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2006-03-23  Geoffrey Keating  <geoffk@apple.com>

	PR 26793
	* config/t-darwin (crt3.o): Work around bug 26840.
	* config/darwin-crt3.c: Rewrite.
	* config/darwin.h (STARTFILE_SPEC): Don't use -l for crt3.o.

Index: gcc/testsuite/ChangeLog
2006-03-24  Geoffrey Keating  <geoffk@apple.com>

	* g++.old-deja/g++.other/init19.C: New.

From-SVN: r112361
This commit is contained in:
Geoffrey Keating 2006-03-24 21:59:48 +00:00 committed by Geoffrey Keating
parent e713adf645
commit 895de5a8a9
7 changed files with 587 additions and 143 deletions
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7
gcc/ChangeLog
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@ -1,3 +1,10 @@
2006-03-24 Geoffrey Keating <geoffk@apple.com>
PR 26793
* config/t-darwin (crt3.o): Work around bug 26840.
* config/darwin-crt3.c: Rewrite.
* config/darwin.h (STARTFILE_SPEC): Don't use -l for crt3.o.
2006-03-24 Carlos O'Donell <carlos@codesourcery.com> 2006-03-24 Carlos O'Donell <carlos@codesourcery.com>
* doc/invoke.texi: Document -femit-class-debug-always * doc/invoke.texi: Document -femit-class-debug-always

576
gcc/config/darwin-crt3.c
View file

@ -37,172 +37,492 @@ Software Foundation, 51 Franklin Street, Fifth Floor, Boston, MA
#include <dlfcn.h> #include <dlfcn.h>
#include <stdbool.h> #include <stdbool.h>
#include <stdlib.h> #include <stdlib.h>
#include <string.h>
/* This file works around two different problems. /* This file works around two different problems.
The first problem is that there is no __cxa_atexit on Mac OS versions The first problem is that there is no __cxa_atexit on Mac OS versions
before 10.4. It fixes this by providing one, and having it called from before 10.4. It fixes this by providing a complete atexit and
a destructor. This is not quite as good as having a real __cxa_atexit, __cxa_atexit emulation called from the regular atexit.
but it's good enough to imitate the behaviour that you'd get if
you didn't have one.
The second problem is that on 10.4 Mac OS versions, __cxa_finalize The second problem is that on all shipping versions of Mac OS,
doesn't work right: it doesn't run routines that were registered __cxa_finalize and exit() don't work right: they don't run routines
while other atexit routines are running. This is worked around by that were registered while other atexit routines are running. This
installing our own handler so that it runs last, and repeatedly is worked around by wrapping each atexit/__cxa_atexit routine with
running __cxa_finalize until no new calls to __cxa_atexit are made. */ our own routine which ensures that any __cxa_atexit calls while it
is running are honoured.
typedef int (*cxa_atexit_p)(void (*func) (void*), void* arg, void* dso); There are still problems which this does not solve. Before 10.4,
shared objects linked with previous compilers won't have their
atexit calls properly interleaved with code compiled with newer
compilers. Also, atexit routines registered from shared objects
linked with previous compilers won't get the bug fix. */
typedef int (*cxa_atexit_p)(void (*func) (void*), void* arg, const void* dso);
typedef void (*cxa_finalize_p)(const void *dso);
typedef int (*atexit_p)(void (*func)(void));
/* These are from "keymgr.h". */
extern void *_keymgr_get_and_lock_processwide_ptr (unsigned key);
extern int _keymgr_get_and_lock_processwide_ptr_2 (unsigned, void **);
extern int _keymgr_set_and_unlock_processwide_ptr (unsigned key, void *ptr);
extern void *__keymgr_global[];
typedef struct _Sinfo_Node {
unsigned int size ; /*size of this node*/
unsigned short major_version ; /*API major version.*/
unsigned short minor_version ; /*API minor version.*/
} _Tinfo_Node ;
#ifdef __ppc__ #ifdef __ppc__
void __cxa_finalize (void* dso) __attribute__((weak)); #define CHECK_KEYMGR_ERROR(e) \
(((_Tinfo_Node *)__keymgr_global[2])->major_version >= 4 ? (e) : 0)
#else #else
void __cxa_finalize (void* dso); #define CHECK_KEYMGR_ERROR(e) (e)
#endif #endif
/* new_atexit_routines is set if __cxa_finalize exists in the system C /* Our globals are stored under this keymgr index. */
library and our copy of __cxa_atexit has been called. */ #define KEYMGR_ATEXIT_LIST 14
static bool new_atexit_routines; /* The different kinds of callback routines. */
typedef void (*atexit_callback)(void);
typedef void (*cxa_atexit_callback)(void *);
/* first_atexit_handler is called after all other atexit routines /* This structure holds a routine to call. There may be extra fields
that were registered before __cxa_finalize is called. at the end of the structure that this code doesn't know about. */
It may be called more than once, but is not re-entered. */ struct one_atexit_routine
static void
first_atexit_handler(void* dso)
{ {
/* Keep running __cxa_finalize until no new atexit routines are union {
registered. atexit_callback ac;
Note that this means __cxa_finalize will be called at least twice, cxa_atexit_callback cac;
even if the first call didn't register any new routines. */ } callback;
while (new_atexit_routines) { /* has_arg is 0/2/4 if 'ac' is live, 1/3/5 if 'cac' is live.
new_atexit_routines = false; Higher numbers indicate a later version of the structure that this
__cxa_finalize (dso); code doesn't understand and will ignore. */
}; int has_arg;
void * arg;
};
struct atexit_routine_list
{
struct atexit_routine_list * next;
struct one_atexit_routine r;
};
/* The various possibilities for status of atexit(). */
enum atexit_status {
atexit_status_unknown = 0,
atexit_status_missing = 1,
atexit_status_broken = 2,
atexit_status_working = 16
};
struct keymgr_atexit_list
{
/* Version of this list. This code knows only about version 0.
If the version is higher than 0, this code may add new atexit routines
but should not attempt to run the list. */
short version;
/* 1 if an atexit routine is currently being run by this code, 0
otherwise. */
char running_routines;
/* Holds a value from 'enum atexit_status'. */
unsigned char atexit_status;
/* The list of atexit and cxa_atexit routines registered. If
atexit_status_missing it contains all routines registered while
linked with this code. If atexit_status_broken it contains all
routines registered during cxa_finalize while linked with this
code. */
struct atexit_routine_list *l;
/* &__cxa_atexit; set if atexit_status >= atexit_status_broken. */
cxa_atexit_p cxa_atexit_f;
/* &__cxa_finalize; set if atexit_status >= atexit_status_broken. */
cxa_finalize_p cxa_finalize_f;
/* &atexit; set if atexit_status >= atexit_status_working
or atexit_status == atexit_status_missing. */
atexit_p atexit_f;
};
/* Return 0 if __cxa_atexit has the bug it has in Mac OS 10.4: it
fails to call routines registered while an atexit routine is
running. Return 1 if it works properly, and -1 if an error occurred. */
struct atexit_data
{
int result;
cxa_atexit_p cxa_atexit;
};
static void cxa_atexit_check_2 (void *arg)
{
((struct atexit_data *)arg)->result = 1;
} }
/* This is our wrapper around __cxa_atexit that's called if __cxa_finalize static void cxa_atexit_check_1 (void *arg)
exists in the system library. All it does is, on its first call, {
install first_atexit_handler; and on every call, set new_atexit_routines struct atexit_data * aed = arg;
and pass control to the system __cxa_atexit. if (aed->cxa_atexit (cxa_atexit_check_2, arg, arg) != 0)
This proves to be somewhat more complicated than you might expect, aed->result = -1;
because it may be called in a multithreaded environment. Fortunately }
it turns out to be possible to do what's needed without resorting
to locking. */
static int static int
cxa_atexit_wrapper (void (*func) (void*), void* arg, void* dso) check_cxa_atexit (cxa_atexit_p cxa_atexit, cxa_finalize_p cxa_finalize)
{ {
static volatile cxa_atexit_p real_cxa_atexit; struct atexit_data aed = { 0, cxa_atexit };
cxa_atexit_p auto_cxa_atexit = real_cxa_atexit;
if (! auto_cxa_atexit) /* We re-use &aed as the 'dso' parameter, since it's a unique address. */
if (cxa_atexit (cxa_atexit_check_1, &aed, &aed) != 0)
return -1;
cxa_finalize (&aed);
if (aed.result == 0)
{ {
void* handle = dlopen ("/usr/lib/libSystem.B.dylib", RTLD_NOLOAD); /* Call __cxa_finalize again to make sure that cxa_atexit_check_2
if (! handle) is removed from the list before AED goes out of scope. */
return -1; cxa_finalize (&aed);
aed.result = 0;
auto_cxa_atexit = (cxa_atexit_p)dlsym (handle, "__cxa_atexit");
if (! auto_cxa_atexit)
return -1;
} }
/* At this point, auto_cxa_atexit contains the address of return aed.result;
the system __cxa_atexit. */
if (! real_cxa_atexit)
{
/* Install our handler above before any other handlers
for this image, so it will be called last. */
int result = (*auto_cxa_atexit)(first_atexit_handler, dso, dso);
if (result != 0)
return result;
/* Now set the global real_cxa_atexit to prevent further
installations of first_atexit_handler. Do this after
the installation so that if another thread sees it is set,
it can be sure that first_atexit_handler really has been
installed. */
real_cxa_atexit = auto_cxa_atexit;
}
/* At this point, we know that first_atexit_handler has been
installed at least once, and real_cxa_atexit is not NULL. */
/* It's not necessary to mark new_atexit_routines as volatile, so long
as this write eventually happens before this shared object is
unloaded. */
new_atexit_routines = true;
/* Call the original __cxa_atexit for this function. */
return (*auto_cxa_atexit)(func, arg, dso);
} }
#ifdef __ppc__
/* This comes from Csu. It works only before 10.4. The prototype has
been altered a bit to avoid casting. */
extern int _dyld_func_lookup(const char *dyld_func_name,
void *address) __attribute__((visibility("hidden")));
static void our_atexit (void);
/* We're running on 10.3.9. Find the address of the system atexit()
function. So easy to say, so hard to do. */
static atexit_p
find_atexit_10_3 (void)
{
unsigned int (*dyld_image_count_fn)(void);
const char *(*dyld_get_image_name_fn)(unsigned int image_index);
const void *(*dyld_get_image_header_fn)(unsigned int image_index);
const void *(*NSLookupSymbolInImage_fn)(const void *image,
const char *symbolName,
unsigned int options);
void *(*NSAddressOfSymbol_fn)(const void *symbol);
unsigned i, count;
/* Find some dyld functions. */
_dyld_func_lookup("__dyld_image_count", &dyld_image_count_fn);
_dyld_func_lookup("__dyld_get_image_name", &dyld_get_image_name_fn);
_dyld_func_lookup("__dyld_get_image_header", &dyld_get_image_header_fn);
_dyld_func_lookup("__dyld_NSLookupSymbolInImage", &NSLookupSymbolInImage_fn);
_dyld_func_lookup("__dyld_NSAddressOfSymbol", &NSAddressOfSymbol_fn);
/* If any of these don't exist, that's an error. */
if (! dyld_image_count_fn || ! dyld_get_image_name_fn
|| ! dyld_get_image_header_fn || ! NSLookupSymbolInImage_fn
|| ! NSAddressOfSymbol_fn)
return NULL;
count = dyld_image_count_fn ();
for (i = 0; i < count; i++)
{
const char * path = dyld_get_image_name_fn (i);
const void * image;
const void * symbol;
if (strcmp (path, "/usr/lib/libSystem.B.dylib") != 0)
continue;
image = dyld_get_image_header_fn (i);
if (! image)
return NULL;
/* '4' is NSLOOKUPSYMBOLINIMAGE_OPTION_RETURN_ON_ERROR. */
symbol = NSLookupSymbolInImage_fn (image, "_atexit", 4);
if (! symbol)
return NULL;
return NSAddressOfSymbol_fn (symbol);
}
return NULL;
}
#endif
/* Create (if necessary), find, lock, fill in, and return our globals.
Return NULL on error, in which case the globals will not be locked.
The caller should call keymgr_set_and_unlock. */
static struct keymgr_atexit_list *
get_globals (void)
{
struct keymgr_atexit_list * r;
#ifdef __ppc__
/* 10.3.9 doesn't have _keymgr_get_and_lock_processwide_ptr_2 so the
PPC side can't use it. On 10.4 this just means the error gets
reported a little later when
_keymgr_set_and_unlock_processwide_ptr finds that the key was
never locked. */
r = _keymgr_get_and_lock_processwide_ptr (KEYMGR_ATEXIT_LIST);
#else
void * rr;
if (_keymgr_get_and_lock_processwide_ptr_2 (KEYMGR_ATEXIT_LIST, &rr))
return NULL;
r = rr;
#endif
if (r == NULL)
{
r = calloc (sizeof (struct keymgr_atexit_list), 1);
if (! r)
return NULL;
}
if (r->atexit_status == atexit_status_unknown)
{
void *handle;
handle = dlopen ("/usr/lib/libSystem.B.dylib", RTLD_NOLOAD);
if (!handle)
{
#ifdef __ppc__
r->atexit_status = atexit_status_missing;
r->atexit_f = find_atexit_10_3 ();
if (! r->atexit_f)
goto error;
if (r->atexit_f (our_atexit))
goto error;
#else
goto error;
#endif
}
else
{
int chk_result;
r->cxa_atexit_f = (cxa_atexit_p)dlsym (handle, "__cxa_atexit");
r->cxa_finalize_f = (cxa_finalize_p)dlsym (handle, "__cxa_finalize");
if (! r->cxa_atexit_f || ! r->cxa_finalize_f)
goto error;
chk_result = check_cxa_atexit (r->cxa_atexit_f, r->cxa_finalize_f);
if (chk_result == -1)
goto error;
else if (chk_result == 0)
r->atexit_status = atexit_status_broken;
else
{
r->atexit_f = (atexit_p)dlsym (handle, "atexit");
if (! r->atexit_f)
goto error;
r->atexit_status = atexit_status_working;
}
}
}
return r;
error:
_keymgr_set_and_unlock_processwide_ptr (KEYMGR_ATEXIT_LIST, r);
return NULL;
}
/* Add TO_ADD to ATEXIT_LIST. ATEXIT_LIST may be NULL but is
always the result of calling _keymgr_get_and_lock_processwide_ptr and
so KEYMGR_ATEXIT_LIST is known to be locked; this routine is responsible
for unlocking it. */
static int
add_routine (struct keymgr_atexit_list * g,
const struct one_atexit_routine * to_add)
{
struct atexit_routine_list * s
= malloc (sizeof (struct atexit_routine_list));
int result;
if (!s)
{
_keymgr_set_and_unlock_processwide_ptr (KEYMGR_ATEXIT_LIST, g);
return -1;
}
s->r = *to_add;
s->next = g->l;
g->l = s;
result = _keymgr_set_and_unlock_processwide_ptr (KEYMGR_ATEXIT_LIST, g);
return CHECK_KEYMGR_ERROR (result) == 0 ? 0 : -1;
}
/* This runs the routines in G->L up to STOP. */
static struct keymgr_atexit_list *
run_routines (struct keymgr_atexit_list *g,
struct atexit_routine_list *stop)
{
for (;;)
{
struct atexit_routine_list * cur = g->l;
if (! cur || cur == stop)
break;
g->l = cur->next;
_keymgr_set_and_unlock_processwide_ptr (KEYMGR_ATEXIT_LIST, g);
switch (cur->r.has_arg) {
case 0: case 2: case 4:
cur->r.callback.ac ();
break;
case 1: case 3: case 5:
cur->r.callback.cac (cur->r.arg);
break;
default:
/* Don't understand, so don't call it. */
break;
}
free (cur);
g = _keymgr_get_and_lock_processwide_ptr (KEYMGR_ATEXIT_LIST);
if (! g)
break;
}
return g;
}
/* Call the routine described by ROUTINE_PARAM and then call any
routines added to KEYMGR_ATEXIT_LIST while that routine was
running, all with in_cxa_finalize set. */
static void
cxa_atexit_wrapper (void* routine_param)
{
struct one_atexit_routine * routine = routine_param;
struct keymgr_atexit_list *g;
struct atexit_routine_list * base = NULL;
char prev_running = 0;
g = _keymgr_get_and_lock_processwide_ptr (KEYMGR_ATEXIT_LIST);
if (g)
{
prev_running = g->running_routines;
g->running_routines = 1;
base = g->l;
_keymgr_set_and_unlock_processwide_ptr (KEYMGR_ATEXIT_LIST, g);
}
if (routine->has_arg)
routine->callback.cac (routine->arg);
else
routine->callback.ac ();
if (g)
g = _keymgr_get_and_lock_processwide_ptr (KEYMGR_ATEXIT_LIST);
if (g)
g = run_routines (g, base);
if (g)
{
g->running_routines = prev_running;
_keymgr_set_and_unlock_processwide_ptr (KEYMGR_ATEXIT_LIST, g);
}
}
#ifdef __ppc__ #ifdef __ppc__
/* This code is used while running on 10.3.9, when __cxa_atexit doesn't /* This code is used while running on 10.3.9, when __cxa_atexit doesn't
exist in the system library. 10.3.9 only supported regular PowerPC, exist in the system library. 10.3.9 only supported regular PowerPC,
so this code isn't necessary on x86 or ppc64. */ so this code isn't necessary on x86 or ppc64. */
/* This structure holds a routine to call. */ /* This routine is called from the system atexit(); it runs everything
struct atexit_routine registered on the KEYMGR_ATEXIT_LIST. */
static void
our_atexit (void)
{ {
struct atexit_routine * next; struct keymgr_atexit_list *g;
void (*func)(void *); char prev_running;
void * arg;
};
static struct atexit_routine * volatile atexit_routines_list; g = _keymgr_get_and_lock_processwide_ptr (KEYMGR_ATEXIT_LIST);
if (! g || g->version != 0 || g->atexit_status != atexit_status_missing)
return;
prev_running = g->running_routines;
g->running_routines = 1;
g = run_routines (g, NULL);
if (! g)
return;
g->running_routines = prev_running;
_keymgr_set_and_unlock_processwide_ptr (KEYMGR_ATEXIT_LIST, g);
}
#endif
/* If __cxa_atexit doesn't exist at all in the system library, this /* This is our wrapper around atexit and __cxa_atexit. It will return
routine is used; it completely emulates __cxa_atexit. nonzero if an error occurs, and otherwise:
- if in_cxa_finalize is set, or running on 10.3.9, add R to
This routine has to be thread-safe, but fortunately this just means KEYMGR_ATEXIT_LIST; or
that it has to do atomic list insertion. */ - call the system __cxa_atexit to add cxa_atexit_wrapper with an argument
that indicates how cxa_atexit_wrapper should call R. */
static int static int
cxa_atexit_substitute (void (*func) (void*), void* arg, atexit_common (const struct one_atexit_routine *r, const void *dso)
/* The 'dso' value will always be equal to this
object's __dso_handle. */
void* dso __attribute__((unused)))
{ {
struct atexit_routine * s = malloc (sizeof (struct atexit_routine)); struct keymgr_atexit_list *g = get_globals ();
struct atexit_routine * next, * old_next;
if (!s) if (! g)
return -1; return -1;
s->func = func;
s->arg = arg; if (g->running_routines || g->atexit_status == atexit_status_missing)
next = atexit_routines_list; return add_routine (g, r);
do {
s->next = old_next = next;
next = __sync_val_compare_and_swap (&atexit_routines_list, old_next, s);
} while (next != old_next);
return 0;
}
/* The routines added in cxa_atexit_substitute get run here, in a destructor. if (g->atexit_status >= atexit_status_working)
This routine doesn't have to be thread-safe. */
static void cxa_dtor (void) __attribute__((destructor));
static void
cxa_dtor (void)
{
while (atexit_routines_list)
{ {
struct atexit_routine * working_list = atexit_routines_list; int result;
atexit_routines_list = NULL; if (r->has_arg)
while (working_list)
{ {
struct atexit_routine * called_routine = working_list; cxa_atexit_p cxa_atexit = g->cxa_atexit_f;
working_list->func (working_list->arg); result = _keymgr_set_and_unlock_processwide_ptr (KEYMGR_ATEXIT_LIST,
working_list = working_list->next; g);
free (called_routine); if (CHECK_KEYMGR_ERROR (result))
return -1;
return cxa_atexit (r->callback.cac, r->arg, dso);
}
else
{
atexit_p atexit_f = g->atexit_f;
result = _keymgr_set_and_unlock_processwide_ptr (KEYMGR_ATEXIT_LIST,
g);
if (CHECK_KEYMGR_ERROR (result))
return -1;
return atexit_f (r->callback.ac);
} }
} }
} else
#endif {
cxa_atexit_p cxa_atexit = g->cxa_atexit_f;
struct one_atexit_routine *alloced;
int result;
int __cxa_atexit (void (*func) (void*), void* arg, result = _keymgr_set_and_unlock_processwide_ptr (KEYMGR_ATEXIT_LIST, g);
void* dso) __attribute__((visibility("hidden"))); if (CHECK_KEYMGR_ERROR (result))
int return -1;
__cxa_atexit (void (*func) (void*), void* arg, void* dso)
{ alloced = malloc (sizeof (struct one_atexit_routine));
#ifdef __ppc__ if (! alloced)
if (! __cxa_finalize) return -1;
return cxa_atexit_substitute (func, arg, dso); *alloced = *r;
#endif return cxa_atexit (cxa_atexit_wrapper, alloced, dso);
return cxa_atexit_wrapper (func, arg, dso); }
}
/* These are the actual replacement routines; they just funnel into
atexit_common. */
int __cxa_atexit (cxa_atexit_callback func, void* arg,
const void* dso) __attribute__((visibility("hidden")));
int
__cxa_atexit (cxa_atexit_callback func, void* arg, const void* dso)
{
struct one_atexit_routine r;
r.callback.cac = func;
r.has_arg = 1;
r.arg = arg;
return atexit_common (&r, dso);
}
int atexit (atexit_callback func) __attribute__((visibility("hidden")));
int
atexit (atexit_callback func)
{
struct one_atexit_routine r;
r.callback.ac = func;
r.has_arg = 0;
return atexit_common (&r, NULL);
} }

2
gcc/config/darwin.h
View file

@ -341,7 +341,7 @@ Boston, MA 02110-1301, USA. */
%{!static:%{object:-lcrt0.o} \ %{!static:%{object:-lcrt0.o} \
%{!object:%{preload:-lcrt0.o} \ %{!object:%{preload:-lcrt0.o} \
%{!preload:-lcrt1.o %(darwin_crt2)}}}}}} \ %{!preload:-lcrt1.o %(darwin_crt2)}}}}}} \
%{shared-libgcc:%:version-compare(< 10.5 mmacosx-version-min= -lcrt3.o)}" %{shared-libgcc:%:version-compare(< 10.5 mmacosx-version-min= crt3.o%s)}"
/* The native Darwin linker doesn't necessarily place files in the order /* The native Darwin linker doesn't necessarily place files in the order
that they're specified on the link line. Thus, it is pointless that they're specified on the link line. Thus, it is pointless

2
gcc/config/t-darwin
View file

@ -14,9 +14,11 @@ gt-darwin.h : s-gtype ; @true
# How to build crt3.o # How to build crt3.o
EXTRA_MULTILIB_PARTS=crt3.o EXTRA_MULTILIB_PARTS=crt3.o
# Pass -fno-tree-dominator-opts to work around bug 26840.
$(T)crt3$(objext): $(srcdir)/config/darwin-crt3.c $(GCC_PASSES) \ $(T)crt3$(objext): $(srcdir)/config/darwin-crt3.c $(GCC_PASSES) \
$(TCONFIG_H) stmp-int-hdrs tsystem.h $(TCONFIG_H) stmp-int-hdrs tsystem.h
$(GCC_FOR_TARGET) $(GCC_CFLAGS) $(INCLUDES) $(MULTILIB_CFLAGS) \ $(GCC_FOR_TARGET) $(GCC_CFLAGS) $(INCLUDES) $(MULTILIB_CFLAGS) \
-fno-tree-dominator-opts \
-c $(srcdir)/config/darwin-crt3.c -o $(T)crt3$(objext) -c $(srcdir)/config/darwin-crt3.c -o $(T)crt3$(objext)
# Use unwind-dw2-fde-darwin # Use unwind-dw2-fde-darwin

54
gcc/dwarf2out.c
View file

@ -5326,8 +5326,9 @@ is_c_family (void)
{ {
unsigned int lang = get_AT_unsigned (comp_unit_die, DW_AT_language); unsigned int lang = get_AT_unsigned (comp_unit_die, DW_AT_language);
return (lang == DW_LANG_C || lang == DW_LANG_C89 return (lang == DW_LANG_C || lang == DW_LANG_C89 || lang == DW_LANG_ObjC
|| lang == DW_LANG_C_plus_plus); || lang == DW_LANG_C99
|| lang == DW_LANG_C_plus_plus || lang == DW_LANG_ObjC_plus_plus);
} }
/* Return TRUE if the language is C++. */ /* Return TRUE if the language is C++. */
@ -5335,8 +5336,9 @@ is_c_family (void)
static inline bool static inline bool
is_cxx (void) is_cxx (void)
{ {
return (get_AT_unsigned (comp_unit_die, DW_AT_language) unsigned int lang = get_AT_unsigned (comp_unit_die, DW_AT_language);
== DW_LANG_C_plus_plus);
return lang == DW_LANG_C_plus_plus || lang == DW_LANG_ObjC_plus_plus;
} }
/* Return TRUE if the language is Fortran. */ /* Return TRUE if the language is Fortran. */
@ -9927,6 +9929,23 @@ add_const_value_attribute (dw_die_ref die, rtx rtl)
} }
/* Determine whether the evaluation of EXPR references any variables
or functions which aren't otherwise used (and therefore may not be
output). */
static tree
reference_to_unused (tree * tp, int * walk_subtrees,
void * data ATTRIBUTE_UNUSED)
{
if (! EXPR_P (*tp) && ! CONSTANT_CLASS_P (*tp))
*walk_subtrees = 0;
if (DECL_P (*tp) && ! TREE_PUBLIC (*tp) && ! TREE_USED (*tp)
&& ! TREE_ASM_WRITTEN (*tp))
return *tp;
else
return NULL_TREE;
}
/* Generate an RTL constant from a decl initializer INIT with decl type TYPE, /* Generate an RTL constant from a decl initializer INIT with decl type TYPE,
for use in a later add_const_value_attribute call. */ for use in a later add_const_value_attribute call. */
@ -9953,15 +9972,16 @@ rtl_for_decl_init (tree init, tree type)
rtl = gen_rtx_CONST_STRING (VOIDmode, rtl = gen_rtx_CONST_STRING (VOIDmode,
ggc_strdup (TREE_STRING_POINTER (init))); ggc_strdup (TREE_STRING_POINTER (init)));
} }
/* Although DWARF could easily handle other kinds of aggregates, we
have no way to represent such values as RTL constants, so skip
those. */
else if (AGGREGATE_TYPE_P (type))
;
/* If the initializer is something that we know will expand into an /* If the initializer is something that we know will expand into an
immediate RTL constant, expand it now. Expanding anything else immediate RTL constant, expand it now. We must be careful not to
tends to produce unresolved symbols; see debug/5770 and c++/6381. */ reference variables which won't be output. */
/* Aggregate, vector, and complex types may contain constructors that may else if (initializer_constant_valid_p (init, type)
result in code being generated when expand_expr is called, so we can't && ! walk_tree (&init, reference_to_unused, NULL, NULL))
handle them here. Integer and float are useful and safe types to handle
here. */
else if ((INTEGRAL_TYPE_P (type) || SCALAR_FLOAT_TYPE_P (type))
&& initializer_constant_valid_p (init, type) == null_pointer_node)
{ {
rtl = expand_expr (init, NULL_RTX, VOIDmode, EXPAND_INITIALIZER); rtl = expand_expr (init, NULL_RTX, VOIDmode, EXPAND_INITIALIZER);
@ -10325,6 +10345,9 @@ add_location_or_const_value_attribute (dw_die_ref die, tree decl,
add_AT_location_description (die, attr, descr); add_AT_location_description (die, attr, descr);
return; return;
} }
/* None of that worked, so it must not really have a location;
try adding a constant value attribute from the DECL_INITIAL. */
tree_add_const_value_attribute (die, decl);
} }
/* If we don't have a copy of this variable in memory for some reason (such /* If we don't have a copy of this variable in memory for some reason (such
@ -12204,6 +12227,10 @@ gen_compile_unit_die (const char *filename)
language = DW_LANG_Pascal83; language = DW_LANG_Pascal83;
else if (strcmp (language_string, "GNU Java") == 0) else if (strcmp (language_string, "GNU Java") == 0)
language = DW_LANG_Java; language = DW_LANG_Java;
else if (strcmp (language_string, "GNU Objective-C") == 0)
language = DW_LANG_ObjC;
else if (strcmp (language_string, "GNU Objective-C++") == 0)
language = DW_LANG_ObjC_plus_plus;
else else
language = DW_LANG_C89; language = DW_LANG_C89;
@ -13314,8 +13341,7 @@ dwarf2out_decl (tree decl)
{ {
/* OK, we need to generate one for `bool' so GDB knows what type /* OK, we need to generate one for `bool' so GDB knows what type
comparisons have. */ comparisons have. */
if ((get_AT_unsigned (comp_unit_die, DW_AT_language) if (is_cxx ()
== DW_LANG_C_plus_plus)
&& TREE_CODE (TREE_TYPE (decl)) == BOOLEAN_TYPE && TREE_CODE (TREE_TYPE (decl)) == BOOLEAN_TYPE
&& ! DECL_IGNORED_P (decl)) && ! DECL_IGNORED_P (decl))
modified_type_die (TREE_TYPE (decl), 0, 0, NULL); modified_type_die (TREE_TYPE (decl), 0, 0, NULL);

4
gcc/testsuite/ChangeLog
View file

@ -1,3 +1,7 @@
2006-03-24 Geoffrey Keating <geoffk@apple.com>
* g++.old-deja/g++.other/init19.C: New.
2006-03-24 David Edelsohn <edelsohn@gnu.org> 2006-03-24 David Edelsohn <edelsohn@gnu.org>
* g++.dg/eh/spbp.C: Skip on AIX. * g++.dg/eh/spbp.C: Skip on AIX.

85
gcc/testsuite/g++.old-deja/g++.other/init19.C Normal file
View file

@ -0,0 +1,85 @@
// { dg-do run }
#include <stdlib.h>
#define assert(x) do { if (! (x)) abort(); } while (0)
int count = 0;
class A
{
public:
explicit A(int i);
~A();
int i;
A(const A&);
A& operator=(const A&);
};
A::A(int i_)
: i(i_)
{
}
A::~A()
{
assert(++count == i);
i = -1;
}
extern "C" {
void one()
{
static bool second_time;
if (second_time)
assert(++count == 9);
else
{
assert(++count == 1);
second_time = true;
}
static A a(10);
assert(a.i == 10);
}
void two()
{
assert(++count == 7);
static A a(8);
assert(a.i == 8);
}
void three()
{
assert(++count == 2);
static A a(6);
assert(a.i == 6);
}
void five()
{
assert(++count == 4);
static A a(5);
assert(a.i == 5);
}
void four()
{
assert(++count == 3);
atexit(five);
}
}
A zero(11);
int main()
{
one();
atexit(one);
atexit(two);
three();
atexit(four);
}