YIELD */
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}
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void _Jv_ThreadSetPriority (_Jv_Thread_t *data, jint prio);
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void _Jv_ThreadCancel (_Jv_Thread_t *data, void *error);
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// Like Cancel, but doesn't run cleanups.
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inline void
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_Jv_ThreadDestroy (_Jv_Thread_t *)
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{
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JvFail ("_Jv_ThreadDestroy");
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}
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void _Jv_ThreadStart (java::lang::Thread *thread, _Jv_Thread_t *data,
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_Jv_ThreadStartFunc *meth);
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void _Jv_ThreadWait (void);
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void _Jv_ThreadInterrupt (_Jv_Thread_t *data);
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#endif /* __JV_POSIX_THREADS__ */
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