+2017-03-05 Andre Vehreschild <vehre@gcc.gnu.org>,
+ Alessandro Fanfarillo <fanfarillo.gcc@gmail.com>
+
+ * check.c (positive_check): Add new function checking constant for
+ being greater then zero.
+ (gfc_check_image_status): Add checking of image_status arguments.
+ (gfc_check_failed_or_stopped_images): Same but for failed_- and
+ stopped_images function.
+ * dump-parse-tree.c (show_code_node): Added output of FAIL IMAGE.
+ * gfortran.h (enum gfc_statement): Added FAIL_IMAGE_ST.
+ (enum gfc_isym_id): Added new intrinsic symbols.
+ (enum gfc_exec_op): Added EXEC_FAIL_IMAGE.
+ * gfortran.texi: Added description for the new API functions. Updated
+ coverage of gfortran of TS18508.
+ * intrinsic.c (add_functions): Added symbols to resolve new intrinsic
+ functions.
+ * intrinsic.h: Added prototypes.
+ * iresolve.c (gfc_resolve_failed_images): Resolve the failed_images
+ intrinsic.
+ (gfc_resolve_image_status): Same for image_status.
+ (gfc_resolve_stopped_images): Same for stopped_images.
+ * libgfortran.h: Added prototypes.
+ * match.c (gfc_match_if): Added matching of FAIL IMAGE statement.
+ (gfc_match_fail_image): Match a FAIL IMAGE statement.
+ * match.h: Added prototype.
+ * parse.c (decode_statement): Added matching for FAIL IMAGE.
+ (next_statement): Same.
+ (gfc_ascii_statement): Same.
+ * resolve.c: Same.
+ * simplify.c (gfc_simplify_failed_or_stopped_images): For COARRAY=
+ single a constant result can be returne.d
+ (gfc_simplify_image_status): For COARRAY=single the result is constant.
+ * st.c (gfc_free_statement): Added FAIL_IMAGE handling.
+ * trans-decl.c (gfc_build_builtin_function_decls): Added decls of the
+ new intrinsics.
+ * trans-expr.c (gfc_conv_procedure_call): This is first time all
+ arguments of a function are optional, which is now handled here
+ correctly.
+ * trans-intrinsic.c (conv_intrinsic_image_status): Translate
+ image_status.
+ (gfc_conv_intrinsic_function): Add support for image_status.
+ (gfc_is_intrinsic_libcall): Add support for the remaining new
+ intrinsics.
+ * trans-stmt.c (gfc_trans_fail_image): Trans a fail image.
+ * trans-stmt.h: Add the prototype for the above.
+ * trans.c (trans_code): Dispatch for fail_image.
+ * trans.h: Add the trees for the new intrinsics.
+
2017-03-03 Jerry DeLisle <jvdelisle@gcc.gnu.org>
PR fortran/79841
}
+/* If expr is a constant, then check to ensure that it is greater than zero. */
+
+static bool
+positive_check (int n, gfc_expr *expr)
+{
+ int i;
+
+ if (expr->expr_type == EXPR_CONSTANT)
+ {
+ gfc_extract_int (expr, &i);
+ if (i <= 0)
+ {
+ gfc_error ("%qs argument of %qs intrinsic at %L must be positive",
+ gfc_current_intrinsic_arg[n]->name, gfc_current_intrinsic,
+ &expr->where);
+ return false;
+ }
+ }
+
+ return true;
+}
+
+
/* If expr2 is constant, then check that the value is less than
(less than or equal to, if 'or_equal' is true) bit_size(expr1). */
}
+bool
+gfc_check_image_status (gfc_expr *image, gfc_expr *team)
+{
+ /* IMAGE has to be a positive, scalar integer. */
+ if (!type_check (image, 0, BT_INTEGER) || !scalar_check (image, 0)
+ || !positive_check (0, image))
+ return false;
+
+ if (team)
+ {
+ gfc_error ("%qs argument of %qs intrinsic at %L not yet supported",
+ gfc_current_intrinsic_arg[1]->name, gfc_current_intrinsic,
+ &team->where);
+ return false;
+ }
+ return true;
+}
+
+
+bool
+gfc_check_failed_or_stopped_images (gfc_expr *team, gfc_expr *kind)
+{
+ if (team)
+ {
+ gfc_error ("%qs argument of %qs intrinsic at %L not yet supported",
+ gfc_current_intrinsic_arg[0]->name, gfc_current_intrinsic,
+ &team->where);
+ return false;
+ }
+
+ if (kind)
+ {
+ int k;
+
+ if (!type_check (kind, 1, BT_INTEGER) || !scalar_check (kind, 1)
+ || !positive_check (1, kind))
+ return false;
+
+ /* Get the kind, reporting error on non-constant or overflow. */
+ gfc_current_locus = kind->where;
+ if (gfc_extract_int (kind, &k, 1))
+ return false;
+ if (gfc_validate_kind (BT_INTEGER, k, true) == -1)
+ {
+ gfc_error ("%qs argument of %qs intrinsic at %L shall specify a "
+ "valid integer kind", gfc_current_intrinsic_arg[1]->name,
+ gfc_current_intrinsic, &kind->where);
+ return false;
+ }
+ }
+ return true;
+}
+
+
bool
gfc_check_atomic_cas (gfc_expr *atom, gfc_expr *old, gfc_expr *compare,
gfc_expr *new_val, gfc_expr *stat)
break;
+ case EXEC_FAIL_IMAGE:
+ fputs ("FAIL IMAGE ", dumpfile);
+ break;
+
case EXEC_SYNC_ALL:
fputs ("SYNC ALL ", dumpfile);
if (c->expr2 != NULL)
ST_OMP_TASKLOOP_SIMD, ST_OMP_END_TASKLOOP_SIMD, ST_OMP_ORDERED_DEPEND,
ST_PROCEDURE, ST_GENERIC, ST_CRITICAL, ST_END_CRITICAL,
ST_GET_FCN_CHARACTERISTICS, ST_LOCK, ST_UNLOCK, ST_EVENT_POST,
- ST_EVENT_WAIT,ST_NONE
+ ST_EVENT_WAIT,ST_FAIL_IMAGE,ST_NONE
};
/* Types of interfaces that we can have. Assignment interfaces are
GFC_ISYM_EXP,
GFC_ISYM_EXPONENT,
GFC_ISYM_EXTENDS_TYPE_OF,
+ GFC_ISYM_FAILED_IMAGES,
GFC_ISYM_FDATE,
GFC_ISYM_FE_RUNTIME_ERROR,
GFC_ISYM_FGET,
GFC_ISYM_IEOR,
GFC_ISYM_IERRNO,
GFC_ISYM_IMAGE_INDEX,
+ GFC_ISYM_IMAGE_STATUS,
GFC_ISYM_INDEX,
GFC_ISYM_INT,
GFC_ISYM_INT2,
GFC_ISYM_SRAND,
GFC_ISYM_SR_KIND,
GFC_ISYM_STAT,
+ GFC_ISYM_STOPPED_IMAGES,
GFC_ISYM_STORAGE_SIZE,
GFC_ISYM_STRIDE,
GFC_ISYM_SUM,
EXEC_OPEN, EXEC_CLOSE, EXEC_WAIT,
EXEC_READ, EXEC_WRITE, EXEC_IOLENGTH, EXEC_TRANSFER, EXEC_DT_END,
EXEC_BACKSPACE, EXEC_ENDFILE, EXEC_INQUIRE, EXEC_REWIND, EXEC_FLUSH,
- EXEC_LOCK, EXEC_UNLOCK, EXEC_EVENT_POST, EXEC_EVENT_WAIT,
+ EXEC_LOCK, EXEC_UNLOCK, EXEC_EVENT_POST, EXEC_EVENT_WAIT, EXEC_FAIL_IMAGE,
EXEC_OACC_KERNELS_LOOP, EXEC_OACC_PARALLEL_LOOP, EXEC_OACC_ROUTINE,
EXEC_OACC_PARALLEL, EXEC_OACC_KERNELS, EXEC_OACC_DATA, EXEC_OACC_HOST_DATA,
EXEC_OACC_LOOP, EXEC_OACC_UPDATE, EXEC_OACC_WAIT, EXEC_OACC_CACHE,
@item GNU Fortran's implementation for variables with @code{ASYNCHRONOUS}
attribute is compatible with TS 29113.
-@item Assumed types (@code{TYPE(*)}.
+@item Assumed types (@code{TYPE(*)}).
@item Assumed-rank (@code{DIMENSION(..)}). However, the array descriptor
of the TS is not yet supported.
polymorphic components.
@item Events (@code{EVENT POST}, @code{EVENT WAIT}, @code{EVENT_QUERY})
+
+@item Failed images (@code{FAIL IMAGE}, @code{IMAGE_STATUS},
+@code{FAILED_IMAGES}, @code{STOPPED_IMAGES})
+
@end itemize
* caf_register_t::
* caf_deregister_t::
* caf_reference_t::
+* caf_team_t::
@end menu
@node caf_token_t
At the moment @code{CAF_ARR_REF_VECTOR} is not implemented in the front end for
descriptor-less arrays. The library caf_single has untested support for it.
+@node caf_team_t
+@subsection @code{caf_team_t}
+
+Opaque pointer to represent a team-handle. This type is a stand-in for the
+future implementation of teams. It is about to change without further notice.
@node Function ABI Documentation
@section Function ABI Documentation
* _gfortran_caf_finish:: Finalization function
* _gfortran_caf_this_image:: Querying the image number
* _gfortran_caf_num_images:: Querying the maximal number of images
+* _gfortran_caf_image_status :: Query the status of an image
+* _gfortran_caf_failed_images :: Get an array of the indexes of the failed images
+* _gfortran_caf_stopped_images :: Get an array of the indexes of the stopped images
* _gfortran_caf_register:: Registering coarrays
* _gfortran_caf_deregister:: Deregistering coarrays
* _gfortran_caf_is_present:: Query whether an allocatable or pointer component in a derived type coarray is allocated
* _gfortran_caf_sync_memory:: Wait for completion of segment-memory operations
* _gfortran_caf_error_stop:: Error termination with exit code
* _gfortran_caf_error_stop_str:: Error termination with string
+* _gfortran_caf_fail_image :: Mark the image failed and end its execution
* _gfortran_caf_atomic_define:: Atomic variable assignment
* _gfortran_caf_atomic_ref:: Atomic variable reference
* _gfortran_caf_atomic_cas:: Atomic compare and swap
@end table
+@node _gfortran_caf_image_status
+@subsection @code{_gfortran_caf_image_status} --- Query the status of an image
+@cindex Coarray, _gfortran_caf_image_status
+
+@table @asis
+@item @emph{Description}:
+Get the status of the image given by the id @var{image} of the team given by
+@var{team}. Valid results are zero, for image is ok, @code{STAT_STOPPED_IMAGE}
+from the ISO_FORTRAN_ENV module to indicate that the image has been stopped and
+@code{STAT_FAILED_IMAGE} also from ISO_FORTRAN_ENV to indicate that the image
+has executed a @code{FAIL IMAGE} statement.
+
+@item @emph{Syntax}:
+@code{int _gfortran_caf_image_status (int image, caf_team_t * team)}
+
+@item @emph{Arguments}:
+@multitable @columnfractions .15 .70
+@item @var{image} @tab the positive scalar id of the image in the current TEAM.
+@item @var{team} @tab optional; team on the which the inquiry is to be
+performed.
+@end multitable
+
+@item @emph{NOTES}
+This function follows TS18508. Because team-functionality is not yet
+implemented a null-pointer is passed for the @var{team} argument at the moment.
+@end table
+
+
+@node _gfortran_caf_failed_images
+@subsection @code{_gfortran_caf_failed_images} --- Get an array of the indexes of the failed images
+@cindex Coarray, _gfortran_caf_failed_images
+
+@table @asis
+@item @emph{Description}:
+Get an array of image indexes in the current @var{team} that have failed. The
+array is sorted ascendingly. When @var{team} is not provided the current team
+is to be used. When @var{kind} is provided then the resulting array is of that
+integer kind else it is of default integer kind. The returns an unallocated
+size zero array when no images have failed.
+
+@item @emph{Syntax}:
+@code{int _gfortran_caf_failed_images (caf_team_t * team, int * kind)}
+
+@item @emph{Arguments}:
+@multitable @columnfractions .15 .70
+@item @var{team} @tab optional; team on the which the inquiry is to be
+performed.
+@item @var{image} @tab optional; the kind of the resulting integer array.
+@end multitable
+
+@item @emph{NOTES}
+This function follows TS18508. Because team-functionality is not yet
+implemented a null-pointer is passed for the @var{team} argument at the moment.
+@end table
+
+
+@node _gfortran_caf_stopped_images
+@subsection @code{_gfortran_caf_stopped_images} --- Get an array of the indexes of the stopped images
+@cindex Coarray, _gfortran_caf_stopped_images
+
+@table @asis
+@item @emph{Description}:
+Get an array of image indexes in the current @var{team} that have stopped. The
+array is sorted ascendingly. When @var{team} is not provided the current team
+is to be used. When @var{kind} is provided then the resulting array is of that
+integer kind else it is of default integer kind. The returns an unallocated
+size zero array when no images have failed.
+
+@item @emph{Syntax}:
+@code{int _gfortran_caf_stopped_images (caf_team_t * team, int * kind)}
+
+@item @emph{Arguments}:
+@multitable @columnfractions .15 .70
+@item @var{team} @tab optional; team on the which the inquiry is to be
+performed.
+@item @var{image} @tab optional; the kind of the resulting integer array.
+@end multitable
+
+@item @emph{NOTES}
+This function follows TS18508. Because team-functionality is not yet
+implemented a null-pointer is passed for the @var{team} argument at the moment.
+@end table
+
+
@node _gfortran_caf_register
@subsection @code{_gfortran_caf_register} --- Registering coarrays
@cindex Coarray, _gfortran_caf_register
+@node _gfortran_caf_fail_image
+@subsection @code{_gfortran_caf_fail_image} --- Mark the image failed and end its execution
+@cindex Coarray, _gfortran_caf_fail_image
+
+@table @asis
+@item @emph{Description}:
+Invoked for an @code{FAIL IMAGE} statement. The function should terminate the
+current image.
+
+@item @emph{Syntax}:
+@code{void _gfortran_caf_fail_image ()}
+
+@item @emph{NOTES}
+This function follows TS18508.
+@end table
+
+
+
@node _gfortran_caf_atomic_define
@subsection @code{_gfortran_caf_atomic_define} --- Atomic variable assignment
@cindex Coarray, _gfortran_caf_atomic_define
a, BT_UNKNOWN, 0, REQUIRED,
mo, BT_UNKNOWN, 0, REQUIRED);
+ add_sym_2 ("failed_images", GFC_ISYM_FAILED_IMAGES, CLASS_TRANSFORMATIONAL,
+ ACTUAL_NO, BT_INTEGER, dd, GFC_STD_F2008_TS,
+ gfc_check_failed_or_stopped_images,
+ gfc_simplify_failed_or_stopped_images,
+ gfc_resolve_failed_images, "team", BT_VOID, di, OPTIONAL,
+ "kind", BT_INTEGER, di, OPTIONAL);
+
add_sym_0 ("fdate", GFC_ISYM_FDATE, CLASS_IMPURE, ACTUAL_NO, BT_CHARACTER,
dc, GFC_STD_GNU, NULL, NULL, gfc_resolve_fdate);
gfc_check_image_index, gfc_simplify_image_index, gfc_resolve_image_index,
ca, BT_REAL, dr, REQUIRED, sub, BT_INTEGER, ii, REQUIRED);
+ add_sym_2 ("image_status", GFC_ISYM_IMAGE_STATUS, CLASS_ELEMENTAL, ACTUAL_NO,
+ BT_INTEGER, di, GFC_STD_F2008_TS, gfc_check_image_status,
+ gfc_simplify_image_status, gfc_resolve_image_status, "image",
+ BT_INTEGER, di, REQUIRED, "team", BT_VOID, di, OPTIONAL);
+
/* The resolution function for INDEX is called gfc_resolve_index_func
because the name gfc_resolve_index is already used in resolve.c. */
add_sym_4 ("index", GFC_ISYM_INDEX, CLASS_ELEMENTAL, ACTUAL_YES,
make_generic ("stat", GFC_ISYM_STAT, GFC_STD_GNU);
+ add_sym_2 ("stopped_images", GFC_ISYM_STOPPED_IMAGES, CLASS_TRANSFORMATIONAL,
+ ACTUAL_NO, BT_INTEGER, dd, GFC_STD_F2008_TS,
+ gfc_check_failed_or_stopped_images,
+ gfc_simplify_failed_or_stopped_images,
+ gfc_resolve_stopped_images, "team", BT_VOID, di, OPTIONAL,
+ "kind", BT_INTEGER, di, OPTIONAL);
+
add_sym_2 ("storage_size", GFC_ISYM_STORAGE_SIZE, CLASS_INQUIRY, ACTUAL_NO,
BT_INTEGER, di, GFC_STD_F2008,
gfc_check_storage_size, gfc_simplify_storage_size,
bool gfc_check_eoshift (gfc_expr *, gfc_expr *, gfc_expr *, gfc_expr *);
bool gfc_check_dtime_etime (gfc_expr *);
bool gfc_check_event_query (gfc_expr *, gfc_expr *, gfc_expr *);
+bool gfc_check_failed_or_stopped_images (gfc_expr *, gfc_expr *);
bool gfc_check_fgetputc (gfc_expr *, gfc_expr *);
bool gfc_check_fgetput (gfc_expr *);
bool gfc_check_float (gfc_expr *);
bool gfc_check_ichar_iachar (gfc_expr *, gfc_expr *);
bool gfc_check_idnint (gfc_expr *);
bool gfc_check_ieor (gfc_expr *, gfc_expr *);
+bool gfc_check_image_status (gfc_expr *, gfc_expr *);
bool gfc_check_index (gfc_expr *, gfc_expr *, gfc_expr *, gfc_expr *);
bool gfc_check_int (gfc_expr *, gfc_expr *);
bool gfc_check_intconv (gfc_expr *);
gfc_expr *gfc_simplify_exp (gfc_expr *);
gfc_expr *gfc_simplify_exponent (gfc_expr *);
gfc_expr *gfc_simplify_extends_type_of (gfc_expr *, gfc_expr *);
+gfc_expr *gfc_simplify_failed_or_stopped_images (gfc_expr *, gfc_expr *);
gfc_expr *gfc_simplify_float (gfc_expr *);
gfc_expr *gfc_simplify_floor (gfc_expr *, gfc_expr *);
gfc_expr *gfc_simplify_fraction (gfc_expr *);
gfc_expr *gfc_simplify_ichar (gfc_expr *, gfc_expr *);
gfc_expr *gfc_simplify_ieor (gfc_expr *, gfc_expr *);
gfc_expr *gfc_simplify_image_index (gfc_expr *, gfc_expr *);
+gfc_expr *gfc_simplify_image_status (gfc_expr *, gfc_expr *);
gfc_expr *gfc_simplify_index (gfc_expr *, gfc_expr *, gfc_expr *, gfc_expr *);
gfc_expr *gfc_simplify_int (gfc_expr *, gfc_expr *);
gfc_expr *gfc_simplify_int2 (gfc_expr *);
void gfc_resolve_exp (gfc_expr *, gfc_expr *);
void gfc_resolve_exponent (gfc_expr *, gfc_expr *);
void gfc_resolve_extends_type_of (gfc_expr *, gfc_expr *, gfc_expr *);
+void gfc_resolve_failed_images (gfc_expr *, gfc_expr *, gfc_expr *);
void gfc_resolve_fdate (gfc_expr *);
void gfc_resolve_floor (gfc_expr *, gfc_expr *, gfc_expr *);
void gfc_resolve_fnum (gfc_expr *, gfc_expr *);
void gfc_resolve_ibits (gfc_expr *, gfc_expr *, gfc_expr *, gfc_expr *);
void gfc_resolve_ibset (gfc_expr *, gfc_expr *, gfc_expr *);
void gfc_resolve_image_index (gfc_expr *, gfc_expr *, gfc_expr *);
+void gfc_resolve_image_status (gfc_expr *, gfc_expr *, gfc_expr *);
void gfc_resolve_index_func (gfc_expr *, gfc_expr *, gfc_expr *, gfc_expr *,
gfc_expr *);
void gfc_resolve_ierrno (gfc_expr *);
void gfc_resolve_sin (gfc_expr *, gfc_expr *);
void gfc_resolve_sinh (gfc_expr *, gfc_expr *);
void gfc_resolve_size (gfc_expr *, gfc_expr *, gfc_expr *, gfc_expr *);
-void gfc_resolve_stride (gfc_expr *, gfc_expr *, gfc_expr *);
void gfc_resolve_spacing (gfc_expr *, gfc_expr *);
void gfc_resolve_spread (gfc_expr *, gfc_expr *, gfc_expr *, gfc_expr *);
void gfc_resolve_sqrt (gfc_expr *, gfc_expr *);
void gfc_resolve_stat (gfc_expr *, gfc_expr *, gfc_expr *);
+void gfc_resolve_stopped_images (gfc_expr *, gfc_expr *, gfc_expr *);
void gfc_resolve_storage_size (gfc_expr *f, gfc_expr *a, gfc_expr *kind);
+void gfc_resolve_stride (gfc_expr *, gfc_expr *, gfc_expr *);
void gfc_resolve_srand (gfc_code *);
void gfc_resolve_sum (gfc_expr *, gfc_expr *, gfc_expr *, gfc_expr *);
void gfc_resolve_symlnk (gfc_expr *, gfc_expr *, gfc_expr *);
}
+/* Resolve failed_images (team, kind). */
+
+void
+gfc_resolve_failed_images (gfc_expr *f, gfc_expr *team ATTRIBUTE_UNUSED,
+ gfc_expr *kind)
+{
+ static char failed_images[] = "_gfortran_caf_failed_images";
+ f->rank = 1;
+ f->ts.type = BT_INTEGER;
+ if (kind == NULL)
+ f->ts.kind = gfc_default_integer_kind;
+ else
+ gfc_extract_int (kind, &f->ts.kind);
+ f->value.function.name = failed_images;
+}
+
+
+/* Resolve image_status (image, team). */
+
+void
+gfc_resolve_image_status (gfc_expr *f, gfc_expr *image ATTRIBUTE_UNUSED,
+ gfc_expr *team ATTRIBUTE_UNUSED)
+{
+ static char image_status[] = "_gfortran_caf_image_status";
+ f->ts.type = BT_INTEGER;
+ f->ts.kind = gfc_default_integer_kind;
+ f->value.function.name = image_status;
+}
+
+
+/* Resolve image_index (...). */
+
void
gfc_resolve_image_index (gfc_expr *f, gfc_expr *array ATTRIBUTE_UNUSED,
gfc_expr *sub ATTRIBUTE_UNUSED)
}
+/* Resolve stopped_images (team, kind). */
+
+void
+gfc_resolve_stopped_images (gfc_expr *f, gfc_expr *team ATTRIBUTE_UNUSED,
+ gfc_expr *kind)
+{
+ static char stopped_images[] = "_gfortran_caf_stopped_images";
+ f->rank = 1;
+ f->ts.type = BT_INTEGER;
+ if (kind == NULL)
+ f->ts.kind = gfc_default_integer_kind;
+ else
+ gfc_extract_int (kind, &f->ts.kind);
+ f->value.function.name = stopped_images;
+}
+
+
void
gfc_resolve_this_image (gfc_expr *f, gfc_expr *array, gfc_expr *dim,
gfc_expr *distance ATTRIBUTE_UNUSED)
}
libgfortran_error_codes;
-/* Must kept in sync with libgfortrancaf.h. */
+/* Must kept in sync with libgfortran/caf/libcaf.h. */
typedef enum
{
GFC_STAT_UNLOCKED = 0,
GFC_STAT_LOCKED,
GFC_STAT_LOCKED_OTHER_IMAGE,
GFC_STAT_STOPPED_IMAGE = 6000, /* See LIBERROR_INQUIRE_INTERNAL_UNIT above. */
- GFC_STAT_FAILED_IMAGE
+ GFC_STAT_FAILED_IMAGE = 6001
}
libgfortran_stat_codes;
match ("event post", gfc_match_event_post, ST_EVENT_POST)
match ("event wait", gfc_match_event_wait, ST_EVENT_WAIT)
match ("exit", gfc_match_exit, ST_EXIT)
+ match ("fail image", gfc_match_fail_image, ST_FAIL_IMAGE)
match ("flush", gfc_match_flush, ST_FLUSH)
match ("forall", match_simple_forall, ST_FORALL)
match ("go to", gfc_match_goto, ST_GOTO)
}
+/* Match a FAIL IMAGE statement. */
+
+match
+gfc_match_fail_image (void)
+{
+ if (!gfc_notify_std (GFC_STD_F2008_TS, "FAIL IMAGE statement at %C"))
+ return MATCH_ERROR;
+
+ if (gfc_match_char ('(') == MATCH_YES)
+ goto syntax;
+
+ new_st.op = EXEC_FAIL_IMAGE;
+
+ return MATCH_YES;
+
+syntax:
+ gfc_syntax_error (ST_FAIL_IMAGE);
+
+ return MATCH_ERROR;
+}
+
+
/* Match LOCK/UNLOCK statement. Syntax:
LOCK ( lock-variable [ , lock-stat-list ] )
UNLOCK ( lock-variable [ , sync-stat-list ] )
match gfc_match_event_post (void);
match gfc_match_event_wait (void);
match gfc_match_critical (void);
+match gfc_match_fail_image (void);
match gfc_match_block (void);
match gfc_match_associate (void);
match gfc_match_do (void);
break;
case 'f':
+ match ("fail image", gfc_match_fail_image, ST_FAIL_IMAGE);
match ("final", gfc_match_final_decl, ST_FINAL);
match ("flush", gfc_match_flush, ST_FLUSH);
match ("format", gfc_match_format, ST_FORMAT);
case ST_OMP_TARGET_EXIT_DATA: case ST_OMP_ORDERED_DEPEND: \
case ST_ERROR_STOP: case ST_SYNC_ALL: \
case ST_SYNC_IMAGES: case ST_SYNC_MEMORY: case ST_LOCK: case ST_UNLOCK: \
- case ST_EVENT_POST: case ST_EVENT_WAIT: \
+ case ST_EVENT_POST: case ST_EVENT_WAIT: case ST_FAIL_IMAGE: \
case ST_OACC_UPDATE: case ST_OACC_WAIT: case ST_OACC_CACHE: \
case ST_OACC_ENTER_DATA: case ST_OACC_EXIT_DATA
case ST_EVENT_WAIT:
p = "EVENT WAIT";
break;
+ case ST_FAIL_IMAGE:
+ p = "FAIL IMAGE";
+ break;
case ST_END_ASSOCIATE:
p = "END ASSOCIATE";
break;
resolve_lock_unlock_event (code);
break;
+ case EXEC_FAIL_IMAGE:
+ break;
+
case EXEC_ENTRY:
/* Keep track of which entry we are up to. */
current_entry_id = code->ext.entry->id;
}
+gfc_expr *
+gfc_simplify_failed_or_stopped_images (gfc_expr *team ATTRIBUTE_UNUSED,
+ gfc_expr *kind)
+{
+ if (flag_coarray == GFC_FCOARRAY_NONE)
+ {
+ gfc_current_locus = *gfc_current_intrinsic_where;
+ gfc_fatal_error ("Coarrays disabled at %C, use %<-fcoarray=%> to enable");
+ return &gfc_bad_expr;
+ }
+
+ if (flag_coarray == GFC_FCOARRAY_SINGLE)
+ {
+ gfc_expr *result;
+ int actual_kind;
+ if (kind)
+ gfc_extract_int (kind, &actual_kind);
+ else
+ actual_kind = gfc_default_integer_kind;
+
+ result = gfc_get_array_expr (BT_INTEGER, actual_kind, &gfc_current_locus);
+ result->rank = 1;
+ return result;
+ }
+
+ /* For fcoarray = lib no simplification is possible, because it is not known
+ what images failed or are stopped at compile time. */
+ return NULL;
+}
+
+
gfc_expr *
gfc_simplify_float (gfc_expr *a)
{
return result;
}
+gfc_expr *
+gfc_simplify_image_status (gfc_expr *image, gfc_expr *team ATTRIBUTE_UNUSED)
+{
+ if (flag_coarray == GFC_FCOARRAY_NONE)
+ {
+ gfc_current_locus = *gfc_current_intrinsic_where;
+ gfc_fatal_error ("Coarrays disabled at %C, use %<-fcoarray=%> to enable");
+ return &gfc_bad_expr;
+ }
+
+ /* Simplification is possible for fcoarray = single only. For all other modes
+ the result depends on runtime conditions. */
+ if (flag_coarray != GFC_FCOARRAY_SINGLE)
+ return NULL;
+
+ if (gfc_is_constant_expr (image))
+ {
+ gfc_expr *result;
+ result = gfc_get_constant_expr (BT_INTEGER, gfc_default_integer_kind,
+ &image->where);
+ if (mpz_get_si (image->value.integer) == 1)
+ mpz_set_si (result->value.integer, 0);
+ else
+ mpz_set_si (result->value.integer, GFC_STAT_STOPPED_IMAGE);
+ return result;
+ }
+ else
+ return NULL;
+}
+
gfc_expr *
gfc_simplify_this_image (gfc_expr *coarray, gfc_expr *dim,
case EXEC_UNLOCK:
case EXEC_EVENT_POST:
case EXEC_EVENT_WAIT:
+ case EXEC_FAIL_IMAGE:
break;
case EXEC_BLOCK:
tree gfor_fndecl_caf_event_post;
tree gfor_fndecl_caf_event_wait;
tree gfor_fndecl_caf_event_query;
+tree gfor_fndecl_caf_fail_image;
+tree gfor_fndecl_caf_failed_images;
+tree gfor_fndecl_caf_image_status;
+tree gfor_fndecl_caf_stopped_images;
tree gfor_fndecl_co_broadcast;
tree gfor_fndecl_co_max;
tree gfor_fndecl_co_min;
void_type_node, 5, pvoid_type_node, size_type_node, integer_type_node,
pint_type, pint_type);
+ gfor_fndecl_caf_fail_image = gfc_build_library_function_decl (
+ get_identifier (PREFIX("caf_fail_image")), void_type_node, 0);
+ /* CAF's FAIL doesn't return. */
+ TREE_THIS_VOLATILE (gfor_fndecl_caf_fail_image) = 1;
+
+ gfor_fndecl_caf_failed_images
+ = gfc_build_library_function_decl_with_spec (
+ get_identifier (PREFIX("caf_failed_images")), "WRR",
+ void_type_node, 3, pvoid_type_node, ppvoid_type_node,
+ integer_type_node);
+
+ gfor_fndecl_caf_image_status
+ = gfc_build_library_function_decl_with_spec (
+ get_identifier (PREFIX("caf_image_status")), "RR",
+ integer_type_node, 2, integer_type_node, ppvoid_type_node);
+
+ gfor_fndecl_caf_stopped_images
+ = gfc_build_library_function_decl_with_spec (
+ get_identifier (PREFIX("caf_stopped_images")), "WRR",
+ void_type_node, 3, pvoid_type_node, ppvoid_type_node,
+ integer_type_node);
+
gfor_fndecl_co_broadcast = gfc_build_library_function_decl_with_spec (
get_identifier (PREFIX("caf_co_broadcast")), "W.WW",
void_type_node, 5, pvoid_type_node, integer_type_node,
gfc_add_block_to_block (&se->pre, &post);
/* Transformational functions of derived types with allocatable
- components must have the result allocatable components copied. */
+ components must have the result allocatable components copied when the
+ argument is actually given. */
arg = expr->value.function.actual;
if (result && arg && expr->rank
- && expr->value.function.isym
- && expr->value.function.isym->transformational
- && arg->expr->ts.type == BT_DERIVED
- && arg->expr->ts.u.derived->attr.alloc_comp)
+ && expr->value.function.isym
+ && expr->value.function.isym->transformational
+ && arg->expr
+ && arg->expr->ts.type == BT_DERIVED
+ && arg->expr->ts.u.derived->attr.alloc_comp)
{
tree tmp2;
/* Copy the allocatable components. We have to use a
}
+/* Convert a call to image_status. */
+
+static void
+conv_intrinsic_image_status (gfc_se *se, gfc_expr *expr)
+{
+ unsigned int num_args;
+ tree *args, tmp;
+
+ num_args = gfc_intrinsic_argument_list_length (expr);
+ args = XALLOCAVEC (tree, num_args);
+ gfc_conv_intrinsic_function_args (se, expr, args, num_args);
+ /* In args[0] the number of the image the status is desired for has to be
+ given. */
+
+ if (flag_coarray == GFC_FCOARRAY_SINGLE)
+ {
+ tree arg;
+ arg = gfc_evaluate_now (args[0], &se->pre);
+ tmp = fold_build2_loc (input_location, EQ_EXPR, boolean_type_node,
+ fold_convert (integer_type_node, arg),
+ integer_one_node);
+ tmp = fold_build3_loc (input_location, COND_EXPR, integer_type_node,
+ tmp, integer_zero_node,
+ build_int_cst (integer_type_node,
+ GFC_STAT_STOPPED_IMAGE));
+ }
+ else if (flag_coarray == GFC_FCOARRAY_LIB)
+ tmp = build_call_expr_loc (input_location, gfor_fndecl_caf_image_status, 2,
+ args[0], build_int_cst (integer_type_node, -1));
+ else
+ gcc_unreachable ();
+
+ se->expr = tmp;
+}
+
+
static void
trans_image_index (gfc_se * se, gfc_expr *expr)
{
trans_image_index (se, expr);
break;
+ case GFC_ISYM_IMAGE_STATUS:
+ conv_intrinsic_image_status (se, expr);
+ break;
+
case GFC_ISYM_NUM_IMAGES:
trans_num_images (se, expr);
break;
/* Ignore absent optional parameters. */
return 1;
- case GFC_ISYM_RESHAPE:
case GFC_ISYM_CSHIFT:
case GFC_ISYM_EOSHIFT:
+ case GFC_ISYM_FAILED_IMAGES:
+ case GFC_ISYM_STOPPED_IMAGES:
case GFC_ISYM_PACK:
+ case GFC_ISYM_RESHAPE:
case GFC_ISYM_UNPACK:
/* Pass absent optional parameters. */
return 2;
return gfc_finish_block (&se.pre);
}
+/* Translate the FAIL IMAGE statement. */
+
+tree
+gfc_trans_fail_image (gfc_code *code ATTRIBUTE_UNUSED)
+{
+ if (flag_coarray == GFC_FCOARRAY_LIB)
+ return build_call_expr_loc (input_location,
+ gfor_fndecl_caf_fail_image, 1,
+ build_int_cst (pchar_type_node, 0));
+ else
+ {
+ const char *name = gfc_get_string (PREFIX ("exit_i%d"), 4);
+ gfc_symbol *exsym = gfc_get_intrinsic_sub_symbol (name);
+ tree tmp = gfc_get_symbol_decl (exsym);
+ return build_call_expr_loc (input_location, tmp, 1, integer_zero_node);
+ }
+}
+
tree
gfc_trans_lock_unlock (gfc_code *code, gfc_exec_op op)
tree gfc_trans_sync (gfc_code *, gfc_exec_op);
tree gfc_trans_lock_unlock (gfc_code *, gfc_exec_op);
tree gfc_trans_event_post_wait (gfc_code *, gfc_exec_op);
+tree gfc_trans_fail_image (gfc_code *);
tree gfc_trans_forall (gfc_code *);
tree gfc_trans_where (gfc_code *);
tree gfc_trans_allocate (gfc_code *);
res = gfc_trans_event_post_wait (code, code->op);
break;
+ case EXEC_FAIL_IMAGE:
+ res = gfc_trans_fail_image (code);
+ break;
+
case EXEC_FORALL:
res = gfc_trans_forall (code);
break;
extern GTY(()) tree gfor_fndecl_caf_event_post;
extern GTY(()) tree gfor_fndecl_caf_event_wait;
extern GTY(()) tree gfor_fndecl_caf_event_query;
+extern GTY(()) tree gfor_fndecl_caf_fail_image;
+extern GTY(()) tree gfor_fndecl_caf_failed_images;
+extern GTY(()) tree gfor_fndecl_caf_image_status;
+extern GTY(()) tree gfor_fndecl_caf_stopped_images;
extern GTY(()) tree gfor_fndecl_co_broadcast;
extern GTY(()) tree gfor_fndecl_co_max;
extern GTY(()) tree gfor_fndecl_co_min;
+2017-03-05 Andre Vehreschild <vehre@gcc.gnu.org>
+ Alessandro Fanfarillo <fanfarillo.gcc@gmail.com>
+
+ * gfortran.dg/coarray/fail_image_1.f08: New test.
+ * gfortran.dg/coarray/fail_image_2.f08: New test.
+ * gfortran.dg/coarray/failed_images_1.f08: New test.
+ * gfortran.dg/coarray/failed_images_2.f08: New test.
+ * gfortran.dg/coarray/image_status_1.f08: New test.
+ * gfortran.dg/coarray/image_status_2.f08: New test.
+ * gfortran.dg/coarray/stopped_images_1.f08: New test.
+ * gfortran.dg/coarray/stopped_images_2.f08: New test.
+ * gfortran.dg/coarray_fail_st.f90: New test.
+ * gfortran.dg/coarray_failed_images_1.f08: New test.
+ * gfortran.dg/coarray_image_status_1.f08: New test.
+ * gfortran.dg/coarray_stopped_images_1.f08: New test.
+
2017-03-03 Marek Polacek <polacek@redhat.com>
PR c/79758
--- /dev/null
+! { dg-do compile }
+
+program fail_image_statement_1
+ implicit none
+
+ fail image ! OK
+ fail image (1) ! { dg-error "Syntax error in FAIL IMAGE statement at \\(1\\)" }
+
+end program fail_image_statement_1
+
--- /dev/null
+! { dg-do run }
+
+program fail_image_statement_2
+ implicit none
+
+ fail image ! OK
+ error stop "This statement should not be reached."
+
+end program fail_image_statement_2
+
--- /dev/null
+! { dg-do compile }
+
+program test_failed_images_1
+ implicit none
+
+ integer, allocatable :: fi(:)
+ real :: r
+ integer :: i
+
+ fi = failed_images() ! OK
+ fi = failed_images(TEAM=1) ! { dg-error "'team' argument of 'failed_images' intrinsic at \\(1\\) not yet supported" }
+ fi = failed_images(KIND=1) ! OK
+ fi = failed_images(KIND=4) ! OK
+ fi = failed_images(KIND=0) ! { dg-error "'kind' argument of 'failed_images' intrinsic at \\\(1\\\) must be positive" }
+ fi = failed_images(KIND=r) ! { dg-error "'kind' argument of 'failed_images' intrinsic at \\\(1\\\) must be INTEGER" }
+ fi = failed_images(KIND=i) ! { dg-error "Constant expression required at \\\(1\\\)" }
+ fi = failed_images(KIND=42) ! { dg-error "'kind' argument of 'failed_images' intrinsic at \\\(1\\\) shall specify a valid integer kind" }
+
+end program test_failed_images_1
+
--- /dev/null
+! { dg-do run }
+
+program test_failed_images_2
+ implicit none
+
+ integer, allocatable :: fi(:)
+ integer(kind=1), allocatable :: sfi(:)
+
+ fi = failed_images()
+ if (size(fi) > 0) error stop "failed_images result shall be empty array"
+ sfi = failed_images(KIND=1)
+ if (size(sfi) > 0) error stop "failed_images result shall be empty array"
+ sfi = failed_images(KIND=8)
+ if (size(sfi) > 0) error stop "failed_images result shall be empty array"
+
+end program test_failed_images_2
+
--- /dev/null
+! { dg-do compile }
+
+program test_image_status_1
+ implicit none
+
+ integer :: isv
+ integer(kind=1) :: k1
+ integer(kind=2) :: k2
+ integer(kind=4) :: k4
+ integer(kind=8) :: k8
+
+ isv = image_status(1) ! Ok
+ isv = image_status(-1) ! { dg-error "'image' argument of 'image_status' intrinsic at \\(1\\) must be positive" }
+ isv = image_status(0) ! { dg-error "'image' argument of 'image_status' intrinsic at \\(1\\) must be positive" }
+ isv = image_status(.true.) ! { dg-error "'image' argument of 'image_status' intrinsic at \\(1\\) must be INTEGER" }
+ isv = image_status([1,2,3]) ! { dg-error "'image' argument of 'image_status' intrinsic at \\(1\\) must be a scalar" }
+ isv = image_status(k1) ! Ok
+ isv = image_status(k2) ! Ok
+ isv = image_status(k4) ! Ok
+ isv = image_status(k8) ! Ok
+ isv = image_status(1, team=1) ! { dg-error "'team' argument of 'image_status' intrinsic at \\(1\\) not yet supported" }
+ isv = image_status() ! { dg-error "Missing actual argument 'image' in call to 'image_status' at \\(1\\)" }
+ isv = image_status(team=1) ! { dg-error "Missing actual argument 'image' in call to 'image_status' at \\(1\\)" }
+
+end program test_image_status_1
+
--- /dev/null
+! { dg-do run }
+
+program test_image_status_2
+ use iso_fortran_env , only : STAT_STOPPED_IMAGE
+ implicit none
+
+ if (image_status(1) /= 0) error stop "Image 1 should report OK."
+ if (image_status(2) /= STAT_STOPPED_IMAGE) error stop "Image 2 should be stopped."
+ if (image_status(3) /= STAT_STOPPED_IMAGE) error stop "Image 3 should be stopped."
+
+end program test_image_status_2
+
--- /dev/null
+! { dg-do compile }
+
+program test_stopped_images_1
+ implicit none
+
+ integer, allocatable :: gi(:)
+ real :: r
+ integer :: i
+
+ gi = stopped_images() ! OK
+ gi = stopped_images(TEAM=1) ! { dg-error "'team' argument of 'stopped_images' intrinsic at \\(1\\) not yet supported" }
+ gi = stopped_images(KIND=1) ! OK
+ gi = stopped_images(KIND=4) ! OK
+ gi = stopped_images(KIND=0) ! { dg-error "'kind' argument of 'stopped_images' intrinsic at \\\(1\\\) must be positive" }
+ gi = stopped_images(KIND=r) ! { dg-error "'kind' argument of 'stopped_images' intrinsic at \\\(1\\\) must be INTEGER" }
+ gi = stopped_images(KIND=i) ! { dg-error "Constant expression required at \\\(1\\\)" }
+ gi = stopped_images(KIND=42) ! { dg-error "'kind' argument of 'stopped_images' intrinsic at \\\(1\\\) shall specify a valid integer kind" }
+
+end program test_stopped_images_1
+
--- /dev/null
+! { dg-do run }
+
+program test_stopped_images_2
+ implicit none
+
+ integer, allocatable :: si(:)
+ integer(kind=1), allocatable :: ssi(:)
+
+ si = stopped_images()
+ if (size(si) > 0) error stop "stopped_images result shall be empty array"
+ ssi = stopped_images(KIND=1)
+ if (size(ssi) > 0) error stop "stopped_images result shall be empty array"
+ ssi = stopped_images(KIND=8)
+ if (size(ssi) > 0) error stop "stopped_images result shall be empty array"
+
+end program test_stopped_images_2
+
--- /dev/null
+! { dg-do compile }
+! { dg-options "-fdump-tree-original -fcoarray=lib" }
+!
+program fail_statement
+ implicit none
+
+ integer :: me,np,stat
+
+ me = this_image()
+ np = num_images()
+ stat = 0
+
+ if(me == 1) fail image
+
+ sync all(stat=stat)
+
+ if(stat /= 0) write(*,*) 'Image failed during sync'
+
+end program fail_statement
+
+! { dg-final { scan-tree-dump-times "_gfortran_caf_fail_image \\\(0B\\\);" 1 "original" } }
--- /dev/null
+! { dg-do run }
+! { dg-options "-fdump-tree-original -fcoarray=lib -lcaf_single" }
+
+program test_failed_images_1
+ implicit none
+
+ integer :: me,np,stat
+ character(len=1) :: c
+ integer, allocatable :: fi(:)
+ integer(kind=1), allocatable :: sfi(:)
+
+ fi = failed_images()
+ if (size(fi) > 0) error stop "failed_images result shall be empty array"
+ if (allocated(fi)) error stop "failed_images result shall not be allocated"
+
+ sfi = failed_images(KIND=1)
+ if (size(sfi) > 0) error stop "failed_images result shall be empty array"
+ if (allocated(sfi)) error stop "failed_images result shall not be allocated"
+
+ sfi = failed_images(KIND=8)
+ if (size(sfi) > 0) error stop "failed_images result shall be empty array"
+! The implicit type conversion in the assignment above allocates an array.
+! if (allocated(sfi)) error stop "failed_images result shall not be allocated"
+
+end program test_failed_images_1
+
+! { dg-final { scan-tree-dump-times "_gfortran_caf_failed_images \\\(&D\\\.\[0-9\]+, 0B, 0B\\\);" 1 "original" } }
+! { dg-final { scan-tree-dump-times "_gfortran_caf_failed_images \\\(&D\\\.\[0-9\]+, 0B, D\\\.\[0-9\]+\\\);" 1 "original" } }
+! { dg-final { scan-tree-dump-times "_gfortran_caf_failed_images \\\(&D\\\.\[0-9\]+, 0B, D\\\.\[0-9\]+\\\);" 1 "original" } }
--- /dev/null
+! { dg-do run }
+! { dg-options "-fcoarray=lib -lcaf_single -fdump-tree-original" }
+
+program test_image_status_1
+ use iso_fortran_env , only : STAT_STOPPED_IMAGE
+ implicit none
+
+ if (image_status(1) /= 0) error stop "image_status(1) should not fail"
+ if (image_status(42) /= STAT_STOPPED_IMAGE) error stop "image_status(42) should report stopped image"
+
+end program test_image_status_1
+
+! { dg-final { scan-tree-dump-times "_gfortran_caf_image_status \\\(1, .+\\\)" 1 "original" } }
+! { dg-final { scan-tree-dump-times "_gfortran_caf_image_status \\\(42, .+\\\)" 1 "original" } }
+
+
--- /dev/null
+! { dg-do run }
+! { dg-options "-fdump-tree-original -fcoarray=lib -lcaf_single" }
+
+program test_stopped_images_1
+ implicit none
+
+ integer :: me,np,stat
+ character(len=1) :: c
+ integer, allocatable :: si(:)
+ integer(kind=1), allocatable :: ssi(:)
+
+ si = stopped_images()
+ if (size(si) > 0) error stop "stopped_images result shall be empty array at 1"
+ if (allocated(si)) error stop "stopped_images result shall not be allocated at 1"
+
+ ssi = stopped_images(KIND=1)
+ if (size(ssi) > 0) error stop "stopped_images result shall be empty array at 2"
+ if (allocated(ssi)) error stop "stopped_images result shall not be allocated at 2"
+
+ ssi = stopped_images(KIND=8)
+ if (size(ssi) > 0) error stop "stopped_images result shall be empty array at 3"
+! The implicit type conversion in the assignment above allocates an array.
+! if (allocated(ssi)) error stop "stopped_images result shall not be allocated at 3"
+
+end program test_stopped_images_1
+
+! { dg-final { scan-tree-dump-times "_gfortran_caf_stopped_images \\\(&D\\\.\[0-9\]+, 0B, 0B\\\);" 1 "original" } }
+! { dg-final { scan-tree-dump-times "_gfortran_caf_stopped_images \\\(&D\\\.\[0-9\]+, 0B, D\\\.\[0-9\]+\\\);" 1 "original" } }
+! { dg-final { scan-tree-dump-times "_gfortran_caf_stopped_images \\\(&D\\\.\[0-9\]+, 0B, D\\\.\[0-9\]+\\\);" 1 "original" } }
+2017-03-05 Andre Vehreschild <vehre@gcc.gnu.org>
+ Alessandro Fanfarillo <fanfarillo.gcc@gmail.com>
+
+ * caf/libcaf.h: Added prototypes and stat codes for failed and stopped
+ images.
+ * caf/single.c (void _gfortran_caf_fail_image): Add the routine.
+ (int _gfortran_caf_image_status): Same.
+ (_gfortran_caf_failed_images): Same.
+ (_gfortran_caf_stopped_images): Same.
+
2017-03-02 Thomas Koenig <tkoenig@gcc.gnu.org>
Jakub Jelinek <jakub@redhat.com>
#define likely(x) __builtin_expect(!!(x), 1)
#define unlikely(x) __builtin_expect(!!(x), 0)
#endif
+#endif
/* Definitions of the Fortran 2008 standard; need to kept in sync with
- ISO_FORTRAN_ENV, cf. libgfortran.h. */
-#define STAT_UNLOCKED 0
-#define STAT_LOCKED 1
-#define STAT_LOCKED_OTHER_IMAGE 2
-#define STAT_STOPPED_IMAGE 6000
-#endif
+ ISO_FORTRAN_ENV, cf. gcc/fortran/libgfortran.h. */
+typedef enum
+{
+ CAF_STAT_UNLOCKED = 0,
+ CAF_STAT_LOCKED,
+ CAF_STAT_LOCKED_OTHER_IMAGE,
+ CAF_STAT_STOPPED_IMAGE = 6000,
+ CAF_STAT_FAILED_IMAGE = 6001
+}
+caf_stat_codes_t;
+
/* Describes what type of array we are registerring. Keep in sync with
gcc/fortran/trans.h. */
caf_deregister_t;
typedef void* caf_token_t;
+typedef void * caf_team_t;
typedef gfc_array_void gfc_descriptor_t;
/* Linked list of static coarrays registered. */
void _gfortran_caf_error_stop_str (const char *, int32_t)
__attribute__ ((noreturn));
void _gfortran_caf_error_stop (int32_t) __attribute__ ((noreturn));
+void _gfortran_caf_fail_image (void) __attribute__ ((noreturn));
void _gfortran_caf_co_broadcast (gfc_descriptor_t *, int, int *, char *, int);
void _gfortran_caf_co_sum (gfc_descriptor_t *, int, int *, char *, int);
void _gfortran_caf_event_wait (caf_token_t, size_t, int, int *, char *, int);
void _gfortran_caf_event_query (caf_token_t, size_t, int, int *, int *);
+void _gfortran_caf_failed_images (gfc_descriptor_t *,
+ caf_team_t * __attribute__ ((unused)), int *);
+int _gfortran_caf_image_status (int, caf_team_t * __attribute__ ((unused)));
+void _gfortran_caf_stopped_images (gfc_descriptor_t *,
+ caf_team_t * __attribute__ ((unused)),
+ int *);
+
int _gfortran_caf_is_present (caf_token_t, int, caf_reference_t *);
#endif /* LIBCAF_H */
*stat = 0;
}
+
void
_gfortran_caf_stop_numeric(int32_t stop_code)
{
exit (0);
}
+
void
_gfortran_caf_stop_str(const char *string, int32_t len)
{
exit (0);
}
+
void
_gfortran_caf_error_stop_str (const char *string, int32_t len)
{
}
+/* Reported that the program terminated because of a fail image issued.
+ Because this is a single image library, nothing else than aborting the whole
+ program can be done. */
+
+void _gfortran_caf_fail_image (void)
+{
+ fputs ("IMAGE FAILED!\n", stderr);
+ exit (0);
+}
+
+
+/* Get the status of image IMAGE. Because being the single image library all
+ other images are reported to be stopped. */
+
+int _gfortran_caf_image_status (int image,
+ caf_team_t * team __attribute__ ((unused)))
+{
+ if (image == 1)
+ return 0;
+ else
+ return CAF_STAT_STOPPED_IMAGE;
+}
+
+
+/* Single image library. There can not be any failed images with only one
+ image. */
+
+void
+_gfortran_caf_failed_images (gfc_descriptor_t *array,
+ caf_team_t * team __attribute__ ((unused)),
+ int * kind)
+{
+ int local_kind = kind != NULL ? *kind : 4;
+
+ array->base_addr = NULL;
+ array->dtype = ((BT_INTEGER << GFC_DTYPE_TYPE_SHIFT)
+ | (local_kind << GFC_DTYPE_SIZE_SHIFT));
+ /* Setting lower_bound higher then upper_bound is what the compiler does to
+ indicate an empty array. */
+ array->dim[0].lower_bound = 0;
+ array->dim[0]._ubound = -1;
+ array->dim[0]._stride = 1;
+ array->offset = 0;
+}
+
+
+/* With only one image available no other images can be stopped. Therefore
+ return an empty array. */
+
+void
+_gfortran_caf_stopped_images (gfc_descriptor_t *array,
+ caf_team_t * team __attribute__ ((unused)),
+ int * kind)
+{
+ int local_kind = kind != NULL ? *kind : 4;
+
+ array->base_addr = NULL;
+ array->dtype = ((BT_INTEGER << GFC_DTYPE_TYPE_SHIFT)
+ | (local_kind << GFC_DTYPE_SIZE_SHIFT));
+ /* Setting lower_bound higher then upper_bound is what the compiler does to
+ indicate an empty array. */
+ array->dim[0].lower_bound = 0;
+ array->dim[0]._ubound = -1;
+ array->dim[0]._stride = 1;
+ array->offset = 0;
+}
+
+
void
_gfortran_caf_error_stop (int32_t error)
{