#ifndef SCM_GC_H
#define SCM_GC_H
-/* Copyright (C) 1995,1996,1998,1999,2000,2001, 2002, 2003, 2004, 2006, 2008 Free Software Foundation, Inc.
+/* Copyright (C) 1995,1996,1998,1999,2000,2001, 2002, 2003, 2004, 2006, 2007, 2008, 2009 Free Software Foundation, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public License
#include "libguile/threads.h"
\f
-
-/* Cell allocation and garbage collection work rouhgly in the
- following manner:
-
- Each thread has a 'freelist', which is a list of available cells.
- (It actually has two freelists, one for single cells and one for
- double cells. Everything works analogous for double cells.)
-
- When a thread wants to allocate a cell and the freelist is empty,
- it refers to a global list of unswept 'cards'. A card is a small
- block of cells that are contigous in memory, together with the
- corresponding mark bits. A unswept card is one where the mark bits
- are set for cells that have been in use during the last global mark
- phase, but the unmarked cells of the card have not been scanned and
- freed yet.
-
- The thread takes one of the unswept cards and sweeps it, thereby
- building a new freelist that it then uses. Sweeping a card will
- call the smob free functions of unmarked cells, for example, and
- thus, these free functions can run at any time, in any thread.
-
- When there are no more unswept cards available, the thread performs
- a global garbage collection. For this, all other threads are
- stopped. A global mark is performed and all cards are put into the
- global list of unswept cards. Whennecessary, new cards are
- allocated and initialized at this time. The other threads are then
- started again.
-*/
-
typedef struct scm_t_cell
{
SCM word_0;
SCM word_1;
} scm_t_cell;
-/*
- CARDS
-
- A card is a small `page' of memory; it will be the unit for lazy
- sweeping, generations, etc. The first cell of a card contains a
- pointer to the mark bitvector, so that we can find the bitvector
- efficiently: we knock off some lowerorder bits.
-
- The size on a 32 bit machine is 256 cells = 2kb. The card [XXX]
-*/
-
-
-
/* Cray machines have pointers that are incremented once for each
* word, rather than each byte, the 3 most significant bits encode the
* byte within the word. The following macros deal with this by
#endif /* def _UNICOS */
-#define SCM_GC_CARD_N_HEADER_CELLS 1
-#define SCM_GC_CARD_N_CELLS 256
-#define SCM_GC_SIZEOF_CARD SCM_GC_CARD_N_CELLS * sizeof (scm_t_cell)
-
-#define SCM_GC_CARD_BVEC(card) ((scm_t_c_bvec_long *) ((card)->word_0))
-#define SCM_GC_SET_CARD_BVEC(card, bvec) \
- ((card)->word_0 = (SCM) (bvec))
-#define SCM_GC_GET_CARD_FLAGS(card) ((long) ((card)->word_1))
-#define SCM_GC_SET_CARD_FLAGS(card, flags) \
- ((card)->word_1 = (SCM) (flags))
-
-#define SCM_GC_GET_CARD_FLAG(card, shift) \
- (SCM_GC_GET_CARD_FLAGS (card) & (1L << (shift)))
-#define SCM_GC_SET_CARD_FLAG(card, shift) \
- (SCM_GC_SET_CARD_FLAGS (card, SCM_GC_GET_CARD_FLAGS(card) | (1L << (shift))))
-#define SCM_GC_CLEAR_CARD_FLAG(card, shift) \
- (SCM_GC_SET_CARD_FLAGS (card, SCM_GC_GET_CARD_FLAGS(card) & ~(1L << (shift))))
-
-/*
- Remove card flags. They hamper lazy initialization, and aren't used
- anyways.
- */
-
-/* card addressing. for efficiency, cards are *always* aligned to
- SCM_GC_CARD_SIZE. */
-
-#define SCM_GC_CARD_SIZE_MASK (SCM_GC_SIZEOF_CARD-1)
-#define SCM_GC_CARD_ADDR_MASK (~SCM_GC_CARD_SIZE_MASK)
-
-#define SCM_GC_CELL_CARD(x) ((scm_t_cell *) ((long) (x) & SCM_GC_CARD_ADDR_MASK))
-#define SCM_GC_CELL_OFFSET(x) (((long) (x) & SCM_GC_CARD_SIZE_MASK) >> SCM_CELL_SIZE_SHIFT)
-#define SCM_GC_CELL_BVEC(x) SCM_GC_CARD_BVEC (SCM_GC_CELL_CARD (x))
-#define SCM_GC_SET_CELL_BVEC(x, bvec) SCM_GC_SET_CARD_BVEC (SCM_GC_CELL_CARD (x), bvec)
-#define SCM_GC_CELL_GET_BIT(x) SCM_C_BVEC_GET (SCM_GC_CELL_BVEC (x), SCM_GC_CELL_OFFSET (x))
-#define SCM_GC_CELL_SET_BIT(x) SCM_C_BVEC_SET (SCM_GC_CELL_BVEC (x), SCM_GC_CELL_OFFSET (x))
-#define SCM_GC_CELL_CLEAR_BIT(x) SCM_C_BVEC_CLEAR (SCM_GC_CELL_BVEC (x), SCM_GC_CELL_OFFSET (x))
-
-#define SCM_GC_CARD_UP(x) SCM_GC_CELL_CARD ((char *) (x) + SCM_GC_SIZEOF_CARD - 1)
-#define SCM_GC_CARD_DOWN SCM_GC_CELL_CARD
-
-/* low level bit banging aids */
-typedef unsigned long scm_t_c_bvec_long;
-
-#if (SCM_SIZEOF_UNSIGNED_LONG == 8)
-# define SCM_C_BVEC_LONG_BITS 64
-# define SCM_C_BVEC_OFFSET_SHIFT 6
-# define SCM_C_BVEC_POS_MASK 63
-# define SCM_CELL_SIZE_SHIFT 4
-#else
-# define SCM_C_BVEC_LONG_BITS 32
-# define SCM_C_BVEC_OFFSET_SHIFT 5
-# define SCM_C_BVEC_POS_MASK 31
-# define SCM_CELL_SIZE_SHIFT 3
-#endif
-
-#define SCM_C_BVEC_OFFSET(pos) (pos >> SCM_C_BVEC_OFFSET_SHIFT)
-
-#define SCM_C_BVEC_GET(bvec, pos) (bvec[SCM_C_BVEC_OFFSET (pos)] & (1L << (pos & SCM_C_BVEC_POS_MASK)))
-#define SCM_C_BVEC_SET(bvec, pos) (bvec[SCM_C_BVEC_OFFSET (pos)] |= (1L << (pos & SCM_C_BVEC_POS_MASK)))
-#define SCM_C_BVEC_CLEAR(bvec, pos) (bvec[SCM_C_BVEC_OFFSET (pos)] &= ~(1L << (pos & SCM_C_BVEC_POS_MASK)))
-
-/* testing and changing GC marks */
-#define SCM_GC_MARK_P(x) SCM_GC_CELL_GET_BIT (x)
-
-SCM_INTERNAL void scm_i_ensure_marking(void);
-
-#if (SCM_DEBUG_MARKING_API == 1)
-#define SCM_I_ENSURE_MARKING scm_i_ensure_marking(),
-#else
-#define SCM_I_ENSURE_MARKING
-#endif
-
-#define SCM_SET_GC_MARK(x) SCM_I_ENSURE_MARKING SCM_GC_CELL_SET_BIT (x)
-#define SCM_CLEAR_GC_MARK(x) SCM_I_ENSURE_MARKING SCM_GC_CELL_CLEAR_BIT (x)
/* Low level cell data accessing macros. These macros should only be used
* from within code related to garbage collection issues, since they will
SCM_INTERNAL scm_i_pthread_mutex_t scm_i_gc_admin_mutex;
-#define scm_gc_running_p (SCM_I_CURRENT_THREAD->gc_running_p)
+#define scm_gc_running_p 0
SCM_INTERNAL scm_i_pthread_mutex_t scm_i_sweep_mutex;
#ifdef __ia64__
#define SCM_SET_FREELIST_LOC(key,ptr) scm_i_pthread_setspecific ((key), (ptr))
#define SCM_FREELIST_LOC(key) ((SCM *) scm_i_pthread_getspecific (key))
-SCM_API scm_i_pthread_key_t scm_i_freelist;
-SCM_API scm_i_pthread_key_t scm_i_freelist2;
SCM_API struct scm_t_cell_type_statistics scm_i_master_freelist;
SCM_API struct scm_t_cell_type_statistics scm_i_master_freelist2;
-SCM_API unsigned long scm_gc_malloc_collected;
-SCM_API int scm_gc_malloc_yield_percentage;
SCM_API unsigned long scm_mallocated;
+SCM_API unsigned long scm_gc_ports_collected;
SCM_API unsigned long scm_mtrigger;
SCM_API SCM scm_after_gc_hook;
SCM_API SCM scm_object_address (SCM obj);
+SCM_API SCM scm_gc_enable (void);
+SCM_API SCM scm_gc_disable (void);
+SCM_API SCM scm_gc_dump (void);
SCM_API SCM scm_gc_stats (void);
SCM_API SCM scm_gc_live_object_stats (void);
SCM_API SCM scm_gc (void);
-SCM_API void scm_gc_for_alloc (struct scm_t_cell_type_statistics *freelist);
-SCM_API SCM scm_gc_for_newcell (struct scm_t_cell_type_statistics *master, SCM *freelist);
-SCM_INTERNAL void scm_i_gc (const char *what);
+SCM_API void scm_i_gc (const char *what);
SCM_API void scm_gc_mark (SCM p);
-SCM_API void scm_gc_mark_dependencies (SCM p);
-SCM_API void scm_mark_locations (SCM_STACKITEM x[], unsigned long n);
-SCM_API int scm_in_heap_p (SCM value);
SCM_API void scm_gc_sweep (void);
SCM_API void *scm_malloc (size_t size);
const char *what);
SCM_API void scm_gc_unregister_collectable_memory (void *mem, size_t size,
const char *what);
+SCM_API void *scm_gc_malloc_pointerless (size_t size, const char *what);
SCM_API void *scm_gc_calloc (size_t size, const char *what);
SCM_API void *scm_gc_malloc (size_t size, const char *what);
SCM_API void *scm_gc_realloc (void *mem, size_t old_size,
SCM_API void scm_gc_unregister_roots (SCM *b, unsigned long n);
SCM_API void scm_storage_prehistory (void);
SCM_API int scm_init_storage (void);
-SCM_API void *scm_get_stack_base (void);
-SCM_INTERNAL void scm_init_gc (void);
+SCM_API void scm_init_gc (void);
#if SCM_ENABLE_DEPRECATED == 1