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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [libobjc/] [accessors.m] - Blame information for rev 823

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1 739 jeremybenn
/* GNU Objective C Runtime accessors functions
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   Copyright (C) 2010 Free Software Foundation, Inc.
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   Contributed by Nicola Pero
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This file is part of GCC.
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GCC is free software; you can redistribute it and/or modify it under the
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terms of the GNU General Public License as published by the Free Software
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Foundation; either version 3, or (at your option) any later version.
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GCC is distributed in the hope that it will be useful, but WITHOUT ANY
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WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
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FOR A PARTICULAR PURPOSE.  See the GNU General Public License for more
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details.
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Under Section 7 of GPL version 3, you are granted additional
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permissions described in the GCC Runtime Library Exception, version
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3.1, as published by the Free Software Foundation.
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You should have received a copy of the GNU General Public License and
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a copy of the GCC Runtime Library Exception along with this program;
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see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see
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<http://www.gnu.org/licenses/>.  */
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#include "objc-private/common.h"
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#include "objc/objc.h"
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#include "objc/thr.h"
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#include <string.h>                    /* For memcpy */
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/* This file contains functions that the compiler uses when
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   synthesizing accessors (getters/setters) for properties.  The
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   functions are part of the ABI, but are meant to be used by the
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   compiler and not by users; for this reason, they are not declared
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   in public header files.  The compiler automatically generates
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   declarations for these functions.  */
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/* Properties can be "atomic", which requires protecting them from
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   concurrency issues using a lock.  Unfortunately, we can't have a
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   lock for each property, so we'll go with a small pool of locks.
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   Any time a property is accessed in an "atomic" way, we pick a
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   random lock from the pool (random, but always the same one for the
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   same property of the same object) and use it to protect access to
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   the property.
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   The size of the pool is currently 16.  A bigger pool can help
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   reduce contention, ie, reduce the chances that two threads,
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   operating on unrelated properties, will have to wait for each other
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   because the properties use the same lock.  16 seems big enough at
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   the moment.  */
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#define ACCESSORS_NUMBER_OF_LOCKS 16
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#define ACCESSORS_HASH(POINTER) ((((size_t)POINTER >> 8) ^ (size_t)POINTER) & (ACCESSORS_NUMBER_OF_LOCKS - 1))
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static objc_mutex_t accessors_locks[ACCESSORS_NUMBER_OF_LOCKS];
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/* This is called at startup to setup the locks.  */
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void
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__objc_accessors_init (void)
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{
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  int i;
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  for (i = 0; i < ACCESSORS_NUMBER_OF_LOCKS; i++)
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    accessors_locks[i] = objc_mutex_allocate ();
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}
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/* The property accessors automatically call various methods from the
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   Foundation library (eg, GNUstep-base).  These methods are not
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   implemented here, but we need to declare them so we can compile the
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   runtime.  The Foundation library will need to provide
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   implementations of these methods (most likely in the root class,
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   eg, NSObject) as the accessors only work with objects of classes
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   that implement these methods.  */
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@interface _libobjcNSObject
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- (id) copyWithZone: (void *)zone;
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- (id) mutableCopyWithZone: (void *)zone;
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@end
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#define COPY(X)         [((_libobjcNSObject *)(X)) copyWithZone: NULL]
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#define MUTABLE_COPY(X) [((_libobjcNSObject *)(X)) mutableCopyWithZone: NULL]
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#if OBJC_WITH_GC
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#  define AUTORELEASE(X)  (X)
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#  define RELEASE(X)
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#  define RETAIN(X)       (X)
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#else
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@interface _libobjcNSObject (RetainReleaseMethods)
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- (id) autorelease;
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- (oneway void) release;
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- (id) retain;
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@end
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#  define AUTORELEASE(X)  [((_libobjcNSObject *)(X)) autorelease]
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#  define RELEASE(X)      [((_libobjcNSObject *)(X)) release]
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#  define RETAIN(X)       [((_libobjcNSObject *)(X)) retain]
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#endif
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/* The compiler uses this function when implementing some synthesized
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   getters for properties of type 'id'.  */
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id
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objc_getProperty (id self, SEL __attribute__((unused)) _cmd, ptrdiff_t offset, BOOL is_atomic)
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{
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  if (self != nil)
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    {
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      id *pointer_to_ivar = (id *)((char *)self + offset);
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      if (is_atomic == NO)
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        {
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          /* Note that in this case, we do not RETAIN/AUTORELEASE the
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             returned value.  The programmer should do it if it is
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             needed.  Since access is non-atomic, other threads can be
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             ignored and the caller has full control of what happens
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             to the object and whether it needs to be RETAINed or not,
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             so it makes sense to leave the decision to him/her.  This
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             is also what the Apple/NeXT runtime does.  */
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          return *pointer_to_ivar;
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        }
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      else
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        {
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          objc_mutex_t lock = accessors_locks[ACCESSORS_HASH (pointer_to_ivar)];
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          id result;
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          objc_mutex_lock (lock);
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          result = RETAIN (*(pointer_to_ivar));
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          objc_mutex_unlock (lock);
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          return AUTORELEASE (result);
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        }
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    }
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  return nil;
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}
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/* The compiler uses this function when implementing some synthesized
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   setters for properties of type 'id'.
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   PS: Note how 'should_copy' is declared 'BOOL' but then actually
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   takes values from 0 to 2.  This hack was introduced by Apple; we
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   do the same for compatibility reasons.  */
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void
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objc_setProperty (id self, SEL __attribute__((unused)) _cmd, ptrdiff_t offset, id new_value, BOOL is_atomic, BOOL should_copy)
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{
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  if (self != nil)
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    {
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      id *pointer_to_ivar = (id *)((char *)self + offset);
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      id retained_value;
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#if !OBJC_WITH_GC
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      id old_value;
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#endif
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      switch (should_copy)
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        {
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        case 0: /* retain */
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          {
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            if (*pointer_to_ivar == new_value)
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              return;
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            retained_value = RETAIN (new_value);
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            break;
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          }
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        case 2: /* mutable copy */
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          {
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            retained_value = MUTABLE_COPY (new_value);
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            break;
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          }
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        case 1: /* copy */
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        default:
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          {
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            retained_value = COPY (new_value);
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            break;
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          }
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        }
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      if (is_atomic == NO)
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        {
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#if !OBJC_WITH_GC
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          old_value = *pointer_to_ivar;
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#endif
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          *pointer_to_ivar = retained_value;
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        }
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      else
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        {
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          objc_mutex_t lock = accessors_locks[ACCESSORS_HASH (pointer_to_ivar)];
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          objc_mutex_lock (lock);
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#if !OBJC_WITH_GC
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          old_value = *pointer_to_ivar;
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#endif
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          *pointer_to_ivar = retained_value;
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          objc_mutex_unlock (lock);
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        }
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#if !OBJC_WITH_GC
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      RELEASE (old_value);
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#endif
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    }
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}
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/* The compiler uses this function when implementing some synthesized
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   getters for properties of arbitrary C types.  The data is just
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   copied.  Compatibility Note: this function does not exist in the
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   Apple/NeXT runtime.  */
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void
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objc_getPropertyStruct (void *destination, const void *source, ptrdiff_t size, BOOL is_atomic, BOOL __attribute__((unused)) has_strong)
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{
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  if (is_atomic == NO)
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    memcpy (destination, source, size);
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  else
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    {
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      objc_mutex_t lock = accessors_locks[ACCESSORS_HASH (source)];
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      objc_mutex_lock (lock);
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      memcpy (destination, source, size);
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      objc_mutex_unlock (lock);
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    }
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}
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/* The compiler uses this function when implementing some synthesized
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   setters for properties of arbitrary C types.  The data is just
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   copied.  Compatibility Note: this function does not exist in the
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   Apple/NeXT runtime.  */
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void
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objc_setPropertyStruct (void *destination, const void *source, ptrdiff_t size, BOOL is_atomic, BOOL __attribute__((unused)) has_strong)
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{
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  if (is_atomic == NO)
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    memcpy (destination, source, size);
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  else
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    {
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      objc_mutex_t lock = accessors_locks[ACCESSORS_HASH (destination)];
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      objc_mutex_lock (lock);
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      memcpy (destination, source, size);
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      objc_mutex_unlock (lock);
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    }
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}
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/* This is the function that the Apple/NeXT runtime has instead of
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   objc_getPropertyStruct and objc_setPropertyStruct.  We include it
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   for API compatibility (just for people who may have used
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   objc_copyStruct on the NeXT runtime thinking it was a public API);
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   the compiler never generates calls to it with the GNU runtime.
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   This function is clumsy because it requires two locks instead of
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   one.  */
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void
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objc_copyStruct (void *destination, const void *source, ptrdiff_t size, BOOL is_atomic, BOOL __attribute__((unused)) has_strong)
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{
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  if (is_atomic == NO)
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    memcpy (destination, source, size);
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  else
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    {
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      /* We don't know which one is the property, so we have to lock
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         both.  One of them is most likely a temporary buffer in the
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         local stack and we really wouldn't want to lock it (our
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         objc_getPropertyStruct and objc_setPropertyStruct functions
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         don't lock it).  Note that if we're locking more than one
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         accessor lock at once, we need to always lock them in the
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         same order to avoid deadlocks.  */
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      objc_mutex_t first_lock;
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      objc_mutex_t second_lock;
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      if (ACCESSORS_HASH (source) == ACCESSORS_HASH (destination))
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        {
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          /* A lucky collision.  */
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          first_lock = accessors_locks[ACCESSORS_HASH (source)];
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          objc_mutex_lock (first_lock);
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          memcpy (destination, source, size);
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          objc_mutex_unlock (first_lock);
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          return;
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        }
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      if (ACCESSORS_HASH (source) > ACCESSORS_HASH (destination))
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        {
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          first_lock = accessors_locks[ACCESSORS_HASH (source)];
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          second_lock = accessors_locks[ACCESSORS_HASH (destination)];
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        }
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      else
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        {
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          first_lock = accessors_locks[ACCESSORS_HASH (destination)];
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          second_lock = accessors_locks[ACCESSORS_HASH (source)];
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        }
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      objc_mutex_lock (first_lock);
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      objc_mutex_lock (second_lock);
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      memcpy (destination, source, size);
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      objc_mutex_unlock (second_lock);
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      objc_mutex_unlock (first_lock);
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    }
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}

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