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|
/* GLIB - Library of useful routines for C programming
* Copyright (C) 1995-1997 Peter Mattis, Spencer Kimball and Josh MacDonald
*
* g_atomic_*: atomic operations.
* Copyright (C) 2003 Sebastian Wilhelmi
* Copyright (C) 2007 Nokia Corporation
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*/
#include "config.h"
#if defined (G_ATOMIC_ARM)
#include <sched.h>
#endif
#include "gatomic.h"
#include "gthreadprivate.h"
/**
* SECTION:atomic_operations
* @title: Atomic Operations
* @short_description: basic atomic integer and pointer operations
* @see_also: #GMutex
*
* The following functions can be used to atomically access integers and
* pointers. They are implemented as inline assembler function on most
* platforms and use slower fall-backs otherwise. Using them can sometimes
* save you from using a performance-expensive #GMutex to protect the
* integer or pointer.
*
* The most important usage is reference counting. Using
* g_atomic_int_inc() and g_atomic_int_dec_and_test() makes reference
* counting a very fast operation.
*
* <note><para>You must not directly read integers or pointers concurrently
* accessed by multiple threads, but use the atomic accessor functions
* instead. That is, always use g_atomic_int_get() and g_atomic_pointer_get()
* for read outs. They provide the neccessary synchonization mechanisms
* like memory barriers to access memory locations concurrently.
* </para></note>
*
* <note><para>If you are using those functions for anything apart from
* simple reference counting, you should really be aware of the implications
* of doing that. There are literally thousands of ways to shoot yourself
* in the foot. So if in doubt, use a #GMutex. If you don't know, what
* memory barriers are, do not use anything but g_atomic_int_inc() and
* g_atomic_int_dec_and_test().
* </para></note>
*
* <note><para>It is not safe to set an integer or pointer just by assigning
* to it, when it is concurrently accessed by other threads with the following
* functions. Use g_atomic_int_compare_and_exchange() or
* g_atomic_pointer_compare_and_exchange() respectively.
* </para></note>
*/
#if defined (__GNUC__)
# if defined (G_ATOMIC_I486)
/* Adapted from CVS version 1.10 of glibc's sysdeps/i386/i486/bits/atomic.h
*/
gint
g_atomic_int_exchange_and_add (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint val)
{
gint result;
__asm__ __volatile__ ("lock; xaddl %0,%1"
: "=r" (result), "=m" (*atomic)
: "0" (val), "m" (*atomic));
return result;
}
void
g_atomic_int_add (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint val)
{
__asm__ __volatile__ ("lock; addl %1,%0"
: "=m" (*atomic)
: "ir" (val), "m" (*atomic));
}
gboolean
g_atomic_int_compare_and_exchange (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint oldval,
gint newval)
{
gint result;
__asm__ __volatile__ ("lock; cmpxchgl %2, %1"
: "=a" (result), "=m" (*atomic)
: "r" (newval), "m" (*atomic), "0" (oldval));
return result == oldval;
}
/* The same code as above, as on i386 gpointer is 32 bit as well.
* Duplicating the code here seems more natural than casting the
* arguments and calling the former function */
gboolean
g_atomic_pointer_compare_and_exchange (volatile gpointer G_GNUC_MAY_ALIAS *atomic,
gpointer oldval,
gpointer newval)
{
gpointer result;
__asm__ __volatile__ ("lock; cmpxchgl %2, %1"
: "=a" (result), "=m" (*atomic)
: "r" (newval), "m" (*atomic), "0" (oldval));
return result == oldval;
}
# elif defined (G_ATOMIC_SPARCV9)
/* Adapted from CVS version 1.3 of glibc's sysdeps/sparc/sparc64/bits/atomic.h
*/
# define ATOMIC_INT_CMP_XCHG(atomic, oldval, newval) \
({ \
gint __result; \
__asm__ __volatile__ ("cas [%4], %2, %0" \
: "=r" (__result), "=m" (*(atomic)) \
: "r" (oldval), "m" (*(atomic)), "r" (atomic),\
"0" (newval)); \
__result == oldval; \
})
# if GLIB_SIZEOF_VOID_P == 4 /* 32-bit system */
gboolean
g_atomic_pointer_compare_and_exchange (volatile gpointer G_GNUC_MAY_ALIAS *atomic,
gpointer oldval,
gpointer newval)
{
gpointer result;
__asm__ __volatile__ ("cas [%4], %2, %0"
: "=r" (result), "=m" (*atomic)
: "r" (oldval), "m" (*atomic), "r" (atomic),
"0" (newval));
return result == oldval;
}
# elif GLIB_SIZEOF_VOID_P == 8 /* 64-bit system */
gboolean
g_atomic_pointer_compare_and_exchange (volatile gpointer G_GNUC_MAY_ALIAS *atomic,
gpointer oldval,
gpointer newval)
{
gpointer result;
gpointer *a = atomic;
__asm__ __volatile__ ("casx [%4], %2, %0"
: "=r" (result), "=m" (*a)
: "r" (oldval), "m" (*a), "r" (a),
"0" (newval));
return result == oldval;
}
# else /* What's that */
# error "Your system has an unsupported pointer size"
# endif /* GLIB_SIZEOF_VOID_P */
# define G_ATOMIC_MEMORY_BARRIER \
__asm__ __volatile__ ("membar #LoadLoad | #LoadStore" \
" | #StoreLoad | #StoreStore" : : : "memory")
# elif defined (G_ATOMIC_ALPHA)
/* Adapted from CVS version 1.3 of glibc's sysdeps/alpha/bits/atomic.h
*/
# define ATOMIC_INT_CMP_XCHG(atomic, oldval, newval) \
({ \
gint __result; \
gint __prev; \
__asm__ __volatile__ ( \
" mb\n" \
"1: ldl_l %0,%2\n" \
" cmpeq %0,%3,%1\n" \
" beq %1,2f\n" \
" mov %4,%1\n" \
" stl_c %1,%2\n" \
" beq %1,1b\n" \
" mb\n" \
"2:" \
: "=&r" (__prev), \
"=&r" (__result) \
: "m" (*(atomic)), \
"Ir" (oldval), \
"Ir" (newval) \
: "memory"); \
__result != 0; \
})
# if GLIB_SIZEOF_VOID_P == 4 /* 32-bit system */
gboolean
g_atomic_pointer_compare_and_exchange (volatile gpointer G_GNUC_MAY_ALIAS *atomic,
gpointer oldval,
gpointer newval)
{
gint result;
gpointer prev;
__asm__ __volatile__ (
" mb\n"
"1: ldl_l %0,%2\n"
" cmpeq %0,%3,%1\n"
" beq %1,2f\n"
" mov %4,%1\n"
" stl_c %1,%2\n"
" beq %1,1b\n"
" mb\n"
"2:"
: "=&r" (prev),
"=&r" (result)
: "m" (*atomic),
"Ir" (oldval),
"Ir" (newval)
: "memory");
return result != 0;
}
# elif GLIB_SIZEOF_VOID_P == 8 /* 64-bit system */
gboolean
g_atomic_pointer_compare_and_exchange (volatile gpointer G_GNUC_MAY_ALIAS *atomic,
gpointer oldval,
gpointer newval)
{
gint result;
gpointer prev;
__asm__ __volatile__ (
" mb\n"
"1: ldq_l %0,%2\n"
" cmpeq %0,%3,%1\n"
" beq %1,2f\n"
" mov %4,%1\n"
" stq_c %1,%2\n"
" beq %1,1b\n"
" mb\n"
"2:"
: "=&r" (prev),
"=&r" (result)
: "m" (*atomic),
"Ir" (oldval),
"Ir" (newval)
: "memory");
return result != 0;
}
# else /* What's that */
# error "Your system has an unsupported pointer size"
# endif /* GLIB_SIZEOF_VOID_P */
# define G_ATOMIC_MEMORY_BARRIER __asm__ ("mb" : : : "memory")
# elif defined (G_ATOMIC_X86_64)
/* Adapted from CVS version 1.9 of glibc's sysdeps/x86_64/bits/atomic.h
*/
gint
g_atomic_int_exchange_and_add (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint val)
{
gint result;
__asm__ __volatile__ ("lock; xaddl %0,%1"
: "=r" (result), "=m" (*atomic)
: "0" (val), "m" (*atomic));
return result;
}
void
g_atomic_int_add (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint val)
{
__asm__ __volatile__ ("lock; addl %1,%0"
: "=m" (*atomic)
: "ir" (val), "m" (*atomic));
}
gboolean
g_atomic_int_compare_and_exchange (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint oldval,
gint newval)
{
gint result;
__asm__ __volatile__ ("lock; cmpxchgl %2, %1"
: "=a" (result), "=m" (*atomic)
: "r" (newval), "m" (*atomic), "0" (oldval));
return result == oldval;
}
gboolean
g_atomic_pointer_compare_and_exchange (volatile gpointer G_GNUC_MAY_ALIAS *atomic,
gpointer oldval,
gpointer newval)
{
gpointer result;
__asm__ __volatile__ ("lock; cmpxchgq %q2, %1"
: "=a" (result), "=m" (*atomic)
: "r" (newval), "m" (*atomic), "0" (oldval));
return result == oldval;
}
# elif defined (G_ATOMIC_POWERPC)
/* Adapted from CVS version 1.16 of glibc's sysdeps/powerpc/bits/atomic.h
* and CVS version 1.4 of glibc's sysdeps/powerpc/powerpc32/bits/atomic.h
* and CVS version 1.7 of glibc's sysdeps/powerpc/powerpc64/bits/atomic.h
*/
# ifdef __OPTIMIZE__
/* Non-optimizing compile bails on the following two asm statements
* for reasons unknown to the author */
gint
g_atomic_int_exchange_and_add (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint val)
{
gint result, temp;
#if ASM_NUMERIC_LABELS
__asm__ __volatile__ ("1: lwarx %0,0,%3\n"
" add %1,%0,%4\n"
" stwcx. %1,0,%3\n"
" bne- 1b"
: "=&b" (result), "=&r" (temp), "=m" (*atomic)
: "b" (atomic), "r" (val), "m" (*atomic)
: "cr0", "memory");
#else
__asm__ __volatile__ (".Lieaa%=: lwarx %0,0,%3\n"
" add %1,%0,%4\n"
" stwcx. %1,0,%3\n"
" bne- .Lieaa%="
: "=&b" (result), "=&r" (temp), "=m" (*atomic)
: "b" (atomic), "r" (val), "m" (*atomic)
: "cr0", "memory");
#endif
return result;
}
/* The same as above, to save a function call repeated here */
void
g_atomic_int_add (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint val)
{
gint result, temp;
#if ASM_NUMERIC_LABELS
__asm__ __volatile__ ("1: lwarx %0,0,%3\n"
" add %1,%0,%4\n"
" stwcx. %1,0,%3\n"
" bne- 1b"
: "=&b" (result), "=&r" (temp), "=m" (*atomic)
: "b" (atomic), "r" (val), "m" (*atomic)
: "cr0", "memory");
#else
__asm__ __volatile__ (".Lia%=: lwarx %0,0,%3\n"
" add %1,%0,%4\n"
" stwcx. %1,0,%3\n"
" bne- .Lia%="
: "=&b" (result), "=&r" (temp), "=m" (*atomic)
: "b" (atomic), "r" (val), "m" (*atomic)
: "cr0", "memory");
#endif
}
# else /* !__OPTIMIZE__ */
gint
g_atomic_int_exchange_and_add (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint val)
{
gint result;
do
result = *atomic;
while (!g_atomic_int_compare_and_exchange (atomic, result, result + val));
return result;
}
void
g_atomic_int_add (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint val)
{
gint result;
do
result = *atomic;
while (!g_atomic_int_compare_and_exchange (atomic, result, result + val));
}
# endif /* !__OPTIMIZE__ */
# if GLIB_SIZEOF_VOID_P == 4 /* 32-bit system */
gboolean
g_atomic_int_compare_and_exchange (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint oldval,
gint newval)
{
gint result;
#if ASM_NUMERIC_LABELS
__asm__ __volatile__ ("sync\n"
"1: lwarx %0,0,%1\n"
" subf. %0,%2,%0\n"
" bne 2f\n"
" stwcx. %3,0,%1\n"
" bne- 1b\n"
"2: isync"
: "=&r" (result)
: "b" (atomic), "r" (oldval), "r" (newval)
: "cr0", "memory");
#else
__asm__ __volatile__ ("sync\n"
".L1icae%=: lwarx %0,0,%1\n"
" subf. %0,%2,%0\n"
" bne .L2icae%=\n"
" stwcx. %3,0,%1\n"
" bne- .L1icae%=\n"
".L2icae%=: isync"
: "=&r" (result)
: "b" (atomic), "r" (oldval), "r" (newval)
: "cr0", "memory");
#endif
return result == 0;
}
gboolean
g_atomic_pointer_compare_and_exchange (volatile gpointer G_GNUC_MAY_ALIAS *atomic,
gpointer oldval,
gpointer newval)
{
gpointer result;
#if ASM_NUMERIC_LABELS
__asm__ __volatile__ ("sync\n"
"1: lwarx %0,0,%1\n"
" subf. %0,%2,%0\n"
" bne 2f\n"
" stwcx. %3,0,%1\n"
" bne- 1b\n"
"2: isync"
: "=&r" (result)
: "b" (atomic), "r" (oldval), "r" (newval)
: "cr0", "memory");
#else
__asm__ __volatile__ ("sync\n"
".L1pcae%=: lwarx %0,0,%1\n"
" subf. %0,%2,%0\n"
" bne .L2pcae%=\n"
" stwcx. %3,0,%1\n"
" bne- .L1pcae%=\n"
".L2pcae%=: isync"
: "=&r" (result)
: "b" (atomic), "r" (oldval), "r" (newval)
: "cr0", "memory");
#endif
return result == 0;
}
# elif GLIB_SIZEOF_VOID_P == 8 /* 64-bit system */
gboolean
g_atomic_int_compare_and_exchange (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint oldval,
gint newval)
{
gpointer result;
#if ASM_NUMERIC_LABELS
__asm__ __volatile__ ("sync\n"
"1: lwarx %0,0,%1\n"
" extsw %0,%0\n"
" subf. %0,%2,%0\n"
" bne 2f\n"
" stwcx. %3,0,%1\n"
" bne- 1b\n"
"2: isync"
: "=&r" (result)
: "b" (atomic), "r" (oldval), "r" (newval)
: "cr0", "memory");
#else
__asm__ __volatile__ ("sync\n"
".L1icae%=: lwarx %0,0,%1\n"
" extsw %0,%0\n"
" subf. %0,%2,%0\n"
" bne .L2icae%=\n"
" stwcx. %3,0,%1\n"
" bne- .L1icae%=\n"
".L2icae%=: isync"
: "=&r" (result)
: "b" (atomic), "r" (oldval), "r" (newval)
: "cr0", "memory");
#endif
return result == 0;
}
gboolean
g_atomic_pointer_compare_and_exchange (volatile gpointer G_GNUC_MAY_ALIAS *atomic,
gpointer oldval,
gpointer newval)
{
gpointer result;
#if ASM_NUMERIC_LABELS
__asm__ __volatile__ ("sync\n"
"1: ldarx %0,0,%1\n"
" subf. %0,%2,%0\n"
" bne 2f\n"
" stdcx. %3,0,%1\n"
" bne- 1b\n"
"2: isync"
: "=&r" (result)
: "b" (atomic), "r" (oldval), "r" (newval)
: "cr0", "memory");
#else
__asm__ __volatile__ ("sync\n"
".L1pcae%=: ldarx %0,0,%1\n"
" subf. %0,%2,%0\n"
" bne .L2pcae%=\n"
" stdcx. %3,0,%1\n"
" bne- .L1pcae%=\n"
".L2pcae%=: isync"
: "=&r" (result)
: "b" (atomic), "r" (oldval), "r" (newval)
: "cr0", "memory");
#endif
return result == 0;
}
# else /* What's that */
# error "Your system has an unsupported pointer size"
# endif /* GLIB_SIZEOF_VOID_P */
# define G_ATOMIC_MEMORY_BARRIER __asm__ ("sync" : : : "memory")
# elif defined (G_ATOMIC_IA64)
/* Adapted from CVS version 1.8 of glibc's sysdeps/ia64/bits/atomic.h
*/
gint
g_atomic_int_exchange_and_add (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint val)
{
return __sync_fetch_and_add (atomic, val);
}
void
g_atomic_int_add (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint val)
{
__sync_fetch_and_add (atomic, val);
}
gboolean
g_atomic_int_compare_and_exchange (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint oldval,
gint newval)
{
return __sync_bool_compare_and_swap (atomic, oldval, newval);
}
gboolean
g_atomic_pointer_compare_and_exchange (volatile gpointer G_GNUC_MAY_ALIAS *atomic,
gpointer oldval,
gpointer newval)
{
return __sync_bool_compare_and_swap ((long *)atomic,
(long)oldval, (long)newval);
}
# define G_ATOMIC_MEMORY_BARRIER __sync_synchronize ()
# elif defined (G_ATOMIC_S390)
/* Adapted from glibc's sysdeps/s390/bits/atomic.h
*/
# define ATOMIC_INT_CMP_XCHG(atomic, oldval, newval) \
({ \
gint __result = oldval; \
__asm__ __volatile__ ("cs %0, %2, %1" \
: "+d" (__result), "=Q" (*(atomic)) \
: "d" (newval), "m" (*(atomic)) : "cc" ); \
__result == oldval; \
})
# if GLIB_SIZEOF_VOID_P == 4 /* 32-bit system */
gboolean
g_atomic_pointer_compare_and_exchange (volatile gpointer G_GNUC_MAY_ALIAS *atomic,
gpointer oldval,
gpointer newval)
{
gpointer result = oldval;
__asm__ __volatile__ ("cs %0, %2, %1"
: "+d" (result), "=Q" (*(atomic))
: "d" (newval), "m" (*(atomic)) : "cc" );
return result == oldval;
}
# elif GLIB_SIZEOF_VOID_P == 8 /* 64-bit system */
gboolean
g_atomic_pointer_compare_and_exchange (volatile gpointer G_GNUC_MAY_ALIAS *atomic,
gpointer oldval,
gpointer newval)
{
gpointer result = oldval;
gpointer *a = atomic;
__asm__ __volatile__ ("csg %0, %2, %1"
: "+d" (result), "=Q" (*a)
: "d" ((long)(newval)), "m" (*a) : "cc" );
return result == oldval;
}
# else /* What's that */
# error "Your system has an unsupported pointer size"
# endif /* GLIB_SIZEOF_VOID_P */
# elif defined (G_ATOMIC_ARM)
static volatile int atomic_spin = 0;
static int atomic_spin_trylock (void)
{
int result;
asm volatile (
"swp %0, %1, [%2]\n"
: "=&r,&r" (result)
: "r,0" (1), "r,r" (&atomic_spin)
: "memory");
if (result == 0)
return 0;
else
return -1;
}
static void atomic_spin_lock (void)
{
while (atomic_spin_trylock())
sched_yield();
}
static void atomic_spin_unlock (void)
{
atomic_spin = 0;
}
gint
g_atomic_int_exchange_and_add (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint val)
{
gint result;
atomic_spin_lock();
result = *atomic;
*atomic += val;
atomic_spin_unlock();
return result;
}
void
g_atomic_int_add (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint val)
{
atomic_spin_lock();
*atomic += val;
atomic_spin_unlock();
}
gboolean
g_atomic_int_compare_and_exchange (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint oldval,
gint newval)
{
gboolean result;
atomic_spin_lock();
if (*atomic == oldval)
{
result = TRUE;
*atomic = newval;
}
else
result = FALSE;
atomic_spin_unlock();
return result;
}
gboolean
g_atomic_pointer_compare_and_exchange (volatile gpointer G_GNUC_MAY_ALIAS *atomic,
gpointer oldval,
gpointer newval)
{
gboolean result;
atomic_spin_lock();
if (*atomic == oldval)
{
result = TRUE;
*atomic = newval;
}
else
result = FALSE;
atomic_spin_unlock();
return result;
}
# elif defined (G_ATOMIC_CRIS) || defined (G_ATOMIC_CRISV32)
# ifdef G_ATOMIC_CRIS
# define CRIS_ATOMIC_INT_CMP_XCHG(atomic, oldval, newval) \
({ \
gboolean __result; \
__asm__ __volatile__ ("\n" \
"0:\tclearf\n\t" \
"cmp.d [%[Atomic]], %[OldVal]\n\t" \
"bne 1f\n\t" \
"ax\n\t" \
"move.d %[NewVal], [%[Atomic]]\n\t" \
"bwf 0b\n" \
"1:\tseq %[Result]" \
: [Result] "=&r" (__result), \
"=m" (*(atomic)) \
: [Atomic] "r" (atomic), \
[OldVal] "r" (oldval), \
[NewVal] "r" (newval), \
"g" (*(gpointer*) (atomic)) \
: "memory"); \
__result; \
})
# else
# define CRIS_ATOMIC_INT_CMP_XCHG(atomic, oldval, newval) \
({ \
gboolean __result; \
__asm__ __volatile__ ("\n" \
"0:\tclearf p\n\t" \
"cmp.d [%[Atomic]], %[OldVal]\n\t" \
"bne 1f\n\t" \
"ax\n\t" \
"move.d %[NewVal], [%[Atomic]]\n\t" \
"bcs 0b\n" \
"1:\tseq %[Result]" \
: [Result] "=&r" (__result), \
"=m" (*(atomic)) \
: [Atomic] "r" (atomic), \
[OldVal] "r" (oldval), \
[NewVal] "r" (newval), \
"g" (*(gpointer*) (atomic)) \
: "memory"); \
__result; \
})
# endif
#define CRIS_CACHELINE_SIZE 32
#define CRIS_ATOMIC_BREAKS_CACHELINE(atomic) \
(((gulong)(atomic) & (CRIS_CACHELINE_SIZE - 1)) > (CRIS_CACHELINE_SIZE - sizeof (atomic)))
gint __g_atomic_int_exchange_and_add (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint val);
void __g_atomic_int_add (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint val);
gboolean __g_atomic_int_compare_and_exchange (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint oldval,
gint newval);
gboolean __g_atomic_pointer_compare_and_exchange (volatile gpointer G_GNUC_MAY_ALIAS *atomic,
gpointer oldval,
gpointer newval);
gboolean
g_atomic_pointer_compare_and_exchange (volatile gpointer G_GNUC_MAY_ALIAS *atomic,
gpointer oldval,
gpointer newval)
{
if (G_UNLIKELY (CRIS_ATOMIC_BREAKS_CACHELINE (atomic)))
return __g_atomic_pointer_compare_and_exchange (atomic, oldval, newval);
return CRIS_ATOMIC_INT_CMP_XCHG (atomic, oldval, newval);
}
gboolean
g_atomic_int_compare_and_exchange (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint oldval,
gint newval)
{
if (G_UNLIKELY (CRIS_ATOMIC_BREAKS_CACHELINE (atomic)))
return __g_atomic_int_compare_and_exchange (atomic, oldval, newval);
return CRIS_ATOMIC_INT_CMP_XCHG (atomic, oldval, newval);
}
gint
g_atomic_int_exchange_and_add (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint val)
{
gint result;
if (G_UNLIKELY (CRIS_ATOMIC_BREAKS_CACHELINE (atomic)))
return __g_atomic_int_exchange_and_add (atomic, val);
do
result = *atomic;
while (!CRIS_ATOMIC_INT_CMP_XCHG (atomic, result, result + val));
return result;
}
void
g_atomic_int_add (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint val)
{
gint result;
if (G_UNLIKELY (CRIS_ATOMIC_BREAKS_CACHELINE (atomic)))
return __g_atomic_int_add (atomic, val);
do
result = *atomic;
while (!CRIS_ATOMIC_INT_CMP_XCHG (atomic, result, result + val));
}
/* We need the atomic mutex for atomic operations where the atomic variable
* breaks the 32 byte cache line since the CRIS architecture does not support
* atomic operations on such variables. Fortunately this should be rare.
*/
# define DEFINE_WITH_MUTEXES
# define g_atomic_int_exchange_and_add __g_atomic_int_exchange_and_add
# define g_atomic_int_add __g_atomic_int_add
# define g_atomic_int_compare_and_exchange __g_atomic_int_compare_and_exchange
# define g_atomic_pointer_compare_and_exchange __g_atomic_pointer_compare_and_exchange
# else /* !G_ATOMIC_* */
# define DEFINE_WITH_MUTEXES
# endif /* G_ATOMIC_* */
#else /* !__GNUC__ */
# ifdef G_PLATFORM_WIN32
# define DEFINE_WITH_WIN32_INTERLOCKED
# else
# define DEFINE_WITH_MUTEXES
# endif
#endif /* __GNUC__ */
#ifdef DEFINE_WITH_WIN32_INTERLOCKED
# include <windows.h>
/* Following indicates that InterlockedCompareExchangePointer is
* declared in winbase.h (included by windows.h) and needs to be
* commented out if not true. It is defined iff WINVER > 0x0400,
* which is usually correct but can be wrong if WINVER is set before
* windows.h is included.
*/
# if WINVER > 0x0400
# define HAVE_INTERLOCKED_COMPARE_EXCHANGE_POINTER
# endif
gint32
g_atomic_int_exchange_and_add (volatile gint32 G_GNUC_MAY_ALIAS *atomic,
gint32 val)
{
return InterlockedExchangeAdd (atomic, val);
}
void
g_atomic_int_add (volatile gint32 G_GNUC_MAY_ALIAS *atomic,
gint32 val)
{
InterlockedExchangeAdd (atomic, val);
}
gboolean
g_atomic_int_compare_and_exchange (volatile gint32 G_GNUC_MAY_ALIAS *atomic,
gint32 oldval,
gint32 newval)
{
#ifndef HAVE_INTERLOCKED_COMPARE_EXCHANGE_POINTER
return (guint32) InterlockedCompareExchange ((PVOID*)atomic,
(PVOID)newval,
(PVOID)oldval) == oldval;
#else
return InterlockedCompareExchange (atomic,
newval,
oldval) == oldval;
#endif
}
gboolean
g_atomic_pointer_compare_and_exchange (volatile gpointer G_GNUC_MAY_ALIAS *atomic,
gpointer oldval,
gpointer newval)
{
# ifdef HAVE_INTERLOCKED_COMPARE_EXCHANGE_POINTER
return InterlockedCompareExchangePointer (atomic, newval, oldval) == oldval;
# else
# if GLIB_SIZEOF_VOID_P != 4 /* no 32-bit system */
# error "InterlockedCompareExchangePointer needed"
# else
return InterlockedCompareExchange (atomic, newval, oldval) == oldval;
# endif
# endif
}
#endif /* DEFINE_WITH_WIN32_INTERLOCKED */
#ifdef DEFINE_WITH_MUTEXES
/* We have to use the slow, but safe locking method */
static GMutex *g_atomic_mutex;
/**
* g_atomic_int_exchange_and_add:
* @atomic: a pointer to an integer
* @val: the value to add to *@atomic
*
* Atomically adds @val to the integer pointed to by @atomic.
* It returns the value of *@atomic just before the addition
* took place. Also acts as a memory barrier.
*
* Returns: the value of *@atomic before the addition.
*
* Since: 2.4
*/
gint
g_atomic_int_exchange_and_add (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint val)
{
gint result;
g_mutex_lock (g_atomic_mutex);
result = *atomic;
*atomic += val;
g_mutex_unlock (g_atomic_mutex);
return result;
}
/**
* g_atomic_int_add:
* @atomic: a pointer to an integer
* @val: the value to add to *@atomic
*
* Atomically adds @val to the integer pointed to by @atomic.
* Also acts as a memory barrier.
*
* Since: 2.4
*/
void
g_atomic_int_add (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint val)
{
g_mutex_lock (g_atomic_mutex);
*atomic += val;
g_mutex_unlock (g_atomic_mutex);
}
/**
* g_atomic_int_compare_and_exchange:
* @atomic: a pointer to an integer
* @oldval: the assumed old value of *@atomic
* @newval: the new value of *@atomic
*
* Compares @oldval with the integer pointed to by @atomic and
* if they are equal, atomically exchanges *@atomic with @newval.
* Also acts as a memory barrier.
*
* Returns: %TRUE, if *@atomic was equal @oldval. %FALSE otherwise.
*
* Since: 2.4
*/
gboolean
g_atomic_int_compare_and_exchange (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint oldval,
gint newval)
{
gboolean result;
g_mutex_lock (g_atomic_mutex);
if (*atomic == oldval)
{
result = TRUE;
*atomic = newval;
}
else
result = FALSE;
g_mutex_unlock (g_atomic_mutex);
return result;
}
/**
* g_atomic_pointer_compare_and_exchange:
* @atomic: a pointer to a #gpointer
* @oldval: the assumed old value of *@atomic
* @newval: the new value of *@atomic
*
* Compares @oldval with the pointer pointed to by @atomic and
* if they are equal, atomically exchanges *@atomic with @newval.
* Also acts as a memory barrier.
*
* Returns: %TRUE, if *@atomic was equal @oldval. %FALSE otherwise.
*
* Since: 2.4
*/
gboolean
g_atomic_pointer_compare_and_exchange (volatile gpointer G_GNUC_MAY_ALIAS *atomic,
gpointer oldval,
gpointer newval)
{
gboolean result;
g_mutex_lock (g_atomic_mutex);
if (*atomic == oldval)
{
result = TRUE;
*atomic = newval;
}
else
result = FALSE;
g_mutex_unlock (g_atomic_mutex);
return result;
}
#ifdef G_ATOMIC_OP_MEMORY_BARRIER_NEEDED
/**
* g_atomic_int_get:
* @atomic: a pointer to an integer
*
* Reads the value of the integer pointed to by @atomic.
* Also acts as a memory barrier.
*
* Returns: the value of *@atomic
*
* Since: 2.4
*/
gint
(g_atomic_int_get) (volatile gint G_GNUC_MAY_ALIAS *atomic)
{
gint result;
g_mutex_lock (g_atomic_mutex);
result = *atomic;
g_mutex_unlock (g_atomic_mutex);
return result;
}
/**
* g_atomic_int_set:
* @atomic: a pointer to an integer
* @newval: the new value
*
* Sets the value of the integer pointed to by @atomic.
* Also acts as a memory barrier.
*
* Since: 2.10
*/
void
(g_atomic_int_set) (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint newval)
{
g_mutex_lock (g_atomic_mutex);
*atomic = newval;
g_mutex_unlock (g_atomic_mutex);
}
/**
* g_atomic_pointer_get:
* @atomic: a pointer to a #gpointer.
*
* Reads the value of the pointer pointed to by @atomic.
* Also acts as a memory barrier.
*
* Returns: the value to add to *@atomic.
*
* Since: 2.4
*/
gpointer
(g_atomic_pointer_get) (volatile gpointer G_GNUC_MAY_ALIAS *atomic)
{
gpointer result;
g_mutex_lock (g_atomic_mutex);
result = *atomic;
g_mutex_unlock (g_atomic_mutex);
return result;
}
/**
* g_atomic_pointer_set:
* @atomic: a pointer to a #gpointer
* @newval: the new value
*
* Sets the value of the pointer pointed to by @atomic.
* Also acts as a memory barrier.
*
* Since: 2.10
*/
void
(g_atomic_pointer_set) (volatile gpointer G_GNUC_MAY_ALIAS *atomic,
gpointer newval)
{
g_mutex_lock (g_atomic_mutex);
*atomic = newval;
g_mutex_unlock (g_atomic_mutex);
}
#endif /* G_ATOMIC_OP_MEMORY_BARRIER_NEEDED */
#elif defined (G_ATOMIC_OP_MEMORY_BARRIER_NEEDED)
gint
(g_atomic_int_get) (volatile gint G_GNUC_MAY_ALIAS *atomic)
{
G_ATOMIC_MEMORY_BARRIER;
return *atomic;
}
void
(g_atomic_int_set) (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint newval)
{
*atomic = newval;
G_ATOMIC_MEMORY_BARRIER;
}
gpointer
(g_atomic_pointer_get) (volatile gpointer G_GNUC_MAY_ALIAS *atomic)
{
G_ATOMIC_MEMORY_BARRIER;
return *atomic;
}
void
(g_atomic_pointer_set) (volatile gpointer G_GNUC_MAY_ALIAS *atomic,
gpointer newval)
{
*atomic = newval;
G_ATOMIC_MEMORY_BARRIER;
}
#endif /* DEFINE_WITH_MUTEXES || G_ATOMIC_OP_MEMORY_BARRIER_NEEDED */
#ifdef ATOMIC_INT_CMP_XCHG
gboolean
g_atomic_int_compare_and_exchange (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint oldval,
gint newval)
{
return ATOMIC_INT_CMP_XCHG (atomic, oldval, newval);
}
gint
g_atomic_int_exchange_and_add (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint val)
{
gint result;
do
result = *atomic;
while (!ATOMIC_INT_CMP_XCHG (atomic, result, result + val));
return result;
}
void
g_atomic_int_add (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint val)
{
gint result;
do
result = *atomic;
while (!ATOMIC_INT_CMP_XCHG (atomic, result, result + val));
}
#endif /* ATOMIC_INT_CMP_XCHG */
void
_g_atomic_thread_init (void)
{
#ifdef DEFINE_WITH_MUTEXES
g_atomic_mutex = g_mutex_new ();
#endif /* DEFINE_WITH_MUTEXES */
}
#ifndef G_ATOMIC_OP_MEMORY_BARRIER_NEEDED
gint
(g_atomic_int_get) (volatile gint G_GNUC_MAY_ALIAS *atomic)
{
return g_atomic_int_get (atomic);
}
void
(g_atomic_int_set) (volatile gint G_GNUC_MAY_ALIAS *atomic,
gint newval)
{
g_atomic_int_set (atomic, newval);
}
gpointer
(g_atomic_pointer_get) (volatile gpointer G_GNUC_MAY_ALIAS *atomic)
{
return g_atomic_pointer_get (atomic);
}
void
(g_atomic_pointer_set) (volatile gpointer G_GNUC_MAY_ALIAS *atomic,
gpointer newval)
{
g_atomic_pointer_set (atomic, newval);
}
#endif /* G_ATOMIC_OP_MEMORY_BARRIER_NEEDED */
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