/* Storage allocation and gc for GNU Emacs Lisp interpreter.
- Copyright (C) 1985, 86, 88, 93, 94, 95, 97, 98, 1999, 2000
+ Copyright (C) 1985, 86, 88, 93, 94, 95, 97, 98, 1999, 2000, 2001, 2002
Free Software Foundation, Inc.
This file is part of GNU Emacs.
#include <signal.h>
-/* Define this temporarily to hunt a bug. If defined, the size of
- strings is always recorded in sdata structures so that it can be
- compared to the sizes recorded in Lisp strings. */
+/* GC_MALLOC_CHECK defined means perform validity checks of malloc'd
+ memory. Can do this only if using gmalloc.c. */
-#define GC_CHECK_STRING_BYTES 1
+#if defined SYSTEM_MALLOC || defined DOUG_LEA_MALLOC
+#undef GC_MALLOC_CHECK
+#endif
/* This file is part of the core Lisp implementation, and thus must
deal with the real data structures. If the Lisp implementation is
#undef HIDE_LISP_IMPLEMENTATION
#include "lisp.h"
+#include "process.h"
#include "intervals.h"
#include "puresize.h"
#include "buffer.h"
#endif /* not DOUG_LEA_MALLOC */
-#define max(A,B) ((A) > (B) ? (A) : (B))
-#define min(A,B) ((A) < (B) ? (A) : (B))
-
/* Macro to verify that storage intended for Lisp objects is not
out of range to fit in the space for a pointer.
ADDRESS is the start of the block, and SIZE
/* Count the amount of consing of various sorts of space. */
-int cons_cells_consed;
-int floats_consed;
-int vector_cells_consed;
-int symbols_consed;
-int string_chars_consed;
-int misc_objects_consed;
-int intervals_consed;
-int strings_consed;
+EMACS_INT cons_cells_consed;
+EMACS_INT floats_consed;
+EMACS_INT vector_cells_consed;
+EMACS_INT symbols_consed;
+EMACS_INT string_chars_consed;
+EMACS_INT misc_objects_consed;
+EMACS_INT intervals_consed;
+EMACS_INT strings_consed;
/* Number of bytes of consing since GC before another GC should be done. */
-int gc_cons_threshold;
+EMACS_INT gc_cons_threshold;
/* Nonzero during GC. */
/* Two limits controlling how much undo information to keep. */
-int undo_limit;
-int undo_strong_limit;
+EMACS_INT undo_limit;
+EMACS_INT undo_strong_limit;
/* Number of live and free conses etc. */
Lisp_Object Vpurify_flag;
+/* Non-nil means we are handling a memory-full error. */
+
+Lisp_Object Vmemory_full;
+
#ifndef HAVE_SHM
/* Force it into data space! */
EMACS_INT pure[PURESIZE / sizeof (EMACS_INT)] = {0,};
#define PUREBEG (char *) pure
-#else /* not HAVE_SHM */
+#else /* HAVE_SHM */
#define pure PURE_SEG_BITS /* Use shared memory segment */
#define PUREBEG (char *)PURE_SEG_BITS
-/* This variable is used only by the XPNTR macro when HAVE_SHM is
- defined. If we used the PURESIZE macro directly there, that would
- make most of Emacs dependent on puresize.h, which we don't want -
- you should be able to change that without too much recompilation.
- So map_in_data initializes pure_size, and the dependencies work
- out. */
+#endif /* HAVE_SHM */
-EMACS_INT pure_size;
+/* Pointer to the pure area, and its size. */
-#endif /* not HAVE_SHM */
+static char *purebeg;
+static size_t pure_size;
+
+/* Number of bytes of pure storage used before pure storage overflowed.
+ If this is non-zero, this implies that an overflow occurred. */
+
+static size_t pure_bytes_used_before_overflow;
/* Value is non-zero if P points into pure space. */
#define PURE_POINTER_P(P) \
(((PNTR_COMPARISON_TYPE) (P) \
- < (PNTR_COMPARISON_TYPE) ((char *) pure + PURESIZE)) \
+ < (PNTR_COMPARISON_TYPE) ((char *) purebeg + pure_size)) \
&& ((PNTR_COMPARISON_TYPE) (P) \
- >= (PNTR_COMPARISON_TYPE) pure))
+ >= (PNTR_COMPARISON_TYPE) purebeg))
/* Index in pure at which next pure object will be allocated.. */
-int pureptr;
+EMACS_INT pure_bytes_used;
/* If nonzero, this is a warning delivered by malloc and not yet
displayed. */
/* Pre-computed signal argument for use when memory is exhausted. */
-Lisp_Object memory_signal_data;
+Lisp_Object Vmemory_signal_data;
/* Maximum amount of C stack to save when a GC happens. */
Lisp_Object Qgc_cons_threshold, Qchar_table_extra_slots;
+/* Hook run after GC has finished. */
+
+Lisp_Object Vpost_gc_hook, Qpost_gc_hook;
+
static void mark_buffer P_ ((Lisp_Object));
static void mark_kboards P_ ((void));
static void gc_sweep P_ ((void));
MEM_TYPE_MISC,
MEM_TYPE_SYMBOL,
MEM_TYPE_FLOAT,
- MEM_TYPE_VECTOR
+ /* Keep the following vector-like types together, with
+ MEM_TYPE_WINDOW being the last, and MEM_TYPE_VECTOR the
+ first. Or change the code of live_vector_p, for instance. */
+ MEM_TYPE_VECTOR,
+ MEM_TYPE_PROCESS,
+ MEM_TYPE_HASH_TABLE,
+ MEM_TYPE_FRAME,
+ MEM_TYPE_WINDOW
};
-#if GC_MARK_STACK
+#if GC_MARK_STACK || defined GC_MALLOC_CHECK
#if GC_MARK_STACK == GC_USE_GCPROS_CHECK_ZOMBIES
#include <stdio.h> /* For fprintf. */
Lisp_Object Vdead;
-struct mem_node;
+#ifdef GC_MALLOC_CHECK
+
+enum mem_type allocated_mem_type;
+int dont_register_blocks;
+
+#endif /* GC_MALLOC_CHECK */
+
+/* A node in the red-black tree describing allocated memory containing
+ Lisp data. Each such block is recorded with its start and end
+ address when it is allocated, and removed from the tree when it
+ is freed.
+
+ A red-black tree is a balanced binary tree with the following
+ properties:
+
+ 1. Every node is either red or black.
+ 2. Every leaf is black.
+ 3. If a node is red, then both of its children are black.
+ 4. Every simple path from a node to a descendant leaf contains
+ the same number of black nodes.
+ 5. The root is always black.
+
+ When nodes are inserted into the tree, or deleted from the tree,
+ the tree is "fixed" so that these properties are always true.
+
+ A red-black tree with N internal nodes has height at most 2
+ log(N+1). Searches, insertions and deletions are done in O(log N).
+ Please see a text book about data structures for a detailed
+ description of red-black trees. Any book worth its salt should
+ describe them. */
+
+struct mem_node
+{
+ struct mem_node *left, *right, *parent;
+
+ /* Start and end of allocated region. */
+ void *start, *end;
+
+ /* Node color. */
+ enum {MEM_BLACK, MEM_RED} color;
+
+ /* Memory type. */
+ enum mem_type type;
+};
+
+/* Base address of stack. Set in main. */
+
+Lisp_Object *stack_base;
+
+/* Root of the tree describing allocated Lisp memory. */
+
+static struct mem_node *mem_root;
+
+/* Lowest and highest known address in the heap. */
+
+static void *min_heap_address, *max_heap_address;
+
+/* Sentinel node of the tree. */
+
+static struct mem_node mem_z;
+#define MEM_NIL &mem_z
+
static POINTER_TYPE *lisp_malloc P_ ((size_t, enum mem_type));
+static struct Lisp_Vector *allocate_vectorlike P_ ((EMACS_INT, enum mem_type));
static void lisp_free P_ ((POINTER_TYPE *));
static void mark_stack P_ ((void));
-static void init_stack P_ ((Lisp_Object *));
static int live_vector_p P_ ((struct mem_node *, void *));
static int live_buffer_p P_ ((struct mem_node *, void *));
static int live_string_p P_ ((struct mem_node *, void *));
static void check_gcpros P_ ((void));
#endif
-#endif /* GC_MARK_STACK != 0 */
+#endif /* GC_MARK_STACK || GC_MALLOC_CHECK */
+
+/* Recording what needs to be marked for gc. */
+
+struct gcpro *gcprolist;
+
+/* Addresses of staticpro'd variables. */
+
+#define NSTATICS 1280
+Lisp_Object *staticvec[NSTATICS] = {0};
+
+/* Index of next unused slot in staticvec. */
+
+int staticidx = 0;
+
+static POINTER_TYPE *pure_alloc P_ ((size_t, int));
+
+
+/* Value is SZ rounded up to the next multiple of ALIGNMENT.
+ ALIGNMENT must be a power of 2. */
+
+#define ALIGN(SZ, ALIGNMENT) \
+ (((SZ) + (ALIGNMENT) - 1) & ~((ALIGNMENT) - 1))
+
\f
/************************************************************************
void
memory_full ()
{
+ Vmemory_full = Qt;
+
#ifndef SYSTEM_MALLOC
bytes_used_when_full = BYTES_USED;
#endif
/* This used to call error, but if we've run out of memory, we could
get infinite recursion trying to build the string. */
while (1)
- Fsignal (Qnil, memory_signal_data);
+ Fsignal (Qnil, Vmemory_signal_data);
}
memory_full ();
#endif
+ Vmemory_full = Qt;
+
/* This used to call error, but if we've run out of memory, we could
get infinite recursion trying to build the string. */
while (1)
- Fsignal (Qerror, memory_signal_data);
+ Fsignal (Qnil, Vmemory_signal_data);
}
char *
xstrdup (s)
- char *s;
+ const char *s;
{
size_t len = strlen (s) + 1;
char *p = (char *) xmalloc (len);
register void *val;
BLOCK_INPUT;
+
+#ifdef GC_MALLOC_CHECK
+ allocated_mem_type = type;
+#endif
+
val = (void *) malloc (nbytes);
-#if GC_MARK_STACK
+#if GC_MARK_STACK && !defined GC_MALLOC_CHECK
if (val && type != MEM_TYPE_NON_LISP)
mem_insert (val, (char *) val + nbytes, type);
#endif
-
+
UNBLOCK_INPUT;
if (!val && nbytes)
memory_full ();
struct buffer *
allocate_buffer ()
{
- return (struct buffer *) lisp_malloc (sizeof (struct buffer),
- MEM_TYPE_BUFFER);
+ struct buffer *b
+ = (struct buffer *) lisp_malloc (sizeof (struct buffer),
+ MEM_TYPE_BUFFER);
+ VALIDATE_LISP_STORAGE (b, sizeof *b);
+ return b;
}
{
BLOCK_INPUT;
free (block);
-#if GC_MARK_STACK
+#if GC_MARK_STACK && !defined GC_MALLOC_CHECK
mem_delete (mem_find (block));
#endif
UNBLOCK_INPUT;
void *ptr;
{
BLOCK_INPUT;
+
+#ifdef GC_MALLOC_CHECK
+ if (ptr)
+ {
+ struct mem_node *m;
+
+ m = mem_find (ptr);
+ if (m == MEM_NIL || m->start != ptr)
+ {
+ fprintf (stderr,
+ "Freeing `%p' which wasn't allocated with malloc\n", ptr);
+ abort ();
+ }
+ else
+ {
+ /* fprintf (stderr, "free %p...%p (%p)\n", m->start, m->end, ptr); */
+ mem_delete (m);
+ }
+ }
+#endif /* GC_MALLOC_CHECK */
+
__free_hook = old_free_hook;
free (ptr);
+
/* If we released our reserve (due to running out of memory),
and we have a fair amount free once again,
try to set aside another reserve in case we run out once more. */
#else
__malloc_extra_blocks = malloc_hysteresis;
#endif
+
value = (void *) malloc (size);
+
+#ifdef GC_MALLOC_CHECK
+ {
+ struct mem_node *m = mem_find (value);
+ if (m != MEM_NIL)
+ {
+ fprintf (stderr, "Malloc returned %p which is already in use\n",
+ value);
+ fprintf (stderr, "Region in use is %p...%p, %u bytes, type %d\n",
+ m->start, m->end, (char *) m->end - (char *) m->start,
+ m->type);
+ abort ();
+ }
+
+ if (!dont_register_blocks)
+ {
+ mem_insert (value, (char *) value + max (1, size), allocated_mem_type);
+ allocated_mem_type = MEM_TYPE_NON_LISP;
+ }
+ }
+#endif /* GC_MALLOC_CHECK */
+
__malloc_hook = emacs_blocked_malloc;
UNBLOCK_INPUT;
+ /* fprintf (stderr, "%p malloc\n", value); */
return value;
}
BLOCK_INPUT;
__realloc_hook = old_realloc_hook;
+
+#ifdef GC_MALLOC_CHECK
+ if (ptr)
+ {
+ struct mem_node *m = mem_find (ptr);
+ if (m == MEM_NIL || m->start != ptr)
+ {
+ fprintf (stderr,
+ "Realloc of %p which wasn't allocated with malloc\n",
+ ptr);
+ abort ();
+ }
+
+ mem_delete (m);
+ }
+
+ /* fprintf (stderr, "%p -> realloc\n", ptr); */
+
+ /* Prevent malloc from registering blocks. */
+ dont_register_blocks = 1;
+#endif /* GC_MALLOC_CHECK */
+
value = (void *) realloc (ptr, size);
+
+#ifdef GC_MALLOC_CHECK
+ dont_register_blocks = 0;
+
+ {
+ struct mem_node *m = mem_find (value);
+ if (m != MEM_NIL)
+ {
+ fprintf (stderr, "Realloc returns memory that is already in use\n");
+ abort ();
+ }
+
+ /* Can't handle zero size regions in the red-black tree. */
+ mem_insert (value, (char *) value + max (size, 1), MEM_TYPE_NON_LISP);
+ }
+
+ /* fprintf (stderr, "%p <- realloc\n", value); */
+#endif /* GC_MALLOC_CHECK */
+
__realloc_hook = emacs_blocked_realloc;
UNBLOCK_INPUT;
a cast. */
XMARK (tree->up.obj);
- traverse_intervals (tree, 1, 0, mark_interval, Qnil);
+ traverse_intervals_noorder (tree, mark_interval, Qnil);
}
/* Lisp_Strings are allocated in string_block structures. When a new
string_block is allocated, all the Lisp_Strings it contains are
- added to a free-list stiing_free_list. When a new Lisp_String is
+ added to a free-list string_free_list. When a new Lisp_String is
needed, it is taken from that list. During the sweep phase of GC,
string_blocks that are entirely free are freed, except two which
we keep.
}
+#ifdef GC_CHECK_STRING_BYTES
+
+static int check_string_bytes_count;
+
+void check_string_bytes P_ ((int));
+void check_sblock P_ ((struct sblock *));
+
+#define CHECK_STRING_BYTES(S) STRING_BYTES (S)
+
+
+/* Like GC_STRING_BYTES, but with debugging check. */
+
+int
+string_bytes (s)
+ struct Lisp_String *s;
+{
+ int nbytes = (s->size_byte < 0 ? s->size : s->size_byte) & ~MARKBIT;
+ if (!PURE_POINTER_P (s)
+ && s->data
+ && nbytes != SDATA_NBYTES (SDATA_OF_STRING (s)))
+ abort ();
+ return nbytes;
+}
+
+/* Check validity Lisp strings' string_bytes member in B. */
+
+void
+check_sblock (b)
+ struct sblock *b;
+{
+ struct sdata *from, *end, *from_end;
+
+ end = b->next_free;
+
+ for (from = &b->first_data; from < end; from = from_end)
+ {
+ /* Compute the next FROM here because copying below may
+ overwrite data we need to compute it. */
+ int nbytes;
+
+ /* Check that the string size recorded in the string is the
+ same as the one recorded in the sdata structure. */
+ if (from->string)
+ CHECK_STRING_BYTES (from->string);
+
+ if (from->string)
+ nbytes = GC_STRING_BYTES (from->string);
+ else
+ nbytes = SDATA_NBYTES (from);
+
+ nbytes = SDATA_SIZE (nbytes);
+ from_end = (struct sdata *) ((char *) from + nbytes);
+ }
+}
+
+
+/* Check validity of Lisp strings' string_bytes member. ALL_P
+ non-zero means check all strings, otherwise check only most
+ recently allocated strings. Used for hunting a bug. */
+
+void
+check_string_bytes (all_p)
+ int all_p;
+{
+ if (all_p)
+ {
+ struct sblock *b;
+
+ for (b = large_sblocks; b; b = b->next)
+ {
+ struct Lisp_String *s = b->first_data.string;
+ if (s)
+ CHECK_STRING_BYTES (s);
+ }
+
+ for (b = oldest_sblock; b; b = b->next)
+ check_sblock (b);
+ }
+ else
+ check_sblock (current_sblock);
+}
+
+#endif /* GC_CHECK_STRING_BYTES */
+
+
/* Return a new Lisp_String. */
static struct Lisp_String *
++strings_consed;
consing_since_gc += sizeof *s;
+#ifdef GC_CHECK_STRING_BYTES
+ if (!noninteractive
+#ifdef MAC_OS8
+ && current_sblock
+#endif
+ )
+ {
+ if (++check_string_bytes_count == 200)
+ {
+ check_string_bytes_count = 0;
+ check_string_bytes (1);
+ }
+ else
+ check_string_bytes (0);
+ }
+#endif /* GC_CHECK_STRING_BYTES */
+
return s;
}
DEFUN ("make-string", Fmake_string, Smake_string, 2, 2, 0,
- "Return a newly created string of length LENGTH, with each element being INIT.\n\
-Both LENGTH and INIT must be numbers.")
- (length, init)
+ doc: /* Return a newly created string of length LENGTH, with each element being INIT.
+Both LENGTH and INIT must be numbers. */)
+ (length, init)
Lisp_Object length, init;
{
register Lisp_Object val;
register unsigned char *p, *end;
int c, nbytes;
- CHECK_NATNUM (length, 0);
- CHECK_NUMBER (init, 1);
+ CHECK_NATNUM (length);
+ CHECK_NUMBER (init);
c = XINT (init);
if (SINGLE_BYTE_CHAR_P (c))
{
nbytes = XINT (length);
val = make_uninit_string (nbytes);
- p = XSTRING (val)->data;
- end = p + XSTRING (val)->size;
+ p = SDATA (val);
+ end = p + SCHARS (val);
while (p != end)
*p++ = c;
}
else
{
- unsigned char str[4];
+ unsigned char str[MAX_MULTIBYTE_LENGTH];
int len = CHAR_STRING (c, str);
nbytes = len * XINT (length);
val = make_uninit_multibyte_string (XINT (length), nbytes);
- p = XSTRING (val)->data;
+ p = SDATA (val);
end = p + nbytes;
while (p != end)
{
DEFUN ("make-bool-vector", Fmake_bool_vector, Smake_bool_vector, 2, 2, 0,
- "Return a new bool-vector of length LENGTH, using INIT for as each element.\n\
-LENGTH must be a number. INIT matters only in whether it is t or nil.")
- (length, init)
+ doc: /* Return a new bool-vector of length LENGTH, using INIT for as each element.
+LENGTH must be a number. INIT matters only in whether it is t or nil. */)
+ (length, init)
Lisp_Object length, init;
{
register Lisp_Object val;
int real_init, i;
int length_in_chars, length_in_elts, bits_per_value;
- CHECK_NATNUM (length, 0);
+ CHECK_NATNUM (length);
bits_per_value = sizeof (EMACS_INT) * BITS_PER_CHAR;
Lisp_Object
make_string (contents, nbytes)
- char *contents;
+ const char *contents;
int nbytes;
{
register Lisp_Object val;
int nchars, multibyte_nbytes;
parse_str_as_multibyte (contents, nbytes, &nchars, &multibyte_nbytes);
- val = make_uninit_multibyte_string (nchars, nbytes);
- bcopy (contents, XSTRING (val)->data, nbytes);
if (nbytes == nchars || nbytes != multibyte_nbytes)
/* CONTENTS contains no multibyte sequences or contains an invalid
multibyte sequence. We must make unibyte string. */
- SET_STRING_BYTES (XSTRING (val), -1);
+ val = make_unibyte_string (contents, nbytes);
+ else
+ val = make_multibyte_string (contents, nchars, nbytes);
return val;
}
Lisp_Object
make_unibyte_string (contents, length)
- char *contents;
+ const char *contents;
int length;
{
register Lisp_Object val;
val = make_uninit_string (length);
- bcopy (contents, XSTRING (val)->data, length);
- SET_STRING_BYTES (XSTRING (val), -1);
+ bcopy (contents, SDATA (val), length);
+ STRING_SET_UNIBYTE (val);
return val;
}
Lisp_Object
make_multibyte_string (contents, nchars, nbytes)
- char *contents;
+ const char *contents;
int nchars, nbytes;
{
register Lisp_Object val;
val = make_uninit_multibyte_string (nchars, nbytes);
- bcopy (contents, XSTRING (val)->data, nbytes);
+ bcopy (contents, SDATA (val), nbytes);
return val;
}
{
register Lisp_Object val;
val = make_uninit_multibyte_string (nchars, nbytes);
- bcopy (contents, XSTRING (val)->data, nbytes);
- if (STRING_BYTES (XSTRING (val)) == XSTRING (val)->size)
- SET_STRING_BYTES (XSTRING (val), -1);
+ bcopy (contents, SDATA (val), nbytes);
+ if (SBYTES (val) == SCHARS (val))
+ STRING_SET_UNIBYTE (val);
return val;
}
{
register Lisp_Object val;
val = make_uninit_multibyte_string (nchars, nbytes);
- bcopy (contents, XSTRING (val)->data, nbytes);
+ bcopy (contents, SDATA (val), nbytes);
if (!multibyte)
- SET_STRING_BYTES (XSTRING (val), -1);
+ STRING_SET_UNIBYTE (val);
return val;
}
Lisp_Object
build_string (str)
- char *str;
+ const char *str;
{
return make_string (str, strlen (str));
}
{
Lisp_Object val;
val = make_uninit_multibyte_string (length, length);
- SET_STRING_BYTES (XSTRING (val), -1);
+ STRING_SET_UNIBYTE (val);
return val;
}
struct Lisp_Float *float_free_list;
-/* Initialze float allocation. */
+/* Initialize float allocation. */
void
init_float ()
DEFUN ("cons", Fcons, Scons, 2, 2, 0,
- "Create a new cons, give it CAR and CDR as components, and return it.")
- (car, cdr)
+ doc: /* Create a new cons, give it CAR and CDR as components, and return it. */)
+ (car, cdr)
Lisp_Object car, cdr;
{
register Lisp_Object val;
XSETCONS (val, &cons_block->conses[cons_block_index++]);
}
- XCAR (val) = car;
- XCDR (val) = cdr;
+ XSETCAR (val, car);
+ XSETCDR (val, cdr);
consing_since_gc += sizeof (struct Lisp_Cons);
cons_cells_consed++;
return val;
DEFUN ("list", Flist, Slist, 0, MANY, 0,
- "Return a newly created list with specified arguments as elements.\n\
-Any number of arguments, even zero arguments, are allowed.")
- (nargs, args)
+ doc: /* Return a newly created list with specified arguments as elements.
+Any number of arguments, even zero arguments, are allowed.
+usage: (list &rest OBJECTS) */)
+ (nargs, args)
int nargs;
register Lisp_Object *args;
{
DEFUN ("make-list", Fmake_list, Smake_list, 2, 2, 0,
- "Return a newly created list of length LENGTH, with each element being INIT.")
- (length, init)
+ doc: /* Return a newly created list of length LENGTH, with each element being INIT. */)
+ (length, init)
register Lisp_Object length, init;
{
register Lisp_Object val;
register int size;
- CHECK_NATNUM (length, 0);
+ CHECK_NATNUM (length);
size = XFASTINT (length);
val = Qnil;
- while (size-- > 0)
- val = Fcons (init, val);
+ while (size > 0)
+ {
+ val = Fcons (init, val);
+ --size;
+
+ if (size > 0)
+ {
+ val = Fcons (init, val);
+ --size;
+
+ if (size > 0)
+ {
+ val = Fcons (init, val);
+ --size;
+
+ if (size > 0)
+ {
+ val = Fcons (init, val);
+ --size;
+
+ if (size > 0)
+ {
+ val = Fcons (init, val);
+ --size;
+ }
+ }
+ }
+ }
+
+ QUIT;
+ }
+
return val;
}
/* Value is a pointer to a newly allocated Lisp_Vector structure
with room for LEN Lisp_Objects. */
-struct Lisp_Vector *
-allocate_vectorlike (len)
+static struct Lisp_Vector *
+allocate_vectorlike (len, type)
EMACS_INT len;
+ enum mem_type type;
{
struct Lisp_Vector *p;
size_t nbytes;
#endif
nbytes = sizeof *p + (len - 1) * sizeof p->contents[0];
- p = (struct Lisp_Vector *) lisp_malloc (nbytes, MEM_TYPE_VECTOR);
+ p = (struct Lisp_Vector *) lisp_malloc (nbytes, type);
#ifdef DOUG_LEA_MALLOC
/* Back to a reasonable maximum of mmap'ed areas. */
}
+/* Allocate a vector with NSLOTS slots. */
+
+struct Lisp_Vector *
+allocate_vector (nslots)
+ EMACS_INT nslots;
+{
+ struct Lisp_Vector *v = allocate_vectorlike (nslots, MEM_TYPE_VECTOR);
+ v->size = nslots;
+ return v;
+}
+
+
+/* Allocate other vector-like structures. */
+
+struct Lisp_Hash_Table *
+allocate_hash_table ()
+{
+ EMACS_INT len = VECSIZE (struct Lisp_Hash_Table);
+ struct Lisp_Vector *v = allocate_vectorlike (len, MEM_TYPE_HASH_TABLE);
+ EMACS_INT i;
+
+ v->size = len;
+ for (i = 0; i < len; ++i)
+ v->contents[i] = Qnil;
+
+ return (struct Lisp_Hash_Table *) v;
+}
+
+
+struct window *
+allocate_window ()
+{
+ EMACS_INT len = VECSIZE (struct window);
+ struct Lisp_Vector *v = allocate_vectorlike (len, MEM_TYPE_WINDOW);
+ EMACS_INT i;
+
+ for (i = 0; i < len; ++i)
+ v->contents[i] = Qnil;
+ v->size = len;
+
+ return (struct window *) v;
+}
+
+
+struct frame *
+allocate_frame ()
+{
+ EMACS_INT len = VECSIZE (struct frame);
+ struct Lisp_Vector *v = allocate_vectorlike (len, MEM_TYPE_FRAME);
+ EMACS_INT i;
+
+ for (i = 0; i < len; ++i)
+ v->contents[i] = make_number (0);
+ v->size = len;
+ return (struct frame *) v;
+}
+
+
+struct Lisp_Process *
+allocate_process ()
+{
+ EMACS_INT len = VECSIZE (struct Lisp_Process);
+ struct Lisp_Vector *v = allocate_vectorlike (len, MEM_TYPE_PROCESS);
+ EMACS_INT i;
+
+ for (i = 0; i < len; ++i)
+ v->contents[i] = Qnil;
+ v->size = len;
+
+ return (struct Lisp_Process *) v;
+}
+
+
+struct Lisp_Vector *
+allocate_other_vector (len)
+ EMACS_INT len;
+{
+ struct Lisp_Vector *v = allocate_vectorlike (len, MEM_TYPE_VECTOR);
+ EMACS_INT i;
+
+ for (i = 0; i < len; ++i)
+ v->contents[i] = Qnil;
+ v->size = len;
+
+ return v;
+}
+
+
DEFUN ("make-vector", Fmake_vector, Smake_vector, 2, 2, 0,
- "Return a newly created vector of length LENGTH, with each element being INIT.\n\
-See also the function `vector'.")
- (length, init)
+ doc: /* Return a newly created vector of length LENGTH, with each element being INIT.
+See also the function `vector'. */)
+ (length, init)
register Lisp_Object length, init;
{
Lisp_Object vector;
register int index;
register struct Lisp_Vector *p;
- CHECK_NATNUM (length, 0);
+ CHECK_NATNUM (length);
sizei = XFASTINT (length);
- p = allocate_vectorlike (sizei);
- p->size = sizei;
+ p = allocate_vector (sizei);
for (index = 0; index < sizei; index++)
p->contents[index] = init;
DEFUN ("make-char-table", Fmake_char_table, Smake_char_table, 1, 2, 0,
- "Return a newly created char-table, with purpose PURPOSE.\n\
-Each element is initialized to INIT, which defaults to nil.\n\
-PURPOSE should be a symbol which has a `char-table-extra-slots' property.\n\
-The property's value should be an integer between 0 and 10.")
- (purpose, init)
+ doc: /* Return a newly created char-table, with purpose PURPOSE.
+Each element is initialized to INIT, which defaults to nil.
+PURPOSE should be a symbol which has a `char-table-extra-slots' property.
+The property's value should be an integer between 0 and 10. */)
+ (purpose, init)
register Lisp_Object purpose, init;
{
Lisp_Object vector;
Lisp_Object n;
- CHECK_SYMBOL (purpose, 1);
+ CHECK_SYMBOL (purpose);
n = Fget (purpose, Qchar_table_extra_slots);
- CHECK_NUMBER (n, 0);
+ CHECK_NUMBER (n);
if (XINT (n) < 0 || XINT (n) > 10)
args_out_of_range (n, Qnil);
/* Add 2 to the size for the defalt and parent slots. */
DEFUN ("vector", Fvector, Svector, 0, MANY, 0,
- "Return a newly created vector with specified arguments as elements.\n\
-Any number of arguments, even zero arguments, are allowed.")
- (nargs, args)
+ doc: /* Return a newly created vector with specified arguments as elements.
+Any number of arguments, even zero arguments, are allowed.
+usage: (vector &rest OBJECTS) */)
+ (nargs, args)
register int nargs;
Lisp_Object *args;
{
DEFUN ("make-byte-code", Fmake_byte_code, Smake_byte_code, 4, MANY, 0,
- "Create a byte-code object with specified arguments as elements.\n\
-The arguments should be the arglist, bytecode-string, constant vector,\n\
-stack size, (optional) doc string, and (optional) interactive spec.\n\
-The first four arguments are required; at most six have any\n\
-significance.")
- (nargs, args)
+ doc: /* Create a byte-code object with specified arguments as elements.
+The arguments should be the arglist, bytecode-string, constant vector,
+stack size, (optional) doc string, and (optional) interactive spec.
+The first four arguments are required; at most six have any
+significance.
+usage: (make-byte-code &rest ELEMENTS) */)
+ (nargs, args)
register int nargs;
Lisp_Object *args;
{
DEFUN ("make-symbol", Fmake_symbol, Smake_symbol, 1, 1, 0,
- "Return a newly allocated uninterned symbol whose name is NAME.\n\
-Its value and function definition are void, and its property list is nil.")
- (name)
+ doc: /* Return a newly allocated uninterned symbol whose name is NAME.
+Its value and function definition are void, and its property list is nil. */)
+ (name)
Lisp_Object name;
{
register Lisp_Object val;
register struct Lisp_Symbol *p;
- CHECK_STRING (name, 0);
+ CHECK_STRING (name);
if (symbol_free_list)
{
}
p = XSYMBOL (val);
- p->name = XSTRING (name);
- p->obarray = Qnil;
+ p->xname = name;
p->plist = Qnil;
p->value = Qunbound;
p->function = Qunbound;
- p->next = 0;
+ p->next = NULL;
+ p->interned = SYMBOL_UNINTERNED;
+ p->constant = 0;
+ p->indirect_variable = 0;
consing_since_gc += sizeof (struct Lisp_Symbol);
symbols_consed++;
return val;
}
DEFUN ("make-marker", Fmake_marker, Smake_marker, 0, 0, 0,
- "Return a newly allocated marker which does not point at any place.")
- ()
+ doc: /* Return a newly allocated marker which does not point at any place. */)
+ ()
{
register Lisp_Object val;
register struct Lisp_Marker *p;
result = Fmake_string (make_number (nargs), make_number (0));
for (i = 0; i < nargs; i++)
{
- XSTRING (result)->data[i] = XINT (args[i]);
+ SSET (result, i, XINT (args[i]));
/* Move the meta bit to the right place for a string char. */
if (XINT (args[i]) & CHAR_META)
- XSTRING (result)->data[i] |= 0x80;
+ SSET (result, i, SREF (result, i) | 0x80);
}
return result;
C Stack Marking
************************************************************************/
-#if GC_MARK_STACK
-
-
-/* Base address of stack. Set in main. */
-
-Lisp_Object *stack_base;
-
-/* A node in the red-black tree describing allocated memory containing
- Lisp data. Each such block is recorded with its start and end
- address when it is allocated, and removed from the tree when it
- is freed.
-
- A red-black tree is a balanced binary tree with the following
- properties:
-
- 1. Every node is either red or black.
- 2. Every leaf is black.
- 3. If a node is red, then both of its children are black.
- 4. Every simple path from a node to a descendant leaf contains
- the same number of black nodes.
- 5. The root is always black.
-
- When nodes are inserted into the tree, or deleted from the tree,
- the tree is "fixed" so that these properties are always true.
-
- A red-black tree with N internal nodes has height at most 2
- log(N+1). Searches, insertions and deletions are done in O(log N).
- Please see a text book about data structures for a detailed
- description of red-black trees. Any book worth its salt should
- describe them. */
-
-struct mem_node
-{
- struct mem_node *left, *right, *parent;
-
- /* Start and end of allocated region. */
- void *start, *end;
-
- /* Node color. */
- enum {MEM_BLACK, MEM_RED} color;
-
- /* Memory type. */
- enum mem_type type;
-};
-
-/* Root of the tree describing allocated Lisp memory. */
-
-static struct mem_node *mem_root;
-
-/* Sentinel node of the tree. */
-
-static struct mem_node mem_z;
-#define MEM_NIL &mem_z
+#if GC_MARK_STACK || defined GC_MALLOC_CHECK
+/* Conservative C stack marking requires a method to identify possibly
+ live Lisp objects given a pointer value. We do this by keeping
+ track of blocks of Lisp data that are allocated in a red-black tree
+ (see also the comment of mem_node which is the type of nodes in
+ that tree). Function lisp_malloc adds information for an allocated
+ block to the red-black tree with calls to mem_insert, and function
+ lisp_free removes it with mem_delete. Functions live_string_p etc
+ call mem_find to lookup information about a given pointer in the
+ tree, and use that to determine if the pointer points to a Lisp
+ object or not. */
/* Initialize this part of alloc.c. */
{
struct mem_node *p;
+ if (start < min_heap_address || start > max_heap_address)
+ return MEM_NIL;
+
/* Make the search always successful to speed up the loop below. */
mem_z.start = start;
mem_z.end = (char *) start + 1;
{
struct mem_node *c, *parent, *x;
+ if (start < min_heap_address)
+ min_heap_address = start;
+ if (end > max_heap_address)
+ max_heap_address = end;
+
/* See where in the tree a node for START belongs. In this
particular application, it shouldn't happen that a node is already
present. For debugging purposes, let's check that. */
#endif /* GC_MARK_STACK == GC_MARK_STACK_CHECK_GCPROS */
/* Create a new node. */
+#ifdef GC_MALLOC_CHECK
+ x = (struct mem_node *) _malloc_internal (sizeof *x);
+ if (x == NULL)
+ abort ();
+#else
x = (struct mem_node *) xmalloc (sizeof *x);
+#endif
x->start = start;
x->end = end;
x->type = type;
/* Re-establish red-black tree properties. */
mem_insert_fixup (x);
+
return x;
}
if (y->color == MEM_BLACK)
mem_delete_fixup (x);
+
+#ifdef GC_MALLOC_CHECK
+ _free_internal (y);
+#else
xfree (y);
+#endif
}
/* P must point to the start of a Lisp_String structure, and it
must not be on the free-list. */
- return (offset % sizeof b->strings[0] == 0
+ return (offset >= 0
+ && offset % sizeof b->strings[0] == 0
&& ((struct Lisp_String *) p)->data != NULL);
}
else
/* P must point to the start of a Lisp_Cons, not be
one of the unused cells in the current cons block,
and not be on the free-list. */
- return (offset % sizeof b->conses[0] == 0
+ return (offset >= 0
+ && offset % sizeof b->conses[0] == 0
&& (b != cons_block
|| offset / sizeof b->conses[0] < cons_block_index)
&& !EQ (((struct Lisp_Cons *) p)->car, Vdead));
/* P must point to the start of a Lisp_Symbol, not be
one of the unused cells in the current symbol block,
and not be on the free-list. */
- return (offset % sizeof b->symbols[0] == 0
+ return (offset >= 0
+ && offset % sizeof b->symbols[0] == 0
&& (b != symbol_block
|| offset / sizeof b->symbols[0] < symbol_block_index)
&& !EQ (((struct Lisp_Symbol *) p)->function, Vdead));
/* P must point to the start of a Lisp_Float, not be
one of the unused cells in the current float block,
and not be on the free-list. */
- return (offset % sizeof b->floats[0] == 0
+ return (offset >= 0
+ && offset % sizeof b->floats[0] == 0
&& (b != float_block
|| offset / sizeof b->floats[0] < float_block_index)
&& !EQ (((struct Lisp_Float *) p)->type, Vdead));
/* P must point to the start of a Lisp_Misc, not be
one of the unused cells in the current misc block,
and not be on the free-list. */
- return (offset % sizeof b->markers[0] == 0
+ return (offset >= 0
+ && offset % sizeof b->markers[0] == 0
&& (b != marker_block
|| offset / sizeof b->markers[0] < marker_block_index)
&& ((union Lisp_Misc *) p)->u_marker.type != Lisp_Misc_Free);
struct mem_node *m;
void *p;
{
- return m->type == MEM_TYPE_VECTOR && p == m->start;
+ return (p == m->start
+ && m->type >= MEM_TYPE_VECTOR
+ && m->type <= MEM_TYPE_WINDOW);
}
&& !NILP (((struct buffer *) p)->name));
}
+#endif /* GC_MARK_STACK || defined GC_MALLOC_CHECK */
+
+#if GC_MARK_STACK
#if GC_MARK_STACK == GC_USE_GCPROS_CHECK_ZOMBIES
static double avg_live;
DEFUN ("gc-status", Fgc_status, Sgc_status, 0, 0, "",
- "Show information about live and zombie objects.")
+ doc: /* Show information about live and zombie objects. */)
()
{
Lisp_Object args[7];
}
}
}
+
+
+/* If P points to Lisp data, mark that as live if it isn't already
+ marked. */
+
+static INLINE void
+mark_maybe_pointer (p)
+ void *p;
+{
+ struct mem_node *m;
+
+ /* Quickly rule out some values which can't point to Lisp data. We
+ assume that Lisp data is aligned on even addresses. */
+ if ((EMACS_INT) p & 1)
+ return;
+
+ m = mem_find (p);
+ if (m != MEM_NIL)
+ {
+ Lisp_Object obj = Qnil;
+
+ switch (m->type)
+ {
+ case MEM_TYPE_NON_LISP:
+ /* Nothing to do; not a pointer to Lisp memory. */
+ break;
+
+ case MEM_TYPE_BUFFER:
+ if (live_buffer_p (m, p)
+ && !XMARKBIT (((struct buffer *) p)->name))
+ XSETVECTOR (obj, p);
+ break;
+
+ case MEM_TYPE_CONS:
+ if (live_cons_p (m, p)
+ && !XMARKBIT (((struct Lisp_Cons *) p)->car))
+ XSETCONS (obj, p);
+ break;
-/* Mark Lisp objects in the address range START..END. */
+ case MEM_TYPE_STRING:
+ if (live_string_p (m, p)
+ && !STRING_MARKED_P ((struct Lisp_String *) p))
+ XSETSTRING (obj, p);
+ break;
+
+ case MEM_TYPE_MISC:
+ if (live_misc_p (m, p))
+ {
+ Lisp_Object tem;
+ XSETMISC (tem, p);
+
+ switch (XMISCTYPE (tem))
+ {
+ case Lisp_Misc_Marker:
+ if (!XMARKBIT (XMARKER (tem)->chain))
+ obj = tem;
+ break;
+
+ case Lisp_Misc_Buffer_Local_Value:
+ case Lisp_Misc_Some_Buffer_Local_Value:
+ if (!XMARKBIT (XBUFFER_LOCAL_VALUE (tem)->realvalue))
+ obj = tem;
+ break;
+
+ case Lisp_Misc_Overlay:
+ if (!XMARKBIT (XOVERLAY (tem)->plist))
+ obj = tem;
+ break;
+ }
+ }
+ break;
+
+ case MEM_TYPE_SYMBOL:
+ if (live_symbol_p (m, p)
+ && !XMARKBIT (((struct Lisp_Symbol *) p)->plist))
+ XSETSYMBOL (obj, p);
+ break;
+
+ case MEM_TYPE_FLOAT:
+ if (live_float_p (m, p)
+ && !XMARKBIT (((struct Lisp_Float *) p)->type))
+ XSETFLOAT (obj, p);
+ break;
+
+ case MEM_TYPE_VECTOR:
+ case MEM_TYPE_PROCESS:
+ case MEM_TYPE_HASH_TABLE:
+ case MEM_TYPE_FRAME:
+ case MEM_TYPE_WINDOW:
+ if (live_vector_p (m, p))
+ {
+ Lisp_Object tem;
+ XSETVECTOR (tem, p);
+ if (!GC_SUBRP (tem)
+ && !(XVECTOR (tem)->size & ARRAY_MARK_FLAG))
+ obj = tem;
+ }
+ break;
+
+ default:
+ abort ();
+ }
+
+ if (!GC_NILP (obj))
+ mark_object (&obj);
+ }
+}
+
+
+/* Mark Lisp objects referenced from the address range START..END. */
static void
mark_memory (start, end)
void *start, *end;
{
Lisp_Object *p;
+ void **pp;
#if GC_MARK_STACK == GC_USE_GCPROS_CHECK_ZOMBIES
nzombies = 0;
start = end;
end = tem;
}
-
+
+ /* Mark Lisp_Objects. */
for (p = (Lisp_Object *) start; (void *) p < end; ++p)
mark_maybe_object (*p);
+
+ /* Mark Lisp data pointed to. This is necessary because, in some
+ situations, the C compiler optimizes Lisp objects away, so that
+ only a pointer to them remains. Example:
+
+ DEFUN ("testme", Ftestme, Stestme, 0, 0, 0, "")
+ ()
+ {
+ Lisp_Object obj = build_string ("test");
+ struct Lisp_String *s = XSTRING (obj);
+ Fgarbage_collect ();
+ fprintf (stderr, "test `%s'\n", s->data);
+ return Qnil;
+ }
+
+ Here, `obj' isn't really used, and the compiler optimizes it
+ away. The only reference to the life string is through the
+ pointer `s'. */
+
+ for (pp = (void **) start; (void *) pp < end; ++pp)
+ mark_maybe_pointer (*pp);
}
who is, please take a look at the function mark_stack in alloc.c, and\n\
verify that the methods used are appropriate for your system.\n\
\n\
-Please mail the result to <gerd@gnu.org>.\n\
+Please mail the result to <emacs-devel@gnu.org>.\n\
"
#define SETJMP_WILL_NOT_WORK "\
\n\
Please take a look at the function mark_stack in alloc.c, and\n\
try to find a way to make it work on your system.\n\
-Please mail the result to <gerd@gnu.org>.\n\
+Please mail the result to <emacs-devel@gnu.org>.\n\
"
static void
mark_stack ()
{
+ int i;
jmp_buf j;
volatile int stack_grows_down_p = (char *) &j > (char *) stack_base;
void *end;
/* This assumes that the stack is a contiguous region in memory. If
that's not the case, something has to be done here to iterate
over the stack segments. */
-#if GC_LISP_OBJECT_ALIGNMENT == 1
- mark_memory (stack_base, end);
- mark_memory ((char *) stack_base + 1, end);
- mark_memory ((char *) stack_base + 2, end);
- mark_memory ((char *) stack_base + 3, end);
-#elif GC_LISP_OBJECT_ALIGNMENT == 2
- mark_memory (stack_base, end);
- mark_memory ((char *) stack_base + 2, end);
-#else
- mark_memory (stack_base, end);
+#ifndef GC_LISP_OBJECT_ALIGNMENT
+#define GC_LISP_OBJECT_ALIGNMENT sizeof (Lisp_Object)
#endif
+ for (i = 0; i < sizeof (Lisp_Object); i += GC_LISP_OBJECT_ALIGNMENT)
+ mark_memory ((char *) stack_base + i, end);
#if GC_MARK_STACK == GC_MARK_STACK_CHECK_GCPROS
check_gcpros ();
Pure Storage Management
***********************************************************************/
+/* Allocate room for SIZE bytes from pure Lisp storage and return a
+ pointer to it. TYPE is the Lisp type for which the memory is
+ allocated. TYPE < 0 means it's not used for a Lisp object.
+
+ If store_pure_type_info is set and TYPE is >= 0, the type of
+ the allocated object is recorded in pure_types. */
+
+static POINTER_TYPE *
+pure_alloc (size, type)
+ size_t size;
+ int type;
+{
+ size_t nbytes;
+ POINTER_TYPE *result;
+ char *beg = purebeg;
+
+ /* Give Lisp_Floats an extra alignment. */
+ if (type == Lisp_Float)
+ {
+ size_t alignment;
+#if defined __GNUC__ && __GNUC__ >= 2
+ alignment = __alignof (struct Lisp_Float);
+#else
+ alignment = sizeof (struct Lisp_Float);
+#endif
+ pure_bytes_used = ALIGN (pure_bytes_used, alignment);
+ }
+
+ nbytes = ALIGN (size, sizeof (EMACS_INT));
+
+ if (pure_bytes_used + nbytes > pure_size)
+ {
+ /* Don't allocate a large amount here,
+ because it might get mmap'd and then its address
+ might not be usable. */
+ beg = purebeg = (char *) xmalloc (10000);
+ pure_size = 10000;
+ pure_bytes_used_before_overflow += pure_bytes_used;
+ pure_bytes_used = 0;
+ }
+
+ result = (POINTER_TYPE *) (beg + pure_bytes_used);
+ pure_bytes_used += nbytes;
+ return result;
+}
+
+
+/* Print a warning if PURESIZE is too small. */
+
+void
+check_pure_size ()
+{
+ if (pure_bytes_used_before_overflow)
+ message ("Pure Lisp storage overflow (approx. %d bytes needed)",
+ (int) (pure_bytes_used + pure_bytes_used_before_overflow));
+}
+
+
/* Return a string allocated in pure space. DATA is a buffer holding
NCHARS characters, and NBYTES bytes of string data. MULTIBYTE
non-zero means make the result string multibyte.
{
Lisp_Object string;
struct Lisp_String *s;
- int string_size, data_size;
-
-#define PAD(SZ) (((SZ) + sizeof (EMACS_INT) - 1) & ~(sizeof (EMACS_INT) - 1))
- string_size = PAD (sizeof (struct Lisp_String));
- data_size = PAD (nbytes + 1);
-
-#undef PAD
-
- if (pureptr + string_size + data_size > PURESIZE)
- error ("Pure Lisp storage exhausted");
-
- s = (struct Lisp_String *) (PUREBEG + pureptr);
- pureptr += string_size;
- s->data = (unsigned char *) (PUREBEG + pureptr);
- pureptr += data_size;
-
+ s = (struct Lisp_String *) pure_alloc (sizeof *s, Lisp_String);
+ s->data = (unsigned char *) pure_alloc (nbytes + 1, -1);
s->size = nchars;
s->size_byte = multibyte ? nbytes : -1;
bcopy (data, s->data, nbytes);
s->data[nbytes] = '\0';
s->intervals = NULL_INTERVAL;
-
XSETSTRING (string, s);
return string;
}
Lisp_Object car, cdr;
{
register Lisp_Object new;
+ struct Lisp_Cons *p;
- if (pureptr + sizeof (struct Lisp_Cons) > PURESIZE)
- error ("Pure Lisp storage exhausted");
- XSETCONS (new, PUREBEG + pureptr);
- pureptr += sizeof (struct Lisp_Cons);
- XCAR (new) = Fpurecopy (car);
- XCDR (new) = Fpurecopy (cdr);
+ p = (struct Lisp_Cons *) pure_alloc (sizeof *p, Lisp_Cons);
+ XSETCONS (new, p);
+ XSETCAR (new, Fpurecopy (car));
+ XSETCDR (new, Fpurecopy (cdr));
return new;
}
double num;
{
register Lisp_Object new;
+ struct Lisp_Float *p;
- /* Make sure that PUREBEG + pureptr is aligned on at least a sizeof
- (double) boundary. Some architectures (like the sparc) require
- this, and I suspect that floats are rare enough that it's no
- tragedy for those that do. */
- {
- size_t alignment;
- char *p = PUREBEG + pureptr;
-
-#ifdef __GNUC__
-#if __GNUC__ >= 2
- alignment = __alignof (struct Lisp_Float);
-#else
- alignment = sizeof (struct Lisp_Float);
-#endif
-#else
- alignment = sizeof (struct Lisp_Float);
-#endif
- p = (char *) (((unsigned long) p + alignment - 1) & - alignment);
- pureptr = p - PUREBEG;
- }
-
- if (pureptr + sizeof (struct Lisp_Float) > PURESIZE)
- error ("Pure Lisp storage exhausted");
- XSETFLOAT (new, PUREBEG + pureptr);
- pureptr += sizeof (struct Lisp_Float);
+ p = (struct Lisp_Float *) pure_alloc (sizeof *p, Lisp_Float);
+ XSETFLOAT (new, p);
XFLOAT_DATA (new) = num;
- XSETFASTINT (XFLOAT (new)->type, 0); /* bug chasing -wsr */
return new;
}
make_pure_vector (len)
EMACS_INT len;
{
- register Lisp_Object new;
- register EMACS_INT size = (sizeof (struct Lisp_Vector)
- + (len - 1) * sizeof (Lisp_Object));
-
- if (pureptr + size > PURESIZE)
- error ("Pure Lisp storage exhausted");
+ Lisp_Object new;
+ struct Lisp_Vector *p;
+ size_t size = sizeof *p + (len - 1) * sizeof (Lisp_Object);
- XSETVECTOR (new, PUREBEG + pureptr);
- pureptr += size;
+ p = (struct Lisp_Vector *) pure_alloc (size, Lisp_Vectorlike);
+ XSETVECTOR (new, p);
XVECTOR (new)->size = len;
return new;
}
DEFUN ("purecopy", Fpurecopy, Spurecopy, 1, 1, 0,
- "Make a copy of OBJECT in pure storage.\n\
-Recursively copies contents of vectors and cons cells.\n\
-Does not copy symbols. Copies strings without text properties.")
- (obj)
+ doc: /* Make a copy of OBJECT in pure storage.
+Recursively copies contents of vectors and cons cells.
+Does not copy symbols. Copies strings without text properties. */)
+ (obj)
register Lisp_Object obj;
{
if (NILP (Vpurify_flag))
return obj;
- if ((PNTR_COMPARISON_TYPE) XPNTR (obj) < (PNTR_COMPARISON_TYPE) ((char *) pure + PURESIZE)
- && (PNTR_COMPARISON_TYPE) XPNTR (obj) >= (PNTR_COMPARISON_TYPE) pure)
+ if (PURE_POINTER_P (XPNTR (obj)))
return obj;
if (CONSP (obj))
else if (FLOATP (obj))
return make_pure_float (XFLOAT_DATA (obj));
else if (STRINGP (obj))
- return make_pure_string (XSTRING (obj)->data, XSTRING (obj)->size,
- STRING_BYTES (XSTRING (obj)),
+ return make_pure_string (SDATA (obj), SCHARS (obj),
+ SBYTES (obj),
STRING_MULTIBYTE (obj));
else if (COMPILEDP (obj) || VECTORP (obj))
{
Protection from GC
***********************************************************************/
-/* Recording what needs to be marked for gc. */
-
-struct gcpro *gcprolist;
-
-/* Addresses of staticpro'd variables. */
-
-#define NSTATICS 1024
-Lisp_Object *staticvec[NSTATICS] = {0};
-
-/* Index of next unused slot in staticvec. */
-
-int staticidx = 0;
-
-
/* Put an entry in staticvec, pointing at the variable with address
VARADDRESS. */
int
inhibit_garbage_collection ()
{
- int count = specpdl_ptr - specpdl;
- Lisp_Object number;
+ int count = SPECPDL_INDEX ();
int nbits = min (VALBITS, BITS_PER_INT);
- XSETINT (number, ((EMACS_INT) 1 << (nbits - 1)) - 1);
-
- specbind (Qgc_cons_threshold, number);
-
+ specbind (Qgc_cons_threshold, make_number (((EMACS_INT) 1 << (nbits - 1)) - 1));
return count;
}
DEFUN ("garbage-collect", Fgarbage_collect, Sgarbage_collect, 0, 0, "",
- "Reclaim storage for Lisp objects no longer needed.\n\
-Returns info on amount of space in use:\n\
- ((USED-CONSES . FREE-CONSES) (USED-SYMS . FREE-SYMS)\n\
- (USED-MARKERS . FREE-MARKERS) USED-STRING-CHARS USED-VECTOR-SLOTS\n\
- (USED-FLOATS . FREE-FLOATS) (USED-INTERVALS . FREE-INTERVALS\n\
- (USED-STRINGS . FREE-STRINGS))\n\
-Garbage collection happens automatically if you cons more than\n\
-`gc-cons-threshold' bytes of Lisp data since previous garbage collection.")
- ()
+ doc: /* Reclaim storage for Lisp objects no longer needed.
+Returns info on amount of space in use:
+ ((USED-CONSES . FREE-CONSES) (USED-SYMS . FREE-SYMS)
+ (USED-MARKERS . FREE-MARKERS) USED-STRING-CHARS USED-VECTOR-SLOTS
+ (USED-FLOATS . FREE-FLOATS) (USED-INTERVALS . FREE-INTERVALS)
+ (USED-STRINGS . FREE-STRINGS))
+Garbage collection happens automatically if you cons more than
+`gc-cons-threshold' bytes of Lisp data since previous garbage collection. */)
+ ()
{
register struct gcpro *tail;
register struct specbinding *bind;
char stack_top_variable;
register int i;
int message_p;
- Lisp_Object total[7];
+ Lisp_Object total[8];
+ int count = SPECPDL_INDEX ();
+
+ /* Can't GC if pure storage overflowed because we can't determine
+ if something is a pure object or not. */
+ if (pure_bytes_used_before_overflow)
+ return Qnil;
/* In case user calls debug_print during GC,
don't let that cause a recursive GC. */
/* Save what's currently displayed in the echo area. */
message_p = push_message ();
+ record_unwind_protect (push_message_unwind, Qnil);
/* Save a copy of the contents of the stack, for debugging. */
#if MAX_SAVE_STACK > 0
nextb->undo_list
= truncate_undo_list (nextb->undo_list, undo_limit,
undo_strong_limit);
+
+ /* Shrink buffer gaps, but skip indirect and dead buffers. */
+ if (nextb->base_buffer == 0 && !NILP (nextb->name))
+ {
+ /* If a buffer's gap size is more than 10% of the buffer
+ size, or larger than 2000 bytes, then shrink it
+ accordingly. Keep a minimum size of 20 bytes. */
+ int size = min (2000, max (20, (nextb->text->z_byte / 10)));
+
+ if (nextb->text->gap_size > size)
+ {
+ struct buffer *save_current = current_buffer;
+ current_buffer = nextb;
+ make_gap (-(nextb->text->gap_size - size));
+ current_buffer = save_current;
+ }
+ }
+
nextb = nextb->next;
}
}
for (i = 0; i < tail->nvars; i++)
if (!XMARKBIT (tail->var[i]))
{
- mark_object (&tail->var[i]);
+ /* Explicit casting prevents compiler warning about
+ discarding the `volatile' qualifier. */
+ mark_object ((Lisp_Object *)&tail->var[i]);
XMARK (tail->var[i]);
}
#endif
if (NILP (prev))
nextb->undo_list = tail = XCDR (tail);
else
- tail = XCDR (prev) = XCDR (tail);
+ {
+ tail = XCDR (tail);
+ XSETCDR (prev, tail);
+ }
}
else
{
message1_nolog ("Garbage collecting...done");
}
- pop_message ();
+ unbind_to (count, Qnil);
total[0] = Fcons (make_number (total_conses),
make_number (total_free_conses));
make_number (total_free_symbols));
total[2] = Fcons (make_number (total_markers),
make_number (total_free_markers));
- total[3] = Fcons (make_number (total_string_size),
- make_number (total_vector_size));
- total[4] = Fcons (make_number (total_floats),
+ total[3] = make_number (total_string_size);
+ total[4] = make_number (total_vector_size);
+ total[5] = Fcons (make_number (total_floats),
make_number (total_free_floats));
- total[5] = Fcons (make_number (total_intervals),
+ total[6] = Fcons (make_number (total_intervals),
make_number (total_free_intervals));
- total[6] = Fcons (make_number (total_strings),
+ total[7] = Fcons (make_number (total_strings),
make_number (total_free_strings));
#if GC_MARK_STACK == GC_USE_GCPROS_CHECK_ZOMBIES
}
#endif
- return Flist (7, total);
+ if (!NILP (Vpost_gc_hook))
+ {
+ int count = inhibit_garbage_collection ();
+ safe_run_hooks (Qpost_gc_hook);
+ unbind_to (count, Qnil);
+ }
+
+ return Flist (sizeof total / sizeof *total, total);
}
Lisp_Object *last_marked[LAST_MARKED_SIZE];
int last_marked_index;
+/* For debugging--call abort when we cdr down this many
+ links of a list, in mark_object. In debugging,
+ the call to abort will hit a breakpoint.
+ Normally this is zero and the check never goes off. */
+int mark_object_loop_halt;
+
void
mark_object (argptr)
Lisp_Object *argptr;
void *po;
struct mem_node *m;
#endif
+ int cdr_count = 0;
loop:
obj = *objptr;
loop2:
XUNMARK (obj);
- if (PURE_POINTER_P ((PNTR_COMPARISON_TYPE) XPNTR (obj)))
+ if (PURE_POINTER_P (XPNTR (obj)))
return;
last_marked[last_marked_index++] = objptr;
CHECK_ALLOCATED_AND_LIVE (live_string_p);
MARK_INTERVAL_TREE (ptr->intervals);
MARK_STRING (ptr);
+#ifdef GC_CHECK_STRING_BYTES
+ /* Check that the string size recorded in the string is the
+ same as the one recorded in the sdata structure. */
+ CHECK_STRING_BYTES (ptr);
+#endif /* GC_CHECK_STRING_BYTES */
}
break;
{
register struct Lisp_Vector *ptr = XVECTOR (obj);
register EMACS_INT size = ptr->size;
- /* See comment above under Lisp_Vector. */
- struct Lisp_Vector *volatile ptr1 = ptr;
register int i;
if (size & ARRAY_MARK_FLAG)
for (i = 0; i < size; i++) /* and then mark its elements */
{
if (i != COMPILED_CONSTANTS)
- mark_object (&ptr1->contents[i]);
+ mark_object (&ptr->contents[i]);
}
/* This cast should be unnecessary, but some Mips compiler complains
(MIPS-ABI + SysVR4, DC/OSx, etc). */
- objptr = (Lisp_Object *) &ptr1->contents[COMPILED_CONSTANTS];
+ objptr = (Lisp_Object *) &ptr->contents[COMPILED_CONSTANTS];
goto loop;
}
else if (GC_FRAMEP (obj))
{
- /* See comment above under Lisp_Vector for why this is volatile. */
- register struct frame *volatile ptr = XFRAME (obj);
+ register struct frame *ptr = XFRAME (obj);
register EMACS_INT size = ptr->size;
if (size & ARRAY_MARK_FLAG) break; /* Already marked */
mark_face_cache (ptr->face_cache);
#ifdef HAVE_WINDOW_SYSTEM
mark_image_cache (ptr);
- mark_object (&ptr->desired_tool_bar_items);
- mark_object (&ptr->current_tool_bar_items);
+ mark_object (&ptr->tool_bar_items);
mark_object (&ptr->desired_tool_bar_string);
mark_object (&ptr->current_tool_bar_string);
#endif /* HAVE_WINDOW_SYSTEM */
register struct Lisp_Vector *ptr = XVECTOR (obj);
struct window *w = XWINDOW (obj);
register EMACS_INT size = ptr->size;
- /* The reason we use ptr1 is to avoid an apparent hardware bug
- that happens occasionally on the FSF's HP 300s.
- The bug is that a2 gets clobbered by recursive calls to mark_object.
- The clobberage seems to happen during function entry,
- perhaps in the moveml instruction.
- Yes, this is a crock, but we have to do it. */
- struct Lisp_Vector *volatile ptr1 = ptr;
register int i;
/* Stop if already marked. */
/* There is no Lisp data above The member CURRENT_MATRIX in
struct WINDOW. Stop marking when that slot is reached. */
for (i = 0;
- (char *) &ptr1->contents[i] < (char *) &w->current_matrix;
+ (char *) &ptr->contents[i] < (char *) &w->current_matrix;
i++)
- mark_object (&ptr1->contents[i]);
+ mark_object (&ptr->contents[i]);
/* Mark glyphs for leaf windows. Marking window matrices is
sufficient because frame matrices use the same glyph
h->size |= ARRAY_MARK_FLAG;
/* Mark contents. */
+ /* Do not mark next_free or next_weak.
+ Being in the next_weak chain
+ should not keep the hash table alive.
+ No need to mark `count' since it is an integer. */
mark_object (&h->test);
mark_object (&h->weak);
mark_object (&h->rehash_size);
{
register struct Lisp_Vector *ptr = XVECTOR (obj);
register EMACS_INT size = ptr->size;
- /* The reason we use ptr1 is to avoid an apparent hardware bug
- that happens occasionally on the FSF's HP 300s.
- The bug is that a2 gets clobbered by recursive calls to mark_object.
- The clobberage seems to happen during function entry,
- perhaps in the moveml instruction.
- Yes, this is a crock, but we have to do it. */
- struct Lisp_Vector *volatile ptr1 = ptr;
register int i;
if (size & ARRAY_MARK_FLAG) break; /* Already marked */
size &= PSEUDOVECTOR_SIZE_MASK;
for (i = 0; i < size; i++) /* and then mark its elements */
- mark_object (&ptr1->contents[i]);
+ mark_object (&ptr->contents[i]);
}
break;
case Lisp_Symbol:
{
- /* See comment above under Lisp_Vector for why this is volatile. */
- register struct Lisp_Symbol *volatile ptr = XSYMBOL (obj);
+ register struct Lisp_Symbol *ptr = XSYMBOL (obj);
struct Lisp_Symbol *ptrx;
if (XMARKBIT (ptr->plist)) break;
mark_object (&ptr->function);
mark_object (&ptr->plist);
- if (!PURE_POINTER_P (ptr->name))
- MARK_STRING (ptr->name);
- MARK_INTERVAL_TREE (ptr->name->intervals);
+ if (!PURE_POINTER_P (XSTRING (ptr->xname)))
+ MARK_STRING (XSTRING (ptr->xname));
+ MARK_INTERVAL_TREE (STRING_INTERVALS (ptr->xname));
/* Note that we do not mark the obarray of the symbol.
It is safe not to do so because nothing accesses that
mark_object (&ptr->realvalue);
mark_object (&ptr->buffer);
mark_object (&ptr->frame);
- /* See comment above under Lisp_Vector for why not use ptr here. */
- objptr = &XBUFFER_LOCAL_VALUE (obj)->cdr;
+ objptr = &ptr->cdr;
goto loop;
}
if (EQ (ptr->cdr, Qnil))
{
objptr = &ptr->car;
+ cdr_count = 0;
goto loop;
}
mark_object (&ptr->car);
- /* See comment above under Lisp_Vector for why not use ptr here. */
- objptr = &XCDR (obj);
+ objptr = &ptr->cdr;
+ cdr_count++;
+ if (cdr_count == mark_object_loop_halt)
+ abort ();
goto loop;
}
&& ! XMARKBIT (XCAR (ptr->car))
&& GC_MARKERP (XCAR (ptr->car)))
{
- XMARK (XCAR (ptr->car));
- mark_object (&XCDR (ptr->car));
+ XMARK (XCAR_AS_LVALUE (ptr->car));
+ mark_object (&XCDR_AS_LVALUE (ptr->car));
}
else
mark_object (&ptr->car);
break;
}
- mark_object (&XCDR (tail));
+ mark_object (&XCDR_AS_LVALUE (tail));
}
else
mark_object (&buffer->undo_list);
mark_object (&kb->Vsystem_key_alist);
mark_object (&kb->system_key_syms);
mark_object (&kb->Vdefault_minibuffer_frame);
+ mark_object (&kb->echo_string);
}
}
sweep_weak_hash_tables ();
sweep_strings ();
+#ifdef GC_CHECK_STRING_BYTES
+ if (!noninteractive)
+ check_string_bytes (1);
+#endif
/* Put all unmarked conses on free list */
{
register int lim = symbol_block_index;
register int num_free = 0, num_used = 0;
- symbol_free_list = 0;
+ symbol_free_list = NULL;
for (sblk = symbol_block; sblk; sblk = *sprev)
{
- register int i;
int this_free = 0;
- for (i = 0; i < lim; i++)
- if (!XMARKBIT (sblk->symbols[i].plist))
- {
- *(struct Lisp_Symbol **)&sblk->symbols[i].value = symbol_free_list;
- symbol_free_list = &sblk->symbols[i];
+ struct Lisp_Symbol *sym = sblk->symbols;
+ struct Lisp_Symbol *end = sym + lim;
+
+ for (; sym < end; ++sym)
+ {
+ /* Check if the symbol was created during loadup. In such a case
+ it might be pointed to by pure bytecode which we don't trace,
+ so we conservatively assume that it is live. */
+ int pure_p = PURE_POINTER_P (XSTRING (sym->xname));
+
+ if (!XMARKBIT (sym->plist) && !pure_p)
+ {
+ *(struct Lisp_Symbol **) &sym->value = symbol_free_list;
+ symbol_free_list = sym;
#if GC_MARK_STACK
- symbol_free_list->function = Vdead;
+ symbol_free_list->function = Vdead;
#endif
- this_free++;
- }
- else
- {
- num_used++;
- if (!PURE_POINTER_P (sblk->symbols[i].name))
- UNMARK_STRING (sblk->symbols[i].name);
- XUNMARK (sblk->symbols[i].plist);
- }
+ ++this_free;
+ }
+ else
+ {
+ ++num_used;
+ if (!pure_p)
+ UNMARK_STRING (XSTRING (sym->xname));
+ XUNMARK (sym->plist);
+ }
+ }
+
lim = SYMBOL_BLOCK_SIZE;
/* If this block contains only free symbols and we have already
seen more than two blocks worth of free symbols then deallocate
prev = vector, vector = vector->next;
}
}
+
+#ifdef GC_CHECK_STRING_BYTES
+ if (!noninteractive)
+ check_string_bytes (1);
+#endif
}
/* Debugging aids. */
DEFUN ("memory-limit", Fmemory_limit, Smemory_limit, 0, 0, 0,
- "Return the address of the last byte Emacs has allocated, divided by 1024.\n\
-This may be helpful in debugging Emacs's memory usage.\n\
-We divide the value by 1024 to make sure it fits in a Lisp integer.")
- ()
+ doc: /* Return the address of the last byte Emacs has allocated, divided by 1024.
+This may be helpful in debugging Emacs's memory usage.
+We divide the value by 1024 to make sure it fits in a Lisp integer. */)
+ ()
{
Lisp_Object end;
}
DEFUN ("memory-use-counts", Fmemory_use_counts, Smemory_use_counts, 0, 0, 0,
- "Return a list of counters that measure how much consing there has been.\n\
-Each of these counters increments for a certain kind of object.\n\
-The counters wrap around from the largest positive integer to zero.\n\
-Garbage collection does not decrease them.\n\
-The elements of the value are as follows:\n\
- (CONSES FLOATS VECTOR-CELLS SYMBOLS STRING-CHARS MISCS INTERVALS STRINGS)\n\
-All are in units of 1 = one object consed\n\
-except for VECTOR-CELLS and STRING-CHARS, which count the total length of\n\
-objects consed.\n\
-MISCS include overlays, markers, and some internal types.\n\
-Frames, windows, buffers, and subprocesses count as vectors\n\
- (but the contents of a buffer's text do not count here).")
- ()
+ doc: /* Return a list of counters that measure how much consing there has been.
+Each of these counters increments for a certain kind of object.
+The counters wrap around from the largest positive integer to zero.
+Garbage collection does not decrease them.
+The elements of the value are as follows:
+ (CONSES FLOATS VECTOR-CELLS SYMBOLS STRING-CHARS MISCS INTERVALS STRINGS)
+All are in units of 1 = one object consed
+except for VECTOR-CELLS and STRING-CHARS, which count the total length of
+objects consed.
+MISCS include overlays, markers, and some internal types.
+Frames, windows, buffers, and subprocesses count as vectors
+ (but the contents of a buffer's text do not count here). */)
+ ()
{
Lisp_Object consed[8];
- XSETINT (consed[0],
- cons_cells_consed & ~(((EMACS_INT) 1) << (VALBITS - 1)));
- XSETINT (consed[1],
- floats_consed & ~(((EMACS_INT) 1) << (VALBITS - 1)));
- XSETINT (consed[2],
- vector_cells_consed & ~(((EMACS_INT) 1) << (VALBITS - 1)));
- XSETINT (consed[3],
- symbols_consed & ~(((EMACS_INT) 1) << (VALBITS - 1)));
- XSETINT (consed[4],
- string_chars_consed & ~(((EMACS_INT) 1) << (VALBITS - 1)));
- XSETINT (consed[5],
- misc_objects_consed & ~(((EMACS_INT) 1) << (VALBITS - 1)));
- XSETINT (consed[6],
- intervals_consed & ~(((EMACS_INT) 1) << (VALBITS - 1)));
- XSETINT (consed[7],
- strings_consed & ~(((EMACS_INT) 1) << (VALBITS - 1)));
+ consed[0] = make_number (min (MOST_POSITIVE_FIXNUM, cons_cells_consed));
+ consed[1] = make_number (min (MOST_POSITIVE_FIXNUM, floats_consed));
+ consed[2] = make_number (min (MOST_POSITIVE_FIXNUM, vector_cells_consed));
+ consed[3] = make_number (min (MOST_POSITIVE_FIXNUM, symbols_consed));
+ consed[4] = make_number (min (MOST_POSITIVE_FIXNUM, string_chars_consed));
+ consed[5] = make_number (min (MOST_POSITIVE_FIXNUM, misc_objects_consed));
+ consed[6] = make_number (min (MOST_POSITIVE_FIXNUM, intervals_consed));
+ consed[7] = make_number (min (MOST_POSITIVE_FIXNUM, strings_consed));
return Flist (8, consed);
}
init_alloc_once ()
{
/* Used to do Vpurify_flag = Qt here, but Qt isn't set up yet! */
- pureptr = 0;
-#if GC_MARK_STACK
+ purebeg = PUREBEG;
+ pure_size = PURESIZE;
+ pure_bytes_used = 0;
+ pure_bytes_used_before_overflow = 0;
+
+#if GC_MARK_STACK || defined GC_MALLOC_CHECK
mem_init ();
Vdead = make_pure_string ("DEAD", 4, 4, 0);
#endif
-#ifdef HAVE_SHM
- pure_size = PURESIZE;
-#endif
+
all_vectors = 0;
ignore_warnings = 1;
#ifdef DOUG_LEA_MALLOC
syms_of_alloc ()
{
DEFVAR_INT ("gc-cons-threshold", &gc_cons_threshold,
- "*Number of bytes of consing between garbage collections.\n\
-Garbage collection can happen automatically once this many bytes have been\n\
-allocated since the last garbage collection. All data types count.\n\n\
-Garbage collection happens automatically only when `eval' is called.\n\n\
-By binding this temporarily to a large number, you can effectively\n\
-prevent garbage collection during a part of the program.");
+ doc: /* *Number of bytes of consing between garbage collections.
+Garbage collection can happen automatically once this many bytes have been
+allocated since the last garbage collection. All data types count.
+
+Garbage collection happens automatically only when `eval' is called.
- DEFVAR_INT ("pure-bytes-used", &pureptr,
- "Number of bytes of sharable Lisp data allocated so far.");
+By binding this temporarily to a large number, you can effectively
+prevent garbage collection during a part of the program. */);
+
+ DEFVAR_INT ("pure-bytes-used", &pure_bytes_used,
+ doc: /* Number of bytes of sharable Lisp data allocated so far. */);
DEFVAR_INT ("cons-cells-consed", &cons_cells_consed,
- "Number of cons cells that have been consed so far.");
+ doc: /* Number of cons cells that have been consed so far. */);
DEFVAR_INT ("floats-consed", &floats_consed,
- "Number of floats that have been consed so far.");
+ doc: /* Number of floats that have been consed so far. */);
DEFVAR_INT ("vector-cells-consed", &vector_cells_consed,
- "Number of vector cells that have been consed so far.");
+ doc: /* Number of vector cells that have been consed so far. */);
DEFVAR_INT ("symbols-consed", &symbols_consed,
- "Number of symbols that have been consed so far.");
+ doc: /* Number of symbols that have been consed so far. */);
DEFVAR_INT ("string-chars-consed", &string_chars_consed,
- "Number of string characters that have been consed so far.");
+ doc: /* Number of string characters that have been consed so far. */);
DEFVAR_INT ("misc-objects-consed", &misc_objects_consed,
- "Number of miscellaneous objects that have been consed so far.");
+ doc: /* Number of miscellaneous objects that have been consed so far. */);
DEFVAR_INT ("intervals-consed", &intervals_consed,
- "Number of intervals that have been consed so far.");
+ doc: /* Number of intervals that have been consed so far. */);
DEFVAR_INT ("strings-consed", &strings_consed,
- "Number of strings that have been consed so far.");
+ doc: /* Number of strings that have been consed so far. */);
DEFVAR_LISP ("purify-flag", &Vpurify_flag,
- "Non-nil means loading Lisp code in order to dump an executable.\n\
-This means that certain objects should be allocated in shared (pure) space.");
+ doc: /* Non-nil means loading Lisp code in order to dump an executable.
+This means that certain objects should be allocated in shared (pure) space. */);
DEFVAR_INT ("undo-limit", &undo_limit,
- "Keep no more undo information once it exceeds this size.\n\
-This limit is applied when garbage collection happens.\n\
-The size is counted as the number of bytes occupied,\n\
-which includes both saved text and other data.");
+ doc: /* Keep no more undo information once it exceeds this size.
+This limit is applied when garbage collection happens.
+The size is counted as the number of bytes occupied,
+which includes both saved text and other data. */);
undo_limit = 20000;
DEFVAR_INT ("undo-strong-limit", &undo_strong_limit,
- "Don't keep more than this much size of undo information.\n\
-A command which pushes past this size is itself forgotten.\n\
-This limit is applied when garbage collection happens.\n\
-The size is counted as the number of bytes occupied,\n\
-which includes both saved text and other data.");
+ doc: /* Don't keep more than this much size of undo information.
+A command which pushes past this size is itself forgotten.
+This limit is applied when garbage collection happens.
+The size is counted as the number of bytes occupied,
+which includes both saved text and other data. */);
undo_strong_limit = 30000;
DEFVAR_BOOL ("garbage-collection-messages", &garbage_collection_messages,
- "Non-nil means display messages at start and end of garbage collection.");
+ doc: /* Non-nil means display messages at start and end of garbage collection. */);
garbage_collection_messages = 0;
+ DEFVAR_LISP ("post-gc-hook", &Vpost_gc_hook,
+ doc: /* Hook run after garbage collection has finished. */);
+ Vpost_gc_hook = Qnil;
+ Qpost_gc_hook = intern ("post-gc-hook");
+ staticpro (&Qpost_gc_hook);
+
+ DEFVAR_LISP ("memory-signal-data", &Vmemory_signal_data,
+ doc: /* Precomputed `signal' argument for memory-full error. */);
/* We build this in advance because if we wait until we need it, we might
not be able to allocate the memory to hold it. */
- memory_signal_data
- = Fcons (Qerror, Fcons (build_string ("Memory exhausted--use M-x save-some-buffers RET"), Qnil));
- staticpro (&memory_signal_data);
+ Vmemory_signal_data
+ = list2 (Qerror,
+ build_string ("Memory exhausted--use M-x save-some-buffers then exit and restart Emacs"));
+
+ DEFVAR_LISP ("memory-full", &Vmemory_full,
+ doc: /* Non-nil means we are handling a memory-full error. */);
+ Vmemory_full = Qnil;
staticpro (&Qgc_cons_threshold);
Qgc_cons_threshold = intern ("gc-cons-threshold");