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|
/* Copyright (C) 1995,1996,1997,1998,1999,2000,2001, 2002, 2003, 2006, 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
* as published by the Free Software Foundation; either version 3 of
* the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
* 02110-1301 USA
*/
/* #define DEBUGINFO */
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
#include "libguile/gen-scmconfig.h"
#include <stdio.h>
#include <errno.h>
#include <string.h>
#include <assert.h>
#ifdef __ia64__
#include <ucontext.h>
extern unsigned long * __libc_ia64_register_backing_store_base;
#endif
#include "libguile/_scm.h"
#include "libguile/eval.h"
#include "libguile/stime.h"
#include "libguile/stackchk.h"
#include "libguile/struct.h"
#include "libguile/smob.h"
#include "libguile/arrays.h"
#include "libguile/async.h"
#include "libguile/ports.h"
#include "libguile/root.h"
#include "libguile/strings.h"
#include "libguile/vectors.h"
#include "libguile/weaks.h"
#include "libguile/hashtab.h"
#include "libguile/tags.h"
#include "libguile/private-gc.h"
#include "libguile/validate.h"
#include "libguile/deprecation.h"
#include "libguile/gc.h"
#include "libguile/dynwind.h"
#include "libguile/bdw-gc.h"
#ifdef GUILE_DEBUG_MALLOC
#include "libguile/debug-malloc.h"
#endif
#ifdef HAVE_MALLOC_H
#include <malloc.h>
#endif
#ifdef HAVE_UNISTD_H
#include <unistd.h>
#endif
/* Lock this mutex before doing lazy sweeping.
*/
scm_i_pthread_mutex_t scm_i_sweep_mutex = SCM_I_PTHREAD_MUTEX_INITIALIZER;
/* Set this to != 0 if every cell that is accessed shall be checked:
*/
int scm_debug_cell_accesses_p = 0;
int scm_expensive_debug_cell_accesses_p = 0;
/* Set this to 0 if no additional gc's shall be performed, otherwise set it to
* the number of cell accesses after which a gc shall be called.
*/
int scm_debug_cells_gc_interval = 0;
/*
Global variable, so you can switch it off at runtime by setting
scm_i_cell_validation_already_running.
*/
int scm_i_cell_validation_already_running ;
#if (SCM_DEBUG_CELL_ACCESSES == 1)
/*
Assert that the given object is a valid reference to a valid cell. This
test involves to determine whether the object is a cell pointer, whether
this pointer actually points into a heap segment and whether the cell
pointed to is not a free cell. Further, additional garbage collections may
get executed after a user defined number of cell accesses. This helps to
find places in the C code where references are dropped for extremely short
periods.
*/
void
scm_i_expensive_validation_check (SCM cell)
{
/* If desired, perform additional garbage collections after a user
* defined number of cell accesses.
*/
if (scm_debug_cells_gc_interval)
{
static unsigned int counter = 0;
if (counter != 0)
{
--counter;
}
else
{
counter = scm_debug_cells_gc_interval;
scm_gc ();
}
}
}
void
scm_assert_cell_valid (SCM cell)
{
if (!scm_i_cell_validation_already_running && scm_debug_cell_accesses_p)
{
scm_i_cell_validation_already_running = 1; /* set to avoid recursion */
/*
During GC, no user-code should be run, and the guile core
should use non-protected accessors.
*/
if (scm_gc_running_p)
return;
/*
Only scm_in_heap_p and rescanning the heap is wildly
expensive.
*/
if (scm_expensive_debug_cell_accesses_p)
scm_i_expensive_validation_check (cell);
scm_i_cell_validation_already_running = 0; /* re-enable */
}
}
SCM_DEFINE (scm_set_debug_cell_accesses_x, "set-debug-cell-accesses!", 1, 0, 0,
(SCM flag),
"If @var{flag} is @code{#f}, cell access checking is disabled.\n"
"If @var{flag} is @code{#t}, cheap cell access checking is enabled,\n"
"but no additional calls to garbage collection are issued.\n"
"If @var{flag} is a number, strict cell access checking is enabled,\n"
"with an additional garbage collection after the given\n"
"number of cell accesses.\n"
"This procedure only exists when the compile-time flag\n"
"@code{SCM_DEBUG_CELL_ACCESSES} was set to 1.")
#define FUNC_NAME s_scm_set_debug_cell_accesses_x
{
if (scm_is_false (flag))
{
scm_debug_cell_accesses_p = 0;
}
else if (scm_is_eq (flag, SCM_BOOL_T))
{
scm_debug_cells_gc_interval = 0;
scm_debug_cell_accesses_p = 1;
scm_expensive_debug_cell_accesses_p = 0;
}
else
{
scm_debug_cells_gc_interval = scm_to_signed_integer (flag, 0, INT_MAX);
scm_debug_cell_accesses_p = 1;
scm_expensive_debug_cell_accesses_p = 1;
}
return SCM_UNSPECIFIED;
}
#undef FUNC_NAME
#endif /* SCM_DEBUG_CELL_ACCESSES == 1 */
/* Hooks. */
scm_t_c_hook scm_before_gc_c_hook;
scm_t_c_hook scm_before_mark_c_hook;
scm_t_c_hook scm_before_sweep_c_hook;
scm_t_c_hook scm_after_sweep_c_hook;
scm_t_c_hook scm_after_gc_c_hook;
/* GC Statistics Keeping
*/
unsigned long scm_gc_ports_collected = 0;
static unsigned long protected_obj_count = 0;
SCM_SYMBOL (sym_cells_allocated, "cells-allocated");
SCM_SYMBOL (sym_heap_size, "heap-size");
SCM_SYMBOL (sym_heap_free_size, "heap-free-size");
SCM_SYMBOL (sym_heap_total_allocated, "heap-total-allocated");
SCM_SYMBOL (sym_mallocated, "bytes-malloced");
SCM_SYMBOL (sym_mtrigger, "gc-malloc-threshold");
SCM_SYMBOL (sym_heap_segments, "cell-heap-segments");
SCM_SYMBOL (sym_gc_time_taken, "gc-time-taken");
SCM_SYMBOL (sym_gc_mark_time_taken, "gc-mark-time-taken");
SCM_SYMBOL (sym_times, "gc-times");
SCM_SYMBOL (sym_cells_marked, "cells-marked");
SCM_SYMBOL (sym_cells_marked_conservatively, "cells-marked-conservatively");
SCM_SYMBOL (sym_cells_swept, "cells-swept");
SCM_SYMBOL (sym_malloc_yield, "malloc-yield");
SCM_SYMBOL (sym_cell_yield, "cell-yield");
SCM_SYMBOL (sym_protected_objects, "protected-objects");
SCM_SYMBOL (sym_total_cells_allocated, "total-cells-allocated");
/* Number of calls to SCM_NEWCELL since startup. */
unsigned scm_newcell_count;
unsigned scm_newcell2_count;
/* {Scheme Interface to GC}
*/
static SCM
tag_table_to_type_alist (void *closure, SCM key, SCM val, SCM acc)
{
if (scm_is_integer (key))
{
int c_tag = scm_to_int (key);
char const * name = scm_i_tag_name (c_tag);
if (name != NULL)
{
key = scm_from_locale_string (name);
}
else
{
char s[100];
sprintf (s, "tag %d", c_tag);
key = scm_from_locale_string (s);
}
}
return scm_cons (scm_cons (key, val), acc);
}
SCM_DEFINE (scm_gc_live_object_stats, "gc-live-object-stats", 0, 0, 0,
(),
"Return an alist of statistics of the current live objects. ")
#define FUNC_NAME s_scm_gc_live_object_stats
{
SCM tab = scm_make_hash_table (scm_from_int (57));
SCM alist;
alist
= scm_internal_hash_fold (&tag_table_to_type_alist, NULL, SCM_EOL, tab);
return alist;
}
#undef FUNC_NAME
extern int scm_gc_malloc_yield_percentage;
SCM_DEFINE (scm_gc_stats, "gc-stats", 0, 0, 0,
(),
"Return an association list of statistics about Guile's current\n"
"use of storage.\n")
#define FUNC_NAME s_scm_gc_stats
{
SCM answer;
size_t heap_size, free_bytes, bytes_since_gc, total_bytes;
size_t gc_times;
heap_size = GC_get_heap_size ();
free_bytes = GC_get_free_bytes ();
bytes_since_gc = GC_get_bytes_since_gc ();
total_bytes = GC_get_total_bytes ();
gc_times = GC_gc_no;
/* njrev: can any of these scm_cons's or scm_list_n signal a memory
error? If so we need a frame here. */
answer =
scm_list_n (scm_cons (sym_gc_time_taken, SCM_INUM0),
#if 0
scm_cons (sym_cells_allocated,
scm_from_ulong (local_scm_cells_allocated)),
scm_cons (sym_mallocated,
scm_from_ulong (local_scm_mallocated)),
scm_cons (sym_mtrigger,
scm_from_ulong (local_scm_mtrigger)),
scm_cons (sym_gc_mark_time_taken,
scm_from_ulong (local_scm_gc_mark_time_taken)),
scm_cons (sym_cells_marked,
scm_from_double (local_scm_gc_cells_marked)),
scm_cons (sym_cells_swept,
scm_from_double (local_scm_gc_cells_swept)),
scm_cons (sym_malloc_yield,
scm_from_long (local_scm_gc_malloc_yield_percentage)),
scm_cons (sym_cell_yield,
scm_from_long (local_scm_gc_cell_yield_percentage)),
scm_cons (sym_heap_segments, heap_segs),
#endif
scm_cons (sym_heap_size, scm_from_size_t (heap_size)),
scm_cons (sym_heap_free_size, scm_from_size_t (free_bytes)),
scm_cons (sym_heap_total_allocated,
scm_from_size_t (total_bytes)),
scm_cons (sym_protected_objects,
scm_from_ulong (protected_obj_count)),
scm_cons (sym_times, scm_from_size_t (gc_times)),
SCM_UNDEFINED);
return answer;
}
#undef FUNC_NAME
SCM_DEFINE (scm_gc_dump, "gc-dump", 0, 0, 0,
(void),
"Dump information about the garbage collector's internal data "
"structures and memory usage to the standard output.")
#define FUNC_NAME s_scm_gc_dump
{
GC_dump ();
return SCM_UNSPECIFIED;
}
#undef FUNC_NAME
SCM_DEFINE (scm_object_address, "object-address", 1, 0, 0,
(SCM obj),
"Return an integer that for the lifetime of @var{obj} is uniquely\n"
"returned by this function for @var{obj}")
#define FUNC_NAME s_scm_object_address
{
return scm_from_ulong (SCM_UNPACK (obj));
}
#undef FUNC_NAME
SCM_DEFINE (scm_gc_disable, "gc-disable", 0, 0, 0,
(),
"Disables the garbage collector. Nested calls are permitted. "
"GC is re-enabled once @code{gc-enable} has been called the "
"same number of times @code{gc-disable} was called.")
#define FUNC_NAME s_scm_gc_disable
{
GC_disable ();
return SCM_UNSPECIFIED;
}
#undef FUNC_NAME
SCM_DEFINE (scm_gc_enable, "gc-enable", 0, 0, 0,
(),
"Enables the garbage collector.")
#define FUNC_NAME s_scm_gc_enable
{
GC_enable ();
return SCM_UNSPECIFIED;
}
#undef FUNC_NAME
SCM_DEFINE (scm_gc, "gc", 0, 0, 0,
(),
"Scans all of SCM objects and reclaims for further use those that are\n"
"no longer accessible.")
#define FUNC_NAME s_scm_gc
{
scm_i_scm_pthread_mutex_lock (&scm_i_sweep_mutex);
scm_i_gc ("call");
/* njrev: It looks as though other places, e.g. scm_realloc,
can call scm_i_gc without acquiring the sweep mutex. Does this
matter? Also scm_i_gc (or its descendants) touch the
scm_sys_protects, which are protected in some cases
(e.g. scm_permobjs above in scm_gc_stats) by a critical section,
not by the sweep mutex. Shouldn't all the GC-relevant objects be
protected in the same way? */
scm_i_pthread_mutex_unlock (&scm_i_sweep_mutex);
scm_c_hook_run (&scm_after_gc_c_hook, 0);
return SCM_UNSPECIFIED;
}
#undef FUNC_NAME
void
scm_i_gc (const char *what)
{
GC_gcollect ();
}
/* {GC Protection Helper Functions}
*/
/*
* If within a function you need to protect one or more scheme objects from
* garbage collection, pass them as parameters to one of the
* scm_remember_upto_here* functions below. These functions don't do
* anything, but since the compiler does not know that they are actually
* no-ops, it will generate code that calls these functions with the given
* parameters. Therefore, you can be sure that the compiler will keep those
* scheme values alive (on the stack or in a register) up to the point where
* scm_remember_upto_here* is called. In other words, place the call to
* scm_remember_upto_here* _behind_ the last code in your function, that
* depends on the scheme object to exist.
*
* Example: We want to make sure that the string object str does not get
* garbage collected during the execution of 'some_function' in the code
* below, because otherwise the characters belonging to str would be freed and
* 'some_function' might access freed memory. To make sure that the compiler
* keeps str alive on the stack or in a register such that it is visible to
* the conservative gc we add the call to scm_remember_upto_here_1 _after_ the
* call to 'some_function'. Note that this would not be necessary if str was
* used anyway after the call to 'some_function'.
* char *chars = scm_i_string_chars (str);
* some_function (chars);
* scm_remember_upto_here_1 (str); // str will be alive up to this point.
*/
/* Remove any macro versions of these while defining the functions.
Functions are always included in the library, for upward binary
compatibility and in case combinations of GCC and non-GCC are used. */
#undef scm_remember_upto_here_1
#undef scm_remember_upto_here_2
void
scm_remember_upto_here_1 (SCM obj SCM_UNUSED)
{
/* Empty. Protects a single object from garbage collection. */
}
void
scm_remember_upto_here_2 (SCM obj1 SCM_UNUSED, SCM obj2 SCM_UNUSED)
{
/* Empty. Protects two objects from garbage collection. */
}
void
scm_remember_upto_here (SCM obj SCM_UNUSED, ...)
{
/* Empty. Protects any number of objects from garbage collection. */
}
/*
These crazy functions prevent garbage collection
of arguments after the first argument by
ensuring they remain live throughout the
function because they are used in the last
line of the code block.
It'd be better to have a nice compiler hint to
aid the conservative stack-scanning GC. --03/09/00 gjb */
SCM
scm_return_first (SCM elt, ...)
{
return elt;
}
int
scm_return_first_int (int i, ...)
{
return i;
}
SCM
scm_permanent_object (SCM obj)
{
return (scm_gc_protect_object (obj));
}
/* Protect OBJ from the garbage collector. OBJ will not be freed, even if all
other references are dropped, until the object is unprotected by calling
scm_gc_unprotect_object (OBJ). Calls to scm_gc_protect/unprotect_object nest,
i. e. it is possible to protect the same object several times, but it is
necessary to unprotect the object the same number of times to actually get
the object unprotected. It is an error to unprotect an object more often
than it has been protected before. The function scm_protect_object returns
OBJ.
*/
/* Implementation note: For every object X, there is a counter which
scm_gc_protect_object (X) increments and scm_gc_unprotect_object (X) decrements.
*/
SCM
scm_gc_protect_object (SCM obj)
{
SCM handle;
/* This critical section barrier will be replaced by a mutex. */
/* njrev: Indeed; if my comment above is correct, there is the same
critsec/mutex inconsistency here. */
SCM_CRITICAL_SECTION_START;
handle = scm_hashq_create_handle_x (scm_protects, obj, scm_from_int (0));
SCM_SETCDR (handle, scm_sum (SCM_CDR (handle), scm_from_int (1)));
protected_obj_count ++;
SCM_CRITICAL_SECTION_END;
return obj;
}
/* Remove any protection for OBJ established by a prior call to
scm_protect_object. This function returns OBJ.
See scm_protect_object for more information. */
SCM
scm_gc_unprotect_object (SCM obj)
{
SCM handle;
/* This critical section barrier will be replaced by a mutex. */
/* njrev: and again. */
SCM_CRITICAL_SECTION_START;
if (scm_gc_running_p)
{
fprintf (stderr, "scm_unprotect_object called during GC.\n");
abort ();
}
handle = scm_hashq_get_handle (scm_protects, obj);
if (scm_is_false (handle))
{
fprintf (stderr, "scm_unprotect_object called on unprotected object\n");
abort ();
}
else
{
SCM count = scm_difference (SCM_CDR (handle), scm_from_int (1));
if (scm_is_eq (count, scm_from_int (0)))
scm_hashq_remove_x (scm_protects, obj);
else
SCM_SETCDR (handle, count);
}
protected_obj_count --;
SCM_CRITICAL_SECTION_END;
return obj;
}
void
scm_gc_register_root (SCM *p)
{
/* Nothing. */
}
void
scm_gc_unregister_root (SCM *p)
{
/* Nothing. */
}
void
scm_gc_register_roots (SCM *b, unsigned long n)
{
SCM *p = b;
for (; p < b + n; ++p)
scm_gc_register_root (p);
}
void
scm_gc_unregister_roots (SCM *b, unsigned long n)
{
SCM *p = b;
for (; p < b + n; ++p)
scm_gc_unregister_root (p);
}
int scm_i_terminating;
/*
MOVE THIS FUNCTION. IT DOES NOT HAVE ANYTHING TODO WITH GC.
*/
/* Get an integer from an environment variable. */
int
scm_getenv_int (const char *var, int def)
{
char *end = 0;
char *val = getenv (var);
long res = def;
if (!val)
return def;
res = strtol (val, &end, 10);
if (end == val)
return def;
return res;
}
void
scm_storage_prehistory ()
{
GC_all_interior_pointers = 0;
GC_set_free_space_divisor (scm_getenv_int ("GC_FREE_SPACE_DIVISOR", 3));
GC_INIT ();
#if (! ((defined GC_VERSION_MAJOR) && (GC_VERSION_MAJOR >= 7))) \
&& (defined SCM_I_GSC_USE_PTHREAD_THREADS)
/* When using GC 6.8, this call is required to initialize thread-local
freelists (shouldn't be necessary with GC 7.0). */
GC_init ();
#endif
GC_expand_hp (SCM_DEFAULT_INIT_HEAP_SIZE_2);
/* We only need to register a displacement for those types for which the
higher bits of the type tag are used to store a pointer (that is, a
pointer to an 8-octet aligned region). For `scm_tc3_struct', this is
handled in `scm_alloc_struct ()'. */
GC_REGISTER_DISPLACEMENT (scm_tc3_cons);
/* GC_REGISTER_DISPLACEMENT (scm_tc3_unused); */
/* Sanity check. */
if (!GC_is_visible (scm_sys_protects))
abort ();
scm_c_hook_init (&scm_before_gc_c_hook, 0, SCM_C_HOOK_NORMAL);
scm_c_hook_init (&scm_before_mark_c_hook, 0, SCM_C_HOOK_NORMAL);
scm_c_hook_init (&scm_before_sweep_c_hook, 0, SCM_C_HOOK_NORMAL);
scm_c_hook_init (&scm_after_sweep_c_hook, 0, SCM_C_HOOK_NORMAL);
scm_c_hook_init (&scm_after_gc_c_hook, 0, SCM_C_HOOK_NORMAL);
}
scm_i_pthread_mutex_t scm_i_gc_admin_mutex = SCM_I_PTHREAD_MUTEX_INITIALIZER;
int
scm_init_storage ()
{
size_t j;
j = SCM_NUM_PROTECTS;
while (j)
scm_sys_protects[--j] = SCM_BOOL_F;
#if 0
/* We can't have a cleanup handler since we have no thread to run it
in. */
#ifdef HAVE_ATEXIT
atexit (cleanup);
#else
#ifdef HAVE_ON_EXIT
on_exit (cleanup, 0);
#endif
#endif
#endif
scm_protects = scm_c_make_hash_table (31);
return 0;
}
SCM scm_after_gc_hook;
static SCM gc_async;
/* The function gc_async_thunk causes the execution of the after-gc-hook. It
* is run after the gc, as soon as the asynchronous events are handled by the
* evaluator.
*/
static SCM
gc_async_thunk (void)
{
scm_c_run_hook (scm_after_gc_hook, SCM_EOL);
return SCM_UNSPECIFIED;
}
/* The function mark_gc_async is run by the scm_after_gc_c_hook at the end of
* the garbage collection. The only purpose of this function is to mark the
* gc_async (which will eventually lead to the execution of the
* gc_async_thunk).
*/
static void *
mark_gc_async (void * hook_data SCM_UNUSED,
void *fn_data SCM_UNUSED,
void *data SCM_UNUSED)
{
/* If cell access debugging is enabled, the user may choose to perform
* additional garbage collections after an arbitrary number of cell
* accesses. We don't want the scheme level after-gc-hook to be performed
* for each of these garbage collections for the following reason: The
* execution of the after-gc-hook causes cell accesses itself. Thus, if the
* after-gc-hook was performed with every gc, and if the gc was performed
* after a very small number of cell accesses, then the number of cell
* accesses during the execution of the after-gc-hook will suffice to cause
* the execution of the next gc. Then, guile would keep executing the
* after-gc-hook over and over again, and would never come to do other
* things.
*
* To overcome this problem, if cell access debugging with additional
* garbage collections is enabled, the after-gc-hook is never run by the
* garbage collecter. When running guile with cell access debugging and the
* execution of the after-gc-hook is desired, then it is necessary to run
* the hook explicitly from the user code. This has the effect, that from
* the scheme level point of view it seems that garbage collection is
* performed with a much lower frequency than it actually is. Obviously,
* this will not work for code that depends on a fixed one to one
* relationship between the execution counts of the C level garbage
* collection hooks and the execution count of the scheme level
* after-gc-hook.
*/
#if (SCM_DEBUG_CELL_ACCESSES == 1)
if (scm_debug_cells_gc_interval == 0)
scm_system_async_mark (gc_async);
#else
scm_system_async_mark (gc_async);
#endif
return NULL;
}
char const *
scm_i_tag_name (scm_t_bits tag)
{
if (tag >= 255)
{
int k = 0xff & (tag >> 8);
return (scm_smobs[k].name);
}
switch (tag) /* 7 bits */
{
case scm_tcs_struct:
return "struct";
case scm_tcs_cons_imcar:
return "cons (immediate car)";
case scm_tcs_cons_nimcar:
return "cons (non-immediate car)";
case scm_tc7_pws:
return "pws";
case scm_tc7_hashtable:
return "hashtable";
case scm_tc7_fluid:
return "fluid";
case scm_tc7_dynamic_state:
return "dynamic state";
case scm_tc7_wvect:
return "weak vector";
case scm_tc7_vector:
return "vector";
case scm_tc7_number:
switch (tag)
{
case scm_tc16_real:
return "real";
break;
case scm_tc16_big:
return "bignum";
break;
case scm_tc16_complex:
return "complex number";
break;
case scm_tc16_fraction:
return "fraction";
break;
}
break;
case scm_tc7_string:
return "string";
break;
case scm_tc7_stringbuf:
return "string buffer";
break;
case scm_tc7_symbol:
return "symbol";
break;
case scm_tc7_variable:
return "variable";
break;
case scm_tc7_gsubr:
return "gsubr";
break;
case scm_tc7_port:
return "port";
break;
case scm_tc7_smob:
return "smob"; /* should not occur. */
break;
}
return NULL;
}
void
scm_init_gc ()
{
/* `GC_INIT ()' was invoked in `scm_storage_prehistory ()'. */
scm_after_gc_hook = scm_permanent_object (scm_make_hook (SCM_INUM0));
scm_c_define ("after-gc-hook", scm_after_gc_hook);
gc_async = scm_c_make_gsubr ("%gc-thunk", 0, 0, 0, gc_async_thunk);
scm_c_hook_add (&scm_after_gc_c_hook, mark_gc_async, NULL, 0);
#include "libguile/gc.x"
}
void
scm_gc_sweep (void)
#define FUNC_NAME "scm_gc_sweep"
{
/* FIXME */
fprintf (stderr, "%s: doing nothing\n", __FUNCTION__);
}
#undef FUNC_NAME
/*
Local Variables:
c-file-style: "gnu"
End:
*/
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