boost_1_45_0/tools/build/v2/engine/src/boehm_gc/include/gc_inline.h - nest-learning-thermostat/5.0/boost - Git at Google

 /*
  * Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers
  * Copyright (c) 1991-1995 by Xerox Corporation.  All rights reserved.
  * Copyright (c) 2005 Hewlett-Packard Development Company, L.P.
  *
  * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED
  * OR IMPLIED.  ANY USE IS AT YOUR OWN RISK.
  *
  * Permission is hereby granted to use or copy this program
  * for any purpose,  provided the above notices are retained on all copies.
  * Permission to modify the code and to distribute modified code is granted,
  * provided the above notices are retained, and a notice that the code was
  * modified is included with the above copyright notice.
  */

 /* USE OF THIS FILE IS NOT RECOMMENDED unless GC_all_interior_pointers	*/
 /* is not set, or the collector has been built with			*/
 /* -DDONT_ADD_BYTE_AT_END, or the specified size includes a pointerfree	*/
 /* word at the end.  In the standard collector configuration,		*/
 /* the final word of each object may not be scanned.			*/
 /* This interface is most useful for compilers that generate C.		*/
 /* It is also used internally for thread-local allocation, in which	*/
 /* case, the size is suitably adjusted by the caller.			*/
 /* Manual use is hereby discouraged.					*/

 #include "gc.h"
 #include "gc_tiny_fl.h"

 #if __GNUC__ >= 3
 # define GC_EXPECT(expr, outcome) __builtin_expect(expr,outcome)
   /* Equivalent to (expr), but predict that usually (expr)==outcome. */
 #else
 # define GC_EXPECT(expr, outcome) (expr)
 #endif /* __GNUC__ */

 /* The ultimately general inline allocation macro.  Allocate an object	*/
 /* of size bytes, putting the resulting pointer in result.  Tiny_fl is	*/
 /* a "tiny" free list array, which will be used first, if the size	*/
 /* is appropriate.  If bytes is too large, we allocate with 		*/
 /* default_expr instead.  If we need to refill the free list, we use	*/
 /* GC_generic_malloc_many with the indicated kind.			*/
 /* Tiny_fl should be an array of GC_TINY_FREELISTS void * pointers.	*/
 /* If num_direct is nonzero, and the individual free list pointers	*/
 /* are initialized to (void *)1, then we allocate numdirect granules	*/
 /* directly using gmalloc before putting multiple objects into the	*/
 /* tiny_fl entry.  If num_direct is zero, then the free lists may also	*/
 /* be initialized to (void *)0.						*/
 /* We rely on much of this hopefully getting optimized away in the	*/
 /* num_direct = 0 case.							*/
 /* Particularly if bytes is constant, this should generate a small	*/
 /* amount of code.							*/
 # define GC_FAST_MALLOC_GRANS(result,granules,tiny_fl,num_direct,\
 			      kind,default_expr,init) \
 { \
     if (GC_EXPECT(granules >= GC_TINY_FREELISTS,0)) { \
         result = default_expr; \
     } else { \
 	void **my_fl = tiny_fl + granules; \
         void *my_entry=*my_fl; \
 	void *next; \
  \
 	while (GC_EXPECT((GC_word)my_entry \
 				<= num_direct + GC_TINY_FREELISTS + 1, 0)) { \
 	    /* Entry contains counter or NULL */ \
 	    if ((GC_word)my_entry - 1 < num_direct) { \
 		/* Small counter value, not NULL */ \
                 *my_fl = (ptr_t)my_entry + granules + 1; \
                 result = default_expr; \
 		goto out; \
             } else { \
 		/* Large counter or NULL */ \
                 GC_generic_malloc_many(((granules) == 0? GC_GRANULE_BYTES : \
 					  RAW_BYTES_FROM_INDEX(granules)), \
 				       kind, my_fl); \
 		my_entry = *my_fl; \
                 if (my_entry == 0) { \
 		    result = GC_oom_fn(bytes); \
 		    goto out; \
 		} \
 	    } \
         } \
         next = *(void **)(my_entry); \
         result = (void *)my_entry; \
         *my_fl = next; \
 	init; \
         PREFETCH_FOR_WRITE(next); \
         GC_ASSERT(GC_size(result) >= bytes + EXTRA_BYTES); \
         GC_ASSERT((kind) == PTRFREE || ((GC_word *)result)[1] == 0); \
       out: ; \
    } \
 }

 # define GC_WORDS_TO_WHOLE_GRANULES(n) \
 	GC_WORDS_TO_GRANULES((n) + GC_GRANULE_WORDS - 1)

 /* Allocate n words (NOT BYTES).  X is made to point to the result.	*/
 /* This should really only be used if GC_all_interior_pointers is	*/
 /* not set, or DONT_ADD_BYTE_AT_END is set.  See above.			*/
 /* The semantics changed in version 7.0; we no longer lock, and		*/
 /* the caller is responsible for supplying a cleared tiny_fl		*/
 /* free list array.  For single-threaded applications, this may be	*/
 /* a global array.							*/
 # define GC_MALLOC_WORDS(result,n,tiny_fl) \
 {	\
     size_t grans = WORDS_TO_WHOLE_GRANULES(n); \
     GC_FAST_MALLOC_GRANS(result, grans, tiny_fl, 0, \
 			 NORMAL, GC_malloc(grans*GRANULE_BYTES), \
 			 *(void **)result = 0); \
 }

 # define GC_MALLOC_ATOMIC_WORDS(result,n,tiny_fl) \
 {	\
     size_t grans = WORDS_TO_WHOLE_GRANULES(n); \
     GC_FAST_MALLOC_GRANS(result, grans, tiny_fl, 0, \
 			 PTRFREE, GC_malloc_atomic(grans*GRANULE_BYTES), \
 			 /* no initialization */); \
 }


 /* And once more for two word initialized objects: */
 # define GC_CONS(result, first, second, tiny_fl) \
 {	\
     size_t grans = WORDS_TO_WHOLE_GRANULES(2); \
     GC_FAST_MALLOC_GRANS(result, grans, tiny_fl, 0, \
 			 NORMAL, GC_malloc(grans*GRANULE_BYTES), \
 			 *(void **)result = (void *)(first)); \
     ((void **)(result))[1] = (void *)(second);	\
 }
	/*
	* Copyright 1988, 1989 Hans-J. Boehm, Alan J. Demers
	* Copyright (c) 1991-1995 by Xerox Corporation. All rights reserved.
	* Copyright (c) 2005 Hewlett-Packard Development Company, L.P.
	*
	* THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED
	* OR IMPLIED. ANY USE IS AT YOUR OWN RISK.
	*
	* Permission is hereby granted to use or copy this program
	* for any purpose, provided the above notices are retained on all copies.
	* Permission to modify the code and to distribute modified code is granted,
	* provided the above notices are retained, and a notice that the code was
	* modified is included with the above copyright notice.
	*/

	/* USE OF THIS FILE IS NOT RECOMMENDED unless GC_all_interior_pointers */
	/* is not set, or the collector has been built with */
	/* -DDONT_ADD_BYTE_AT_END, or the specified size includes a pointerfree */
	/* word at the end. In the standard collector configuration, */
	/* the final word of each object may not be scanned. */
	/* This interface is most useful for compilers that generate C. */
	/* It is also used internally for thread-local allocation, in which */
	/* case, the size is suitably adjusted by the caller. */
	/* Manual use is hereby discouraged. */

	#include "gc.h"
	#include "gc_tiny_fl.h"

	#if __GNUC__ >= 3
	# define GC_EXPECT(expr, outcome) __builtin_expect(expr,outcome)
	/* Equivalent to (expr), but predict that usually (expr)==outcome. */
	#else
	# define GC_EXPECT(expr, outcome) (expr)
	#endif /* __GNUC__ */

	/* The ultimately general inline allocation macro. Allocate an object */
	/* of size bytes, putting the resulting pointer in result. Tiny_fl is */
	/* a "tiny" free list array, which will be used first, if the size */
	/* is appropriate. If bytes is too large, we allocate with */
	/* default_expr instead. If we need to refill the free list, we use */
	/* GC_generic_malloc_many with the indicated kind. */
	/* Tiny_fl should be an array of GC_TINY_FREELISTS void * pointers. */
	/* If num_direct is nonzero, and the individual free list pointers */
	/* are initialized to (void )1, then we allocate numdirect granules /
	/* directly using gmalloc before putting multiple objects into the */
	/* tiny_fl entry. If num_direct is zero, then the free lists may also */
	/* be initialized to (void )0. /
	/* We rely on much of this hopefully getting optimized away in the */
	/* num_direct = 0 case. */
	/* Particularly if bytes is constant, this should generate a small */
	/* amount of code. */
	# define GC_FAST_MALLOC_GRANS(result,granules,tiny_fl,num_direct,\
	kind,default_expr,init) \
	{ \
	if (GC_EXPECT(granules >= GC_TINY_FREELISTS,0)) { \
	result = default_expr; \
	} else { \
	void **my_fl = tiny_fl + granules; \
	void my_entry=my_fl; \
	void *next; \
	\
	while (GC_EXPECT((GC_word)my_entry \
	<= num_direct + GC_TINY_FREELISTS + 1, 0)) { \
	/* Entry contains counter or NULL */ \
	if ((GC_word)my_entry - 1 < num_direct) { \
	/* Small counter value, not NULL */ \
	*my_fl = (ptr_t)my_entry + granules + 1; \
	result = default_expr; \
	goto out; \
	} else { \
	/* Large counter or NULL */ \
	GC_generic_malloc_many(((granules) == 0? GC_GRANULE_BYTES : \
	RAW_BYTES_FROM_INDEX(granules)), \
	kind, my_fl); \
	my_entry = *my_fl; \
	if (my_entry == 0) { \
	result = GC_oom_fn(bytes); \
	goto out; \
	} \
	} \
	} \
	next = (void *)(my_entry); \
	result = (void *)my_entry; \
	*my_fl = next; \
	init; \
	PREFETCH_FOR_WRITE(next); \
	GC_ASSERT(GC_size(result) >= bytes + EXTRA_BYTES); \
	GC_ASSERT((kind) == PTRFREE \|\| ((GC_word *)result)[1] == 0); \
	out: ; \
	} \
	}

	# define GC_WORDS_TO_WHOLE_GRANULES(n) \
	GC_WORDS_TO_GRANULES((n) + GC_GRANULE_WORDS - 1)

	/* Allocate n words (NOT BYTES). X is made to point to the result. */
	/* This should really only be used if GC_all_interior_pointers is */
	/* not set, or DONT_ADD_BYTE_AT_END is set. See above. */
	/* The semantics changed in version 7.0; we no longer lock, and */
	/* the caller is responsible for supplying a cleared tiny_fl */
	/* free list array. For single-threaded applications, this may be */
	/* a global array. */
	# define GC_MALLOC_WORDS(result,n,tiny_fl) \
	{ \
	size_t grans = WORDS_TO_WHOLE_GRANULES(n); \
	GC_FAST_MALLOC_GRANS(result, grans, tiny_fl, 0, \
	NORMAL, GC_malloc(grans*GRANULE_BYTES), \
	(void *)result = 0); \
	}

	# define GC_MALLOC_ATOMIC_WORDS(result,n,tiny_fl) \
	{ \
	size_t grans = WORDS_TO_WHOLE_GRANULES(n); \
	GC_FAST_MALLOC_GRANS(result, grans, tiny_fl, 0, \
	PTRFREE, GC_malloc_atomic(grans*GRANULE_BYTES), \
	/* no initialization */); \
	}


	/* And once more for two word initialized objects: */
	# define GC_CONS(result, first, second, tiny_fl) \
	{ \
	size_t grans = WORDS_TO_WHOLE_GRANULES(2); \
	GC_FAST_MALLOC_GRANS(result, grans, tiny_fl, 0, \
	NORMAL, GC_malloc(grans*GRANULE_BYTES), \
	(void )result = (void )(first)); \
	((void *)(result))[1] = (void )(second); \
	}