/* Build up a list of intrinsic subroutines and functions for the
name-resolution stage.
- Copyright (C) 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008,
- 2009, 2010, 2011
- Free Software Foundation, Inc.
+ Copyright (C) 2000-2019 Free Software Foundation, Inc.
Contributed by Andy Vaught & Katherine Holcomb
This file is part of GCC.
#include "config.h"
#include "system.h"
-#include "flags.h"
+#include "coretypes.h"
+#include "options.h"
#include "gfortran.h"
#include "intrinsic.h"
/* Return a letter based on the passed type. Used to construct the
- name of a type-dependent subroutine. */
+ name of a type-dependent subroutine. If logical_equals_int is
+ true, we can treat a logical like an int. */
char
-gfc_type_letter (bt type)
+gfc_type_letter (bt type, bool logical_equals_int)
{
char c;
switch (type)
{
case BT_LOGICAL:
- c = 'l';
+ if (logical_equals_int)
+ c = 'i';
+ else
+ c = 'l';
+
break;
case BT_CHARACTER:
c = 's';
}
+/* Check TS29113, C407b for assumed type and C535b for assumed-rank,
+ and a likewise check for NO_ARG_CHECK. */
+
+static bool
+do_ts29113_check (gfc_intrinsic_sym *specific, gfc_actual_arglist *arg)
+{
+ gfc_actual_arglist *a;
+
+ for (a = arg; a; a = a->next)
+ {
+ if (!a->expr)
+ continue;
+
+ if (a->expr->expr_type == EXPR_VARIABLE
+ && (a->expr->symtree->n.sym->attr.ext_attr
+ & (1 << EXT_ATTR_NO_ARG_CHECK))
+ && specific->id != GFC_ISYM_C_LOC
+ && specific->id != GFC_ISYM_PRESENT)
+ {
+ gfc_error ("Variable with NO_ARG_CHECK attribute at %L is only "
+ "permitted as argument to the intrinsic functions "
+ "C_LOC and PRESENT", &a->expr->where);
+ return false;
+ }
+ else if (a->expr->ts.type == BT_ASSUMED
+ && specific->id != GFC_ISYM_LBOUND
+ && specific->id != GFC_ISYM_PRESENT
+ && specific->id != GFC_ISYM_RANK
+ && specific->id != GFC_ISYM_SHAPE
+ && specific->id != GFC_ISYM_SIZE
+ && specific->id != GFC_ISYM_SIZEOF
+ && specific->id != GFC_ISYM_UBOUND
+ && specific->id != GFC_ISYM_IS_CONTIGUOUS
+ && specific->id != GFC_ISYM_C_LOC)
+ {
+ gfc_error ("Assumed-type argument at %L is not permitted as actual"
+ " argument to the intrinsic %s", &a->expr->where,
+ gfc_current_intrinsic);
+ return false;
+ }
+ else if (a->expr->ts.type == BT_ASSUMED && a != arg)
+ {
+ gfc_error ("Assumed-type argument at %L is only permitted as "
+ "first actual argument to the intrinsic %s",
+ &a->expr->where, gfc_current_intrinsic);
+ return false;
+ }
+ if (a->expr->rank == -1 && !specific->inquiry)
+ {
+ gfc_error ("Assumed-rank argument at %L is only permitted as actual "
+ "argument to intrinsic inquiry functions",
+ &a->expr->where);
+ return false;
+ }
+ if (a->expr->rank == -1 && arg != a)
+ {
+ gfc_error ("Assumed-rank argument at %L is only permitted as first "
+ "actual argument to the intrinsic inquiry function %s",
+ &a->expr->where, gfc_current_intrinsic);
+ return false;
+ }
+ }
+
+ return true;
+}
+
+
/* Interface to the check functions. We break apart an argument list
and call the proper check function rather than forcing each
function to manipulate the argument list. */
-static gfc_try
+static bool
do_check (gfc_intrinsic_sym *specific, gfc_actual_arglist *arg)
{
gfc_expr *a1, *a2, *a3, *a4, *a5;
break;
case SZ_NOTHING:
- next_sym->name = gfc_get_string (name);
+ next_sym->name = gfc_get_string ("%s", name);
strcpy (buf, "_gfortran_");
strcat (buf, name);
- next_sym->lib_name = gfc_get_string (buf);
+ next_sym->lib_name = gfc_get_string ("%s", buf);
next_sym->pure = (cl != CLASS_IMPURE);
next_sym->elemental = (cl == CLASS_ELEMENTAL);
static void
add_sym_0 (const char *name, gfc_isym_id id, enum klass cl, int actual_ok, bt type,
int kind, int standard,
- gfc_try (*check) (void),
+ bool (*check) (void),
gfc_expr *(*simplify) (void),
void (*resolve) (gfc_expr *))
{
static void
add_sym_1 (const char *name, gfc_isym_id id, enum klass cl, int actual_ok, bt type,
int kind, int standard,
- gfc_try (*check) (gfc_expr *),
+ bool (*check) (gfc_expr *),
gfc_expr *(*simplify) (gfc_expr *),
void (*resolve) (gfc_expr *, gfc_expr *),
const char *a1, bt type1, int kind1, int optional1)
static void
add_sym_1_intent (const char *name, gfc_isym_id id, enum klass cl,
int actual_ok, bt type, int kind, int standard,
- gfc_try (*check) (gfc_expr *),
+ bool (*check) (gfc_expr *),
gfc_expr *(*simplify) (gfc_expr *),
void (*resolve) (gfc_expr *, gfc_expr *),
const char *a1, bt type1, int kind1, int optional1,
static void
add_sym_1s (const char *name, gfc_isym_id id, enum klass cl, bt type, int kind,
- int standard, gfc_try (*check) (gfc_expr *),
+ int standard, bool (*check) (gfc_expr *),
gfc_expr *(*simplify) (gfc_expr *), void (*resolve) (gfc_code *),
const char *a1, bt type1, int kind1, int optional1,
sym_intent intent1)
(void *) 0);
}
+/* Add a symbol to the subroutine ilst where the subroutine takes one
+ printf-style character argument and a variable number of arguments
+ to follow. */
+
+static void
+add_sym_1p (const char *name, gfc_isym_id id, enum klass cl, bt type, int kind,
+ int standard, bool (*check) (gfc_actual_arglist *),
+ gfc_expr *(*simplify) (gfc_expr*), void (*resolve) (gfc_code *),
+ const char *a1, bt type1, int kind1, int optional1, sym_intent intent1)
+{
+ gfc_check_f cf;
+ gfc_simplify_f sf;
+ gfc_resolve_f rf;
+
+ cf.f1m = check;
+ sf.f1 = simplify;
+ rf.s1 = resolve;
+
+ add_sym (name, id, cl, ACTUAL_NO, type, kind, standard, cf, sf, rf,
+ a1, type1, kind1, optional1, intent1,
+ (void *) 0);
+}
+
/* Add a symbol from the MAX/MIN family of intrinsic functions to the
function. MAX et al take 2 or more arguments. */
static void
add_sym_1m (const char *name, gfc_isym_id id, enum klass cl, int actual_ok, bt type,
int kind, int standard,
- gfc_try (*check) (gfc_actual_arglist *),
+ bool (*check) (gfc_actual_arglist *),
gfc_expr *(*simplify) (gfc_expr *),
void (*resolve) (gfc_expr *, gfc_actual_arglist *),
const char *a1, bt type1, int kind1, int optional1,
static void
add_sym_2 (const char *name, gfc_isym_id id, enum klass cl, int actual_ok, bt type,
int kind, int standard,
- gfc_try (*check) (gfc_expr *, gfc_expr *),
+ bool (*check) (gfc_expr *, gfc_expr *),
gfc_expr *(*simplify) (gfc_expr *, gfc_expr *),
void (*resolve) (gfc_expr *, gfc_expr *, gfc_expr *),
const char *a1, bt type1, int kind1, int optional1,
static void
add_sym_2_intent (const char *name, gfc_isym_id id, enum klass cl,
int actual_ok, bt type, int kind, int standard,
- gfc_try (*check) (gfc_expr *, gfc_expr *),
+ bool (*check) (gfc_expr *, gfc_expr *),
gfc_expr *(*simplify) (gfc_expr *, gfc_expr *),
void (*resolve) (gfc_expr *, gfc_expr *, gfc_expr *),
const char *a1, bt type1, int kind1, int optional1,
static void
add_sym_2s (const char *name, gfc_isym_id id, enum klass cl, bt type,
int kind, int standard,
- gfc_try (*check) (gfc_expr *, gfc_expr *),
+ bool (*check) (gfc_expr *, gfc_expr *),
gfc_expr *(*simplify) (gfc_expr *, gfc_expr *),
void (*resolve) (gfc_code *),
const char *a1, bt type1, int kind1, int optional1,
static void
add_sym_3 (const char *name, gfc_isym_id id, enum klass cl, int actual_ok, bt type,
int kind, int standard,
- gfc_try (*check) (gfc_expr *, gfc_expr *, gfc_expr *),
+ bool (*check) (gfc_expr *, gfc_expr *, gfc_expr *),
gfc_expr *(*simplify) (gfc_expr *, gfc_expr *, gfc_expr *),
void (*resolve) (gfc_expr *, gfc_expr *, gfc_expr *, gfc_expr *),
const char *a1, bt type1, int kind1, int optional1,
}
-/* MINLOC and MAXLOC get special treatment because their argument
- might have to be reordered. */
+/* MINLOC and MAXLOC get special treatment because their
+ argument might have to be reordered. */
static void
-add_sym_3ml (const char *name, gfc_isym_id id, enum klass cl, int actual_ok, bt type,
+add_sym_5ml (const char *name, gfc_isym_id id, enum klass cl, int actual_ok, bt type,
int kind, int standard,
- gfc_try (*check) (gfc_actual_arglist *),
- gfc_expr *(*simplify) (gfc_expr *, gfc_expr *, gfc_expr *),
- void (*resolve) (gfc_expr *, gfc_expr *, gfc_expr *, gfc_expr *),
+ bool (*check) (gfc_actual_arglist *),
+ gfc_expr *(*simplify) (gfc_expr *, gfc_expr *, gfc_expr *,
+ gfc_expr *, gfc_expr *),
+ void (*resolve) (gfc_expr *, gfc_expr *, gfc_expr *, gfc_expr *,
+ gfc_expr *, gfc_expr *),
const char *a1, bt type1, int kind1, int optional1,
const char *a2, bt type2, int kind2, int optional2,
- const char *a3, bt type3, int kind3, int optional3)
+ const char *a3, bt type3, int kind3, int optional3,
+ const char *a4, bt type4, int kind4, int optional4,
+ const char *a5, bt type5, int kind5, int optional5)
{
gfc_check_f cf;
gfc_simplify_f sf;
gfc_resolve_f rf;
- cf.f3ml = check;
- sf.f3 = simplify;
- rf.f3 = resolve;
+ cf.f5ml = check;
+ sf.f5 = simplify;
+ rf.f5 = resolve;
+
+ add_sym (name, id, cl, actual_ok, type, kind, standard, cf, sf, rf,
+ a1, type1, kind1, optional1, INTENT_IN,
+ a2, type2, kind2, optional2, INTENT_IN,
+ a3, type3, kind3, optional3, INTENT_IN,
+ a4, type4, kind4, optional4, INTENT_IN,
+ a5, type5, kind5, optional5, INTENT_IN,
+ (void *) 0);
+}
+
+/* Similar for FINDLOC. */
+
+static void
+add_sym_6fl (const char *name, gfc_isym_id id, enum klass cl, int actual_ok,
+ bt type, int kind, int standard,
+ bool (*check) (gfc_actual_arglist *),
+ gfc_expr *(*simplify) (gfc_expr *, gfc_expr *, gfc_expr *,
+ gfc_expr *, gfc_expr *, gfc_expr *),
+ void (*resolve) (gfc_expr *, gfc_expr *, gfc_expr *, gfc_expr *,
+ gfc_expr *, gfc_expr *, gfc_expr *),
+ const char *a1, bt type1, int kind1, int optional1,
+ const char *a2, bt type2, int kind2, int optional2,
+ const char *a3, bt type3, int kind3, int optional3,
+ const char *a4, bt type4, int kind4, int optional4,
+ const char *a5, bt type5, int kind5, int optional5,
+ const char *a6, bt type6, int kind6, int optional6)
+
+{
+ gfc_check_f cf;
+ gfc_simplify_f sf;
+ gfc_resolve_f rf;
+
+ cf.f6fl = check;
+ sf.f6 = simplify;
+ rf.f6 = resolve;
add_sym (name, id, cl, actual_ok, type, kind, standard, cf, sf, rf,
a1, type1, kind1, optional1, INTENT_IN,
a2, type2, kind2, optional2, INTENT_IN,
a3, type3, kind3, optional3, INTENT_IN,
+ a4, type4, kind4, optional4, INTENT_IN,
+ a5, type5, kind5, optional5, INTENT_IN,
+ a6, type6, kind6, optional6, INTENT_IN,
(void *) 0);
}
static void
add_sym_3red (const char *name, gfc_isym_id id, enum klass cl, int actual_ok, bt type,
int kind, int standard,
- gfc_try (*check) (gfc_actual_arglist *),
+ bool (*check) (gfc_actual_arglist *),
gfc_expr *(*simplify) (gfc_expr *, gfc_expr *, gfc_expr *),
void (*resolve) (gfc_expr *, gfc_expr *, gfc_expr *, gfc_expr *),
const char *a1, bt type1, int kind1, int optional1,
static void
add_sym_3s (const char *name, gfc_isym_id id, enum klass cl, bt type,
int kind, int standard,
- gfc_try (*check) (gfc_expr *, gfc_expr *, gfc_expr *),
+ bool (*check) (gfc_expr *, gfc_expr *, gfc_expr *),
gfc_expr *(*simplify) (gfc_expr *, gfc_expr *, gfc_expr *),
void (*resolve) (gfc_code *),
const char *a1, bt type1, int kind1, int optional1,
static void
add_sym_4 (const char *name, gfc_isym_id id, enum klass cl, int actual_ok, bt type,
int kind, int standard,
- gfc_try (*check) (gfc_expr *, gfc_expr *, gfc_expr *, gfc_expr *),
+ bool (*check) (gfc_expr *, gfc_expr *, gfc_expr *, gfc_expr *),
gfc_expr *(*simplify) (gfc_expr *, gfc_expr *, gfc_expr *,
gfc_expr *),
void (*resolve) (gfc_expr *, gfc_expr *, gfc_expr *, gfc_expr *,
static void
add_sym_4s (const char *name, gfc_isym_id id, enum klass cl, bt type, int kind,
int standard,
- gfc_try (*check) (gfc_expr *, gfc_expr *, gfc_expr *, gfc_expr *),
+ bool (*check) (gfc_expr *, gfc_expr *, gfc_expr *, gfc_expr *),
gfc_expr *(*simplify) (gfc_expr *, gfc_expr *, gfc_expr *,
gfc_expr *),
void (*resolve) (gfc_code *),
static void
add_sym_5s (const char *name, gfc_isym_id id, enum klass cl, bt type, int kind,
int standard,
- gfc_try (*check) (gfc_expr *, gfc_expr *, gfc_expr *, gfc_expr *,
+ bool (*check) (gfc_expr *, gfc_expr *, gfc_expr *, gfc_expr *,
gfc_expr *),
gfc_expr *(*simplify) (gfc_expr *, gfc_expr *, gfc_expr *,
gfc_expr *, gfc_expr *),
int kind3, int optional3, sym_intent intent3, const char *a4,
bt type4, int kind4, int optional4, sym_intent intent4,
const char *a5, bt type5, int kind5, int optional5,
- sym_intent intent5)
+ sym_intent intent5)
{
gfc_check_f cf;
gfc_simplify_f sf;
/* name may be a user-supplied string, so we must first make sure
that we're comparing against a pointer into the global string
table. */
- const char *p = gfc_get_string (name);
+ const char *p = gfc_get_string ("%s", name);
while (n > 0)
{
}
+gfc_isym_id
+gfc_isym_id_by_intmod (intmod_id from_intmod, int intmod_sym_id)
+{
+ if (from_intmod == INTMOD_NONE)
+ return (gfc_isym_id) intmod_sym_id;
+ else if (from_intmod == INTMOD_ISO_C_BINDING)
+ return (gfc_isym_id) c_interop_kinds_table[intmod_sym_id].value;
+ else if (from_intmod == INTMOD_ISO_FORTRAN_ENV)
+ switch (intmod_sym_id)
+ {
+#define NAMED_SUBROUTINE(a,b,c,d) \
+ case a: \
+ return (gfc_isym_id) c;
+#define NAMED_FUNCTION(a,b,c,d) \
+ case a: \
+ return (gfc_isym_id) c;
+#include "iso-fortran-env.def"
+ default:
+ gcc_unreachable ();
+ }
+ else
+ gcc_unreachable ();
+ return (gfc_isym_id) 0;
+}
+
+
+gfc_isym_id
+gfc_isym_id_by_intmod_sym (gfc_symbol *sym)
+{
+ return gfc_isym_id_by_intmod (sym->from_intmod, sym->intmod_sym_id);
+}
+
+
+gfc_intrinsic_sym *
+gfc_intrinsic_subroutine_by_id (gfc_isym_id id)
+{
+ gfc_intrinsic_sym *start = subroutines;
+ int n = nsub;
+
+ while (true)
+ {
+ gcc_assert (n > 0);
+ if (id == start->id)
+ return start;
+
+ start++;
+ n--;
+ }
+}
+
+
gfc_intrinsic_sym *
gfc_intrinsic_function_by_id (gfc_isym_id id)
{
}
-/* Given a symbol, find out if it is (and is to be treated) an intrinsic. If
- it's name refers to an intrinsic but this intrinsic is not included in the
- selected standard, this returns FALSE and sets the symbol's external
+/* Given a symbol, find out if it is (and is to be treated as) an intrinsic.
+ If its name refers to an intrinsic, but this intrinsic is not included in
+ the selected standard, this returns FALSE and sets the symbol's external
attribute. */
bool
gfc_intrinsic_sym* isym;
const char* symstd;
- /* If INTRINSIC/EXTERNAL state is already known, return. */
+ /* If INTRINSIC attribute is already known, return. */
if (sym->attr.intrinsic)
return true;
- if (sym->attr.external)
+
+ /* Check for attributes which prevent the symbol from being INTRINSIC. */
+ if (sym->attr.external || sym->attr.contained
+ || sym->attr.if_source == IFSRC_IFBODY)
return false;
if (subroutine_flag)
return false;
/* See if this intrinsic is allowed in the current standard. */
- if (gfc_check_intrinsic_standard (isym, &symstd, false, loc) == FAILURE)
+ if (!gfc_check_intrinsic_standard (isym, &symstd, false, loc)
+ && !sym->attr.artificial)
{
- if (sym->attr.proc == PROC_UNKNOWN
- && gfc_option.warn_intrinsics_std)
- gfc_warning_now ("The intrinsic '%s' at %L is not included in the"
- " selected standard but %s and '%s' will be"
- " treated as if declared EXTERNAL. Use an"
- " appropriate -std=* option or define"
- " -fall-intrinsics to allow this intrinsic.",
+ if (sym->attr.proc == PROC_UNKNOWN && warn_intrinsics_std)
+ gfc_warning_now (OPT_Wintrinsics_std, "The intrinsic %qs at %L is not "
+ "included in the selected standard but %s and %qs will"
+ " be treated as if declared EXTERNAL. Use an"
+ " appropriate %<-std=%>* option or define"
+ " %<-fall-intrinsics%> to allow this intrinsic.",
sym->name, &loc, symstd, sym->name);
return false;
g = gfc_find_function (name);
if (g == NULL)
- gfc_internal_error ("make_generic(): Can't find generic symbol '%s'",
+ gfc_internal_error ("make_generic(): Can't find generic symbol %qs",
name);
gcc_assert (g->id == id);
case SZ_NOTHING:
next_sym[0] = next_sym[-1];
- next_sym->name = gfc_get_string (name);
+ next_sym->name = gfc_get_string ("%s", name);
next_sym->standard = standard;
next_sym++;
break;
next_sym[-1].from_module = 1;
}
+
+/* Mark the current subroutine as having a variable number of
+ arguments. */
+
+static void
+make_vararg (void)
+{
+ if (sizing == SZ_NOTHING)
+ next_sym[-1].vararg = 1;
+}
+
/* Set the attr.value of the current procedure. */
static void
static void
add_functions (void)
{
- /* Argument names as in the standard (to be used as argument keywords). */
+ /* Argument names. These are used as argument keywords and so need to
+ match the documentation. Please keep this list in sorted order. */
const char
- *a = "a", *f = "field", *pt = "pointer", *tg = "target",
- *b = "b", *m = "matrix", *ma = "matrix_a", *mb = "matrix_b",
- *c = "c", *n = "n", *ncopies= "ncopies", *pos = "pos", *bck = "back",
- *i = "i", *v = "vector", *va = "vector_a", *vb = "vector_b",
- *j = "j", *a1 = "a1", *fs = "fsource", *ts = "tsource",
- *l = "l", *a2 = "a2", *mo = "mold", *ord = "order",
- *p = "p", *ar = "array", *shp = "shape", *src = "source",
- *r = "r", *bd = "boundary", *pad = "pad", *set = "set",
- *s = "s", *dm = "dim", *kind = "kind", *msk = "mask",
- *x = "x", *sh = "shift", *stg = "string", *ssg = "substring",
- *y = "y", *sz = "size", *sta = "string_a", *stb = "string_b",
- *z = "z", *ln = "len", *ut = "unit", *han = "handler",
- *num = "number", *tm = "time", *nm = "name", *md = "mode",
- *vl = "values", *p1 = "path1", *p2 = "path2", *com = "command",
- *ca = "coarray", *sub = "sub";
+ *a = "a", *a1 = "a1", *a2 = "a2", *ar = "array", *b = "b",
+ *bck = "back", *bd = "boundary", *c = "c", *c_ptr_1 = "c_ptr_1",
+ *c_ptr_2 = "c_ptr_2", *ca = "coarray", *com = "command",
+ *dist = "distance", *dm = "dim", *f = "field", *failed="failed",
+ *fs = "fsource", *han = "handler", *i = "i",
+ *image = "image", *j = "j", *kind = "kind",
+ *l = "l", *ln = "len", *level = "level", *m = "matrix", *ma = "matrix_a",
+ *mb = "matrix_b", *md = "mode", *mo = "mold", *msk = "mask",
+ *n = "n", *ncopies= "ncopies", *nm = "name", *num = "number",
+ *ord = "order", *p = "p", *p1 = "path1", *p2 = "path2",
+ *pad = "pad", *pid = "pid", *pos = "pos", *pt = "pointer",
+ *r = "r", *s = "s", *set = "set", *sh = "shift", *shp = "shape",
+ *sig = "sig", *src = "source", *ssg = "substring",
+ *sta = "string_a", *stb = "string_b", *stg = "string",
+ *sub = "sub", *sz = "size", *tg = "target", *team = "team", *tm = "time",
+ *ts = "tsource", *ut = "unit", *v = "vector", *va = "vector_a",
+ *vb = "vector_b", *vl = "values", *val = "value", *x = "x", *y = "y",
+ *z = "z";
int di, dr, dd, dl, dc, dz, ii;
gfc_check_abs, gfc_simplify_abs, gfc_resolve_abs,
a, BT_REAL, dr, REQUIRED);
+ if (flag_dec_intrinsic_ints)
+ {
+ make_alias ("babs", GFC_STD_GNU);
+ make_alias ("iiabs", GFC_STD_GNU);
+ make_alias ("jiabs", GFC_STD_GNU);
+ make_alias ("kiabs", GFC_STD_GNU);
+ }
+
add_sym_1 ("iabs", GFC_ISYM_ABS, CLASS_ELEMENTAL, ACTUAL_YES, BT_INTEGER, di, GFC_STD_F77,
NULL, gfc_simplify_abs, gfc_resolve_abs,
a, BT_INTEGER, di, REQUIRED);
NULL, gfc_simplify_abs, gfc_resolve_abs,
a, BT_COMPLEX, dz, REQUIRED);
- add_sym_1 ("zabs", GFC_ISYM_ABS, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL, dd, GFC_STD_GNU,
- NULL, gfc_simplify_abs, gfc_resolve_abs,
+ add_sym_1 ("zabs", GFC_ISYM_ABS, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL, dd, GFC_STD_GNU,
+ NULL, gfc_simplify_abs, gfc_resolve_abs,
a, BT_COMPLEX, dd, REQUIRED);
make_alias ("cdabs", GFC_STD_GNU);
make_alias ("imag", GFC_STD_GNU);
make_alias ("imagpart", GFC_STD_GNU);
- add_sym_1 ("dimag", GFC_ISYM_AIMAG, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL, dd, GFC_STD_GNU,
- NULL, gfc_simplify_aimag, gfc_resolve_aimag,
+ add_sym_1 ("dimag", GFC_ISYM_AIMAG, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL, dd, GFC_STD_GNU,
+ NULL, gfc_simplify_aimag, gfc_resolve_aimag,
z, BT_COMPLEX, dd, REQUIRED);
make_generic ("aimag", GFC_ISYM_AIMAG, GFC_STD_F77);
x, BT_REAL, dd, REQUIRED);
make_generic ("asin", GFC_ISYM_ASIN, GFC_STD_F77);
-
+
add_sym_1 ("asinh", GFC_ISYM_ASINH, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL, dr,
GFC_STD_F2008, gfc_check_fn_rc2008, gfc_simplify_asinh,
gfc_resolve_asinh, x, BT_REAL, dr, REQUIRED);
y, BT_REAL, dr, REQUIRED, x, BT_REAL, dr, REQUIRED);
make_generic ("atan", GFC_ISYM_ATAN, GFC_STD_F77);
-
+
add_sym_1 ("atanh", GFC_ISYM_ATANH, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL, dr,
GFC_STD_F2008, gfc_check_fn_rc2008, gfc_simplify_atanh,
gfc_resolve_atanh, x, BT_REAL, dr, REQUIRED);
y, BT_REAL, dd, REQUIRED, x, BT_REAL, dd, REQUIRED);
make_generic ("atan2", GFC_ISYM_ATAN2, GFC_STD_F77);
-
+
/* Bessel and Neumann functions for G77 compatibility. */
add_sym_1 ("besj0", GFC_ISYM_J0, CLASS_ELEMENTAL, ACTUAL_NO, BT_REAL, dr, GFC_STD_GNU,
gfc_check_fn_r, gfc_simplify_bessel_j0, gfc_resolve_g77_math1,
gfc_check_bitfcn, gfc_simplify_btest, gfc_resolve_btest,
i, BT_INTEGER, di, REQUIRED, pos, BT_INTEGER, di, REQUIRED);
+ if (flag_dec_intrinsic_ints)
+ {
+ make_alias ("bbtest", GFC_STD_GNU);
+ make_alias ("bitest", GFC_STD_GNU);
+ make_alias ("bjtest", GFC_STD_GNU);
+ make_alias ("bktest", GFC_STD_GNU);
+ }
+
make_generic ("btest", GFC_ISYM_BTEST, GFC_STD_F95);
add_sym_2 ("ceiling", GFC_ISYM_CEILING, CLASS_ELEMENTAL, ACTUAL_NO, BT_INTEGER, di, GFC_STD_F95,
make_generic ("cmplx", GFC_ISYM_CMPLX, GFC_STD_F77);
- add_sym_0 ("command_argument_count", GFC_ISYM_COMMAND_ARGUMENT_COUNT, CLASS_INQUIRY,
+ add_sym_0 ("command_argument_count", GFC_ISYM_COMMAND_ARGUMENT_COUNT, CLASS_INQUIRY,
ACTUAL_NO, BT_INTEGER, di, GFC_STD_F2003, NULL, NULL, NULL);
make_generic ("command_argument_count", GFC_ISYM_COMMAND_ARGUMENT_COUNT,
z, BT_COMPLEX, dz, REQUIRED);
add_sym_1 ("dconjg", GFC_ISYM_CONJG, CLASS_ELEMENTAL, ACTUAL_YES, BT_COMPLEX, dd, GFC_STD_GNU,
- NULL, gfc_simplify_conjg, gfc_resolve_conjg,
+ NULL, gfc_simplify_conjg, gfc_resolve_conjg,
z, BT_COMPLEX, dd, REQUIRED);
make_generic ("conjg", GFC_ISYM_CONJG, GFC_STD_F77);
x, BT_COMPLEX, dz, REQUIRED);
add_sym_1 ("zcos", GFC_ISYM_COS, CLASS_ELEMENTAL, ACTUAL_YES, BT_COMPLEX, dd, GFC_STD_GNU,
- NULL, gfc_simplify_cos, gfc_resolve_cos,
+ NULL, gfc_simplify_cos, gfc_resolve_cos,
x, BT_COMPLEX, dd, REQUIRED);
make_alias ("cdcos", GFC_STD_GNU);
make_generic ("count", GFC_ISYM_COUNT, GFC_STD_F95);
- add_sym_3 ("cshift", GFC_ISYM_CSHIFT, CLASS_TRANSFORMATIONAL, ACTUAL_NO, BT_REAL, dr, GFC_STD_F95,
- gfc_check_cshift, NULL, gfc_resolve_cshift,
- ar, BT_REAL, dr, REQUIRED, sh, BT_INTEGER, di, REQUIRED,
+ add_sym_3 ("cshift", GFC_ISYM_CSHIFT, CLASS_TRANSFORMATIONAL, ACTUAL_NO,
+ BT_REAL, dr, GFC_STD_F95,
+ gfc_check_cshift, gfc_simplify_cshift, gfc_resolve_cshift,
+ ar, BT_REAL, dr, REQUIRED,
+ sh, BT_INTEGER, di, REQUIRED,
dm, BT_INTEGER, ii, OPTIONAL);
make_generic ("cshift", GFC_ISYM_CSHIFT, GFC_STD_F95);
make_generic ("dprod", GFC_ISYM_DPROD, GFC_STD_F77);
- add_sym_1 ("dreal", GFC_ISYM_REAL, CLASS_ELEMENTAL, ACTUAL_NO, BT_REAL, dd, GFC_STD_GNU,
- NULL, NULL, NULL,
+ add_sym_1 ("dreal", GFC_ISYM_REAL, CLASS_ELEMENTAL, ACTUAL_NO,
+ BT_REAL, dd, GFC_STD_GNU, NULL, gfc_simplify_dreal, NULL,
a, BT_COMPLEX, dd, REQUIRED);
make_generic ("dreal", GFC_ISYM_REAL, GFC_STD_GNU);
make_generic ("dshiftr", GFC_ISYM_DSHIFTR, GFC_STD_F2008);
add_sym_4 ("eoshift", GFC_ISYM_EOSHIFT, CLASS_TRANSFORMATIONAL, ACTUAL_NO, BT_REAL, dr, GFC_STD_F95,
- gfc_check_eoshift, NULL, gfc_resolve_eoshift,
+ gfc_check_eoshift, gfc_simplify_eoshift, gfc_resolve_eoshift,
ar, BT_REAL, dr, REQUIRED, sh, BT_INTEGER, ii, REQUIRED,
bd, BT_REAL, dr, OPTIONAL, dm, BT_INTEGER, ii, OPTIONAL);
make_generic ("eoshift", GFC_ISYM_EOSHIFT, GFC_STD_F95);
- add_sym_1 ("epsilon", GFC_ISYM_EPSILON, CLASS_INQUIRY, ACTUAL_NO, BT_REAL, dr, GFC_STD_F95,
- gfc_check_x, gfc_simplify_epsilon, NULL,
+ add_sym_1 ("epsilon", GFC_ISYM_EPSILON, CLASS_INQUIRY, ACTUAL_NO, BT_REAL, dr,
+ GFC_STD_F95, gfc_check_fn_r, gfc_simplify_epsilon, NULL,
x, BT_REAL, dr, REQUIRED);
make_generic ("epsilon", GFC_ISYM_EPSILON, GFC_STD_F95);
x, BT_COMPLEX, dz, REQUIRED);
add_sym_1 ("zexp", GFC_ISYM_EXP, CLASS_ELEMENTAL, ACTUAL_YES, BT_COMPLEX, dd, GFC_STD_GNU,
- NULL, gfc_simplify_exp, gfc_resolve_exp,
+ NULL, gfc_simplify_exp, gfc_resolve_exp,
x, BT_COMPLEX, dd, REQUIRED);
make_alias ("cdexp", GFC_STD_GNU);
make_generic ("exp", GFC_ISYM_EXP, GFC_STD_F77);
- add_sym_1 ("exponent", GFC_ISYM_EXPONENT, CLASS_ELEMENTAL, ACTUAL_NO, BT_INTEGER, di, GFC_STD_F95,
- gfc_check_x, gfc_simplify_exponent, gfc_resolve_exponent,
+ add_sym_1 ("exponent", GFC_ISYM_EXPONENT, CLASS_ELEMENTAL, ACTUAL_NO, BT_INTEGER, di,
+ GFC_STD_F95, gfc_check_fn_r, gfc_simplify_exponent, gfc_resolve_exponent,
x, BT_REAL, dr, REQUIRED);
make_generic ("exponent", GFC_ISYM_EXPONENT, GFC_STD_F95);
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_F2018,
+ 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);
make_generic ("fnum", GFC_ISYM_FNUM, GFC_STD_GNU);
- add_sym_1 ("fraction", GFC_ISYM_FRACTION, CLASS_ELEMENTAL, ACTUAL_NO, BT_REAL, dr, GFC_STD_F95,
- gfc_check_x, gfc_simplify_fraction, gfc_resolve_fraction,
+ add_sym_1 ("fraction", GFC_ISYM_FRACTION, CLASS_ELEMENTAL, ACTUAL_NO, BT_REAL, dr,
+ GFC_STD_F95, gfc_check_fn_r, gfc_simplify_fraction, gfc_resolve_fraction,
x, BT_REAL, dr, REQUIRED);
make_generic ("fraction", GFC_ISYM_FRACTION, GFC_STD_F95);
make_generic ("getpid", GFC_ISYM_GETPID, GFC_STD_GNU);
+ add_sym_1 ("get_team", GFC_ISYM_GET_TEAM, CLASS_TRANSFORMATIONAL,
+ ACTUAL_NO, BT_INTEGER, di, GFC_STD_F2018,
+ gfc_check_get_team, NULL, gfc_resolve_get_team,
+ level, BT_INTEGER, di, OPTIONAL);
+
add_sym_0 ("getuid", GFC_ISYM_GETUID, CLASS_IMPURE, ACTUAL_NO, BT_INTEGER,
di, GFC_STD_GNU, NULL, NULL, gfc_resolve_getuid);
make_generic ("iachar", GFC_ISYM_IACHAR, GFC_STD_F95);
- add_sym_2 ("iand", GFC_ISYM_IAND, CLASS_ELEMENTAL, ACTUAL_NO, BT_INTEGER, di, GFC_STD_F95,
- gfc_check_iand, gfc_simplify_iand, gfc_resolve_iand,
+ add_sym_2 ("iand", GFC_ISYM_IAND, CLASS_ELEMENTAL, ACTUAL_NO, BT_INTEGER, di,
+ GFC_STD_F95,
+ gfc_check_iand_ieor_ior, gfc_simplify_iand, gfc_resolve_iand,
i, BT_INTEGER, di, REQUIRED, j, BT_INTEGER, di, REQUIRED);
+ if (flag_dec_intrinsic_ints)
+ {
+ make_alias ("biand", GFC_STD_GNU);
+ make_alias ("iiand", GFC_STD_GNU);
+ make_alias ("jiand", GFC_STD_GNU);
+ make_alias ("kiand", GFC_STD_GNU);
+ }
+
make_generic ("iand", GFC_ISYM_IAND, GFC_STD_F95);
add_sym_2 ("and", GFC_ISYM_AND, CLASS_IMPURE, ACTUAL_NO, BT_LOGICAL,
gfc_check_bitfcn, gfc_simplify_ibclr, gfc_resolve_ibclr,
i, BT_INTEGER, di, REQUIRED, pos, BT_INTEGER, di, REQUIRED);
+ if (flag_dec_intrinsic_ints)
+ {
+ make_alias ("bbclr", GFC_STD_GNU);
+ make_alias ("iibclr", GFC_STD_GNU);
+ make_alias ("jibclr", GFC_STD_GNU);
+ make_alias ("kibclr", GFC_STD_GNU);
+ }
+
make_generic ("ibclr", GFC_ISYM_IBCLR, GFC_STD_F95);
add_sym_3 ("ibits", GFC_ISYM_IBITS, CLASS_ELEMENTAL, ACTUAL_NO, BT_INTEGER, di, GFC_STD_F95,
i, BT_INTEGER, di, REQUIRED, pos, BT_INTEGER, di, REQUIRED,
ln, BT_INTEGER, di, REQUIRED);
+ if (flag_dec_intrinsic_ints)
+ {
+ make_alias ("bbits", GFC_STD_GNU);
+ make_alias ("iibits", GFC_STD_GNU);
+ make_alias ("jibits", GFC_STD_GNU);
+ make_alias ("kibits", GFC_STD_GNU);
+ }
+
make_generic ("ibits", GFC_ISYM_IBITS, GFC_STD_F95);
add_sym_2 ("ibset", GFC_ISYM_IBSET, CLASS_ELEMENTAL, ACTUAL_NO, BT_INTEGER, di, GFC_STD_F95,
gfc_check_bitfcn, gfc_simplify_ibset, gfc_resolve_ibset,
i, BT_INTEGER, di, REQUIRED, pos, BT_INTEGER, di, REQUIRED);
+ if (flag_dec_intrinsic_ints)
+ {
+ make_alias ("bbset", GFC_STD_GNU);
+ make_alias ("iibset", GFC_STD_GNU);
+ make_alias ("jibset", GFC_STD_GNU);
+ make_alias ("kibset", GFC_STD_GNU);
+ }
+
make_generic ("ibset", GFC_ISYM_IBSET, GFC_STD_F95);
add_sym_2 ("ichar", GFC_ISYM_ICHAR, CLASS_ELEMENTAL, ACTUAL_NO,
make_generic ("ichar", GFC_ISYM_ICHAR, GFC_STD_F77);
- add_sym_2 ("ieor", GFC_ISYM_IEOR, CLASS_ELEMENTAL, ACTUAL_NO, BT_INTEGER, di, GFC_STD_F95,
- gfc_check_ieor, gfc_simplify_ieor, gfc_resolve_ieor,
+ add_sym_2 ("ieor", GFC_ISYM_IEOR, CLASS_ELEMENTAL, ACTUAL_NO, BT_INTEGER, di,
+ GFC_STD_F95,
+ gfc_check_iand_ieor_ior, gfc_simplify_ieor, gfc_resolve_ieor,
i, BT_INTEGER, di, REQUIRED, j, BT_INTEGER, di, REQUIRED);
+ if (flag_dec_intrinsic_ints)
+ {
+ make_alias ("bieor", GFC_STD_GNU);
+ make_alias ("iieor", GFC_STD_GNU);
+ make_alias ("jieor", GFC_STD_GNU);
+ make_alias ("kieor", GFC_STD_GNU);
+ }
+
make_generic ("ieor", GFC_ISYM_IEOR, GFC_STD_F95);
add_sym_2 ("xor", GFC_ISYM_XOR, CLASS_IMPURE, ACTUAL_NO, BT_LOGICAL,
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_F2018, 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 ("long", GFC_ISYM_LONG, GFC_STD_GNU);
- add_sym_2 ("ior", GFC_ISYM_IOR, CLASS_ELEMENTAL, ACTUAL_NO, BT_INTEGER, di, GFC_STD_F95,
- gfc_check_ior, gfc_simplify_ior, gfc_resolve_ior,
+ add_sym_2 ("ior", GFC_ISYM_IOR, CLASS_ELEMENTAL, ACTUAL_NO, BT_INTEGER, di,
+ GFC_STD_F95,
+ gfc_check_iand_ieor_ior, gfc_simplify_ior, gfc_resolve_ior,
i, BT_INTEGER, di, REQUIRED, j, BT_INTEGER, di, REQUIRED);
+ if (flag_dec_intrinsic_ints)
+ {
+ make_alias ("bior", GFC_STD_GNU);
+ make_alias ("iior", GFC_STD_GNU);
+ make_alias ("jior", GFC_STD_GNU);
+ make_alias ("kior", GFC_STD_GNU);
+ }
+
make_generic ("ior", GFC_ISYM_IOR, GFC_STD_F95);
add_sym_2 ("or", GFC_ISYM_OR, CLASS_IMPURE, ACTUAL_NO, BT_LOGICAL,
make_generic ("isatty", GFC_ISYM_ISATTY, GFC_STD_GNU);
+ add_sym_1 ("is_contiguous", GFC_ISYM_IS_CONTIGUOUS, CLASS_INQUIRY, ACTUAL_NO,
+ BT_LOGICAL, dl, GFC_STD_F2008,
+ gfc_check_is_contiguous, gfc_simplify_is_contiguous,
+ gfc_resolve_is_contiguous,
+ ar, BT_REAL, dr, REQUIRED);
+
+ make_generic ("is_contiguous", GFC_ISYM_IS_CONTIGUOUS, GFC_STD_F2008);
+
add_sym_1 ("is_iostat_end", GFC_ISYM_IS_IOSTAT_END,
CLASS_ELEMENTAL, ACTUAL_NO, BT_LOGICAL, dl, GFC_STD_F2003,
gfc_check_i, gfc_simplify_is_iostat_end, NULL,
gfc_check_ishft, gfc_simplify_ishft, gfc_resolve_ishft,
i, BT_INTEGER, di, REQUIRED, sh, BT_INTEGER, di, REQUIRED);
+ if (flag_dec_intrinsic_ints)
+ {
+ make_alias ("bshft", GFC_STD_GNU);
+ make_alias ("iishft", GFC_STD_GNU);
+ make_alias ("jishft", GFC_STD_GNU);
+ make_alias ("kishft", GFC_STD_GNU);
+ }
+
make_generic ("ishft", GFC_ISYM_ISHFT, GFC_STD_F95);
add_sym_3 ("ishftc", GFC_ISYM_ISHFTC, CLASS_ELEMENTAL, ACTUAL_NO, BT_INTEGER, di, GFC_STD_F95,
i, BT_INTEGER, di, REQUIRED, sh, BT_INTEGER, di, REQUIRED,
sz, BT_INTEGER, di, OPTIONAL);
+ if (flag_dec_intrinsic_ints)
+ {
+ make_alias ("bshftc", GFC_STD_GNU);
+ make_alias ("iishftc", GFC_STD_GNU);
+ make_alias ("jishftc", GFC_STD_GNU);
+ make_alias ("kishftc", GFC_STD_GNU);
+ }
+
make_generic ("ishftc", GFC_ISYM_ISHFTC, GFC_STD_F95);
add_sym_2 ("kill", GFC_ISYM_KILL, CLASS_IMPURE, ACTUAL_NO, BT_INTEGER,
- di, GFC_STD_GNU, gfc_check_kill, NULL, gfc_resolve_kill,
- a, BT_INTEGER, di, REQUIRED, b, BT_INTEGER, di, REQUIRED);
+ di, GFC_STD_GNU, gfc_check_kill, NULL, NULL,
+ pid, BT_INTEGER, di, REQUIRED, sig, BT_INTEGER, di, REQUIRED);
make_generic ("kill", GFC_ISYM_KILL, GFC_STD_GNU);
p1, BT_CHARACTER, dc, REQUIRED, p2, BT_CHARACTER, dc, REQUIRED);
make_generic ("link", GFC_ISYM_LINK, GFC_STD_GNU);
-
+
add_sym_1 ("log", GFC_ISYM_LOG, CLASS_ELEMENTAL, ACTUAL_NO, BT_REAL, dr, GFC_STD_F77,
gfc_check_fn_rc, gfc_simplify_log, gfc_resolve_log,
x, BT_REAL, dr, REQUIRED);
make_generic ("lstat", GFC_ISYM_LSTAT, GFC_STD_GNU);
add_sym_1 ("malloc", GFC_ISYM_MALLOC, CLASS_IMPURE, ACTUAL_NO, BT_INTEGER, ii,
- GFC_STD_GNU, gfc_check_malloc, NULL, gfc_resolve_malloc,
+ GFC_STD_GNU, gfc_check_malloc, NULL, NULL,
sz, BT_INTEGER, di, REQUIRED);
make_generic ("malloc", GFC_ISYM_MALLOC, GFC_STD_GNU);
make_generic ("max", GFC_ISYM_MAX, GFC_STD_F77);
- add_sym_1 ("maxexponent", GFC_ISYM_MAXEXPONENT, CLASS_INQUIRY, ACTUAL_NO, BT_INTEGER, di,
- GFC_STD_F95, gfc_check_x, gfc_simplify_maxexponent, NULL,
+ add_sym_1 ("maxexponent", GFC_ISYM_MAXEXPONENT, CLASS_INQUIRY, ACTUAL_NO, BT_INTEGER,
+ di, GFC_STD_F95, gfc_check_fn_r, gfc_simplify_maxexponent, NULL,
x, BT_UNKNOWN, dr, REQUIRED);
make_generic ("maxexponent", GFC_ISYM_MAXEXPONENT, GFC_STD_F95);
- add_sym_3ml ("maxloc", GFC_ISYM_MAXLOC, CLASS_TRANSFORMATIONAL, ACTUAL_NO, BT_INTEGER, di, GFC_STD_F95,
- gfc_check_minloc_maxloc, NULL, gfc_resolve_maxloc,
+ add_sym_5ml ("maxloc", GFC_ISYM_MAXLOC, CLASS_TRANSFORMATIONAL, ACTUAL_NO, BT_INTEGER, di, GFC_STD_F95,
+ gfc_check_minloc_maxloc, gfc_simplify_maxloc, gfc_resolve_maxloc,
ar, BT_REAL, dr, REQUIRED, dm, BT_INTEGER, ii, OPTIONAL,
- msk, BT_LOGICAL, dl, OPTIONAL);
+ msk, BT_LOGICAL, dl, OPTIONAL, kind, BT_INTEGER, di, OPTIONAL,
+ bck, BT_LOGICAL, dl, OPTIONAL);
make_generic ("maxloc", GFC_ISYM_MAXLOC, GFC_STD_F95);
+ add_sym_6fl ("findloc", GFC_ISYM_FINDLOC, CLASS_TRANSFORMATIONAL, ACTUAL_NO,
+ BT_INTEGER, di, GFC_STD_F2008,
+ gfc_check_findloc, gfc_simplify_findloc, gfc_resolve_findloc,
+ ar, BT_REAL, dr, REQUIRED, val, BT_REAL, dr, REQUIRED,
+ dm, BT_INTEGER, ii, OPTIONAL, msk, BT_LOGICAL, dl, OPTIONAL,
+ kind, BT_INTEGER, di, OPTIONAL, bck, BT_LOGICAL, dl, OPTIONAL);
+
+ make_generic ("findloc", GFC_ISYM_FINDLOC, GFC_STD_F2008);
+
add_sym_3red ("maxval", GFC_ISYM_MAXVAL, CLASS_TRANSFORMATIONAL, ACTUAL_NO, BT_REAL, dr, GFC_STD_F95,
gfc_check_minval_maxval, gfc_simplify_maxval, gfc_resolve_maxval,
ar, BT_REAL, dr, REQUIRED, dm, BT_INTEGER, ii, OPTIONAL,
make_generic ("min", GFC_ISYM_MIN, GFC_STD_F77);
- add_sym_1 ("minexponent", GFC_ISYM_MINEXPONENT, CLASS_INQUIRY, ACTUAL_NO, BT_INTEGER, di,
- GFC_STD_F95, gfc_check_x, gfc_simplify_minexponent, NULL,
+ add_sym_1 ("minexponent", GFC_ISYM_MINEXPONENT, CLASS_INQUIRY, ACTUAL_NO, BT_INTEGER,
+ di, GFC_STD_F95, gfc_check_fn_r, gfc_simplify_minexponent, NULL,
x, BT_UNKNOWN, dr, REQUIRED);
make_generic ("minexponent", GFC_ISYM_MINEXPONENT, GFC_STD_F95);
- add_sym_3ml ("minloc", GFC_ISYM_MINLOC, CLASS_TRANSFORMATIONAL, ACTUAL_NO, BT_INTEGER, di, GFC_STD_F95,
- gfc_check_minloc_maxloc, NULL, gfc_resolve_minloc,
+ add_sym_5ml ("minloc", GFC_ISYM_MINLOC, CLASS_TRANSFORMATIONAL, ACTUAL_NO, BT_INTEGER, di, GFC_STD_F95,
+ gfc_check_minloc_maxloc, gfc_simplify_minloc, gfc_resolve_minloc,
ar, BT_REAL, dr, REQUIRED, dm, BT_INTEGER, ii, OPTIONAL,
- msk, BT_LOGICAL, dl, OPTIONAL);
+ msk, BT_LOGICAL, dl, OPTIONAL, kind, BT_INTEGER, di, OPTIONAL,
+ bck, BT_LOGICAL, dl, OPTIONAL);
make_generic ("minloc", GFC_ISYM_MINLOC, GFC_STD_F95);
gfc_check_a_p, gfc_simplify_mod, gfc_resolve_mod,
a, BT_INTEGER, di, REQUIRED, p, BT_INTEGER, di, REQUIRED);
+ if (flag_dec_intrinsic_ints)
+ {
+ make_alias ("bmod", GFC_STD_GNU);
+ make_alias ("imod", GFC_STD_GNU);
+ make_alias ("jmod", GFC_STD_GNU);
+ make_alias ("kmod", GFC_STD_GNU);
+ }
+
add_sym_2 ("amod", GFC_ISYM_MOD, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL, dr, GFC_STD_F77,
NULL, gfc_simplify_mod, gfc_resolve_mod,
a, BT_REAL, dr, REQUIRED, p, BT_REAL, dr, REQUIRED);
gfc_check_i, gfc_simplify_not, gfc_resolve_not,
i, BT_INTEGER, di, REQUIRED);
+ if (flag_dec_intrinsic_ints)
+ {
+ make_alias ("bnot", GFC_STD_GNU);
+ make_alias ("inot", GFC_STD_GNU);
+ make_alias ("jnot", GFC_STD_GNU);
+ make_alias ("knot", GFC_STD_GNU);
+ }
+
make_generic ("not", GFC_ISYM_NOT, GFC_STD_F95);
add_sym_2 ("norm2", GFC_ISYM_NORM2, CLASS_TRANSFORMATIONAL, ACTUAL_NO, BT_REAL, dr,
make_generic ("null", GFC_ISYM_NULL, GFC_STD_F95);
- add_sym_0 ("num_images", GFC_ISYM_NUM_IMAGES, CLASS_INQUIRY, ACTUAL_NO,
+ add_sym_2 ("num_images", GFC_ISYM_NUM_IMAGES, CLASS_INQUIRY, ACTUAL_NO,
BT_INTEGER, di, GFC_STD_F2008,
- NULL, gfc_simplify_num_images, NULL);
+ gfc_check_num_images, gfc_simplify_num_images, NULL,
+ dist, BT_INTEGER, di, OPTIONAL,
+ failed, BT_LOGICAL, dl, OPTIONAL);
add_sym_3 ("pack", GFC_ISYM_PACK, CLASS_TRANSFORMATIONAL, ACTUAL_NO, BT_REAL, dr, GFC_STD_F95,
gfc_check_pack, gfc_simplify_pack, gfc_resolve_pack,
make_generic ("range", GFC_ISYM_RANGE, GFC_STD_F95);
add_sym_1 ("rank", GFC_ISYM_RANK, CLASS_INQUIRY, ACTUAL_NO, BT_INTEGER, di,
- GFC_STD_F2008_TS, gfc_check_rank, gfc_simplify_rank, NULL,
+ GFC_STD_F2018, gfc_check_rank, gfc_simplify_rank, gfc_resolve_rank,
a, BT_REAL, dr, REQUIRED);
- make_generic ("rank", GFC_ISYM_RANK, GFC_STD_F2008_TS);
+ make_generic ("rank", GFC_ISYM_RANK, GFC_STD_F2018);
add_sym_2 ("real", GFC_ISYM_REAL, CLASS_ELEMENTAL, ACTUAL_NO, BT_REAL, dr, GFC_STD_F77,
gfc_check_real, gfc_simplify_real, gfc_resolve_real,
gfc_check_float, gfc_simplify_float, NULL,
a, BT_INTEGER, di, REQUIRED);
+ if (flag_dec_intrinsic_ints)
+ {
+ make_alias ("floati", GFC_STD_GNU);
+ make_alias ("floatj", GFC_STD_GNU);
+ make_alias ("floatk", GFC_STD_GNU);
+ }
+
add_sym_1 ("dfloat", GFC_ISYM_REAL, CLASS_ELEMENTAL, ACTUAL_NO, BT_REAL, dd, GFC_STD_GNU,
gfc_check_float, gfc_simplify_dble, gfc_resolve_dble,
a, BT_REAL, dr, REQUIRED);
p1, BT_CHARACTER, dc, REQUIRED, p2, BT_CHARACTER, dc, REQUIRED);
make_generic ("rename", GFC_ISYM_RENAME, GFC_STD_GNU);
-
+
add_sym_2 ("repeat", GFC_ISYM_REPEAT, CLASS_TRANSFORMATIONAL, ACTUAL_NO, BT_CHARACTER, dc, GFC_STD_F95,
gfc_check_repeat, gfc_simplify_repeat, gfc_resolve_repeat,
stg, BT_CHARACTER, dc, REQUIRED, ncopies, BT_INTEGER, di, REQUIRED);
make_generic ("reshape", GFC_ISYM_RESHAPE, GFC_STD_F95);
- add_sym_1 ("rrspacing", GFC_ISYM_RRSPACING, CLASS_ELEMENTAL, ACTUAL_NO, BT_REAL, dr, GFC_STD_F95,
- gfc_check_x, gfc_simplify_rrspacing, gfc_resolve_rrspacing,
+ add_sym_1 ("rrspacing", GFC_ISYM_RRSPACING, CLASS_ELEMENTAL, ACTUAL_NO, BT_REAL, dr,
+ GFC_STD_F95, gfc_check_fn_r, gfc_simplify_rrspacing, gfc_resolve_rrspacing,
x, BT_REAL, dr, REQUIRED);
make_generic ("rrspacing", GFC_ISYM_RRSPACING, GFC_STD_F95);
make_generic ("size", GFC_ISYM_SIZE, GFC_STD_F95);
- add_sym_1 ("sizeof", GFC_ISYM_SIZEOF, CLASS_IMPURE, ACTUAL_NO, BT_INTEGER, ii,
- GFC_STD_GNU, gfc_check_sizeof, NULL, NULL,
+ /* Obtain the stride for a given dimensions; to be used only internally.
+ "make_from_module" makes it inaccessible for external users. */
+ add_sym_2 (GFC_PREFIX ("stride"), GFC_ISYM_STRIDE, CLASS_INQUIRY, ACTUAL_NO,
+ BT_INTEGER, gfc_index_integer_kind, GFC_STD_GNU,
+ NULL, NULL, gfc_resolve_stride,
+ ar, BT_REAL, dr, REQUIRED, dm, BT_INTEGER, ii, OPTIONAL);
+ make_from_module();
+
+ add_sym_1 ("sizeof", GFC_ISYM_SIZEOF, CLASS_INQUIRY, ACTUAL_NO,
+ BT_INTEGER, ii, GFC_STD_GNU,
+ gfc_check_sizeof, gfc_simplify_sizeof, NULL,
x, BT_UNKNOWN, 0, REQUIRED);
make_generic ("sizeof", GFC_ISYM_SIZEOF, GFC_STD_GNU);
- /* C_SIZEOF is part of ISO_C_BINDING. */
+ /* The following functions are part of ISO_C_BINDING. */
+ add_sym_2 ("c_associated", GFC_ISYM_C_ASSOCIATED, CLASS_INQUIRY, ACTUAL_NO,
+ BT_LOGICAL, dl, GFC_STD_F2003, gfc_check_c_associated, NULL, NULL,
+ c_ptr_1, BT_VOID, 0, REQUIRED,
+ c_ptr_2, BT_VOID, 0, OPTIONAL);
+ make_from_module();
+
+ add_sym_1 ("c_loc", GFC_ISYM_C_LOC, CLASS_INQUIRY, ACTUAL_NO,
+ BT_VOID, 0, GFC_STD_F2003,
+ gfc_check_c_loc, NULL, gfc_resolve_c_loc,
+ x, BT_UNKNOWN, 0, REQUIRED);
+ make_from_module();
+
+ add_sym_1 ("c_funloc", GFC_ISYM_C_FUNLOC, CLASS_INQUIRY, ACTUAL_NO,
+ BT_VOID, 0, GFC_STD_F2003,
+ gfc_check_c_funloc, NULL, gfc_resolve_c_funloc,
+ x, BT_UNKNOWN, 0, REQUIRED);
+ make_from_module();
+
add_sym_1 ("c_sizeof", GFC_ISYM_C_SIZEOF, CLASS_INQUIRY, ACTUAL_NO,
- BT_INTEGER, ii, GFC_STD_F2008, gfc_check_c_sizeof, NULL, NULL,
+ BT_INTEGER, gfc_index_integer_kind, GFC_STD_F2008,
+ gfc_check_c_sizeof, gfc_simplify_sizeof, NULL,
x, BT_UNKNOWN, 0, REQUIRED);
make_from_module();
- /* COMPILER_OPTIONS and COMPILER_VERSION are part of ISO_FORTRAN_ENV. */
+ /* COMPILER_OPTIONS and COMPILER_VERSION are part of ISO_FORTRAN_ENV. */
add_sym_0 ("compiler_options", GFC_ISYM_COMPILER_OPTIONS, CLASS_INQUIRY,
ACTUAL_NO, BT_CHARACTER, dc, GFC_STD_F2008,
NULL, gfc_simplify_compiler_options, NULL);
NULL, gfc_simplify_compiler_version, NULL);
make_from_module();
- add_sym_1 ("spacing", GFC_ISYM_SPACING, CLASS_ELEMENTAL, ACTUAL_NO, BT_REAL, dr, GFC_STD_F95,
- gfc_check_x, gfc_simplify_spacing, gfc_resolve_spacing,
+ add_sym_1 ("spacing", GFC_ISYM_SPACING, CLASS_ELEMENTAL, ACTUAL_NO, BT_REAL, dr,
+ GFC_STD_F95, gfc_check_fn_r, gfc_simplify_spacing, gfc_resolve_spacing,
x, BT_REAL, dr, REQUIRED);
make_generic ("spacing", GFC_ISYM_SPACING, GFC_STD_F95);
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_F2018,
+ 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, NULL, gfc_resolve_storage_size,
+ gfc_check_storage_size, gfc_simplify_storage_size,
+ gfc_resolve_storage_size,
a, BT_UNKNOWN, 0, REQUIRED,
kind, BT_INTEGER, di, OPTIONAL);
-
+
add_sym_3red ("sum", GFC_ISYM_SUM, CLASS_TRANSFORMATIONAL, ACTUAL_NO, BT_REAL, dr, GFC_STD_F95,
gfc_check_product_sum, gfc_simplify_sum, gfc_resolve_sum,
ar, BT_REAL, dr, REQUIRED, dm, BT_INTEGER, ii, OPTIONAL,
make_generic ("tanh", GFC_ISYM_TANH, GFC_STD_F77);
- add_sym_2 ("this_image", GFC_ISYM_THIS_IMAGE, CLASS_INQUIRY, ACTUAL_NO, BT_INTEGER, di, GFC_STD_F2008,
+ add_sym_1 ("team_number", GFC_ISYM_TEAM_NUMBER, CLASS_TRANSFORMATIONAL,
+ ACTUAL_YES, BT_INTEGER, di, GFC_STD_F2018,
+ gfc_check_team_number, NULL, gfc_resolve_team_number,
+ team, BT_DERIVED, di, OPTIONAL);
+
+ add_sym_3 ("this_image", GFC_ISYM_THIS_IMAGE, CLASS_INQUIRY, ACTUAL_NO, BT_INTEGER, di, GFC_STD_F2008,
gfc_check_this_image, gfc_simplify_this_image, gfc_resolve_this_image,
- ca, BT_REAL, dr, OPTIONAL, dm, BT_INTEGER, ii, OPTIONAL);
+ ca, BT_REAL, dr, OPTIONAL, dm, BT_INTEGER, ii, OPTIONAL,
+ dist, BT_INTEGER, di, OPTIONAL);
add_sym_0 ("time", GFC_ISYM_TIME, CLASS_IMPURE, ACTUAL_NO, BT_INTEGER,
di, GFC_STD_GNU, NULL, NULL, gfc_resolve_time);
make_generic ("time8", GFC_ISYM_TIME8, GFC_STD_GNU);
add_sym_1 ("tiny", GFC_ISYM_TINY, CLASS_INQUIRY, ACTUAL_NO, BT_REAL, dr, GFC_STD_F95,
- gfc_check_x, gfc_simplify_tiny, NULL,
- x, BT_REAL, dr, REQUIRED);
+ gfc_check_fn_r, gfc_simplify_tiny, NULL, x, BT_REAL, dr, REQUIRED);
make_generic ("tiny", GFC_ISYM_TINY, GFC_STD_F95);
bck, BT_LOGICAL, dl, OPTIONAL, kind, BT_INTEGER, di, OPTIONAL);
make_generic ("verify", GFC_ISYM_VERIFY, GFC_STD_F95);
-
+
add_sym_1 ("loc", GFC_ISYM_LOC, CLASS_IMPURE, ACTUAL_NO, BT_INTEGER, ii,
GFC_STD_GNU, gfc_check_loc, NULL, gfc_resolve_loc,
x, BT_UNKNOWN, 0, REQUIRED);
-
+
make_generic ("loc", GFC_ISYM_LOC, GFC_STD_GNU);
+
+ if (flag_dec_math)
+ {
+ add_sym_1 ("acosd", GFC_ISYM_ACOS, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL,
+ dr, GFC_STD_GNU,
+ gfc_check_fn_r, gfc_simplify_atrigd, gfc_resolve_atrigd,
+ x, BT_REAL, dr, REQUIRED);
+
+ add_sym_1 ("dacosd", GFC_ISYM_ACOS, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL,
+ dd, GFC_STD_GNU,
+ gfc_check_fn_d, gfc_simplify_atrigd, gfc_resolve_atrigd,
+ x, BT_REAL, dd, REQUIRED);
+
+ make_generic ("acosd", GFC_ISYM_ACOS, GFC_STD_GNU);
+
+ add_sym_1 ("asind", GFC_ISYM_ASIN, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL,
+ dr, GFC_STD_GNU,
+ gfc_check_fn_r, gfc_simplify_atrigd, gfc_resolve_atrigd,
+ x, BT_REAL, dr, REQUIRED);
+
+ add_sym_1 ("dasind", GFC_ISYM_ASIN, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL,
+ dd, GFC_STD_GNU,
+ gfc_check_fn_d, gfc_simplify_atrigd, gfc_resolve_atrigd,
+ x, BT_REAL, dd, REQUIRED);
+
+ make_generic ("asind", GFC_ISYM_ASIN, GFC_STD_GNU);
+
+ add_sym_1 ("atand", GFC_ISYM_ATAN, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL,
+ dr, GFC_STD_GNU,
+ gfc_check_fn_r, gfc_simplify_atrigd, gfc_resolve_atrigd,
+ x, BT_REAL, dr, REQUIRED);
+
+ add_sym_1 ("datand", GFC_ISYM_ATAN, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL,
+ dd, GFC_STD_GNU,
+ gfc_check_fn_d, gfc_simplify_atrigd, gfc_resolve_atrigd,
+ x, BT_REAL, dd, REQUIRED);
+
+ make_generic ("atand", GFC_ISYM_ATAN, GFC_STD_GNU);
+
+ add_sym_2 ("atan2d",GFC_ISYM_ATAN2,CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL,
+ dr, GFC_STD_GNU,
+ gfc_check_atan2, gfc_simplify_atan2d, gfc_resolve_atan2d,
+ y, BT_REAL, dr, REQUIRED, x, BT_REAL, dr, REQUIRED);
+
+ add_sym_2 ("datan2d",GFC_ISYM_ATAN2,CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL,
+ dd, GFC_STD_GNU,
+ gfc_check_datan2, gfc_simplify_atan2d, gfc_resolve_atan2d,
+ y, BT_REAL, dd, REQUIRED, x, BT_REAL, dd, REQUIRED);
+
+ make_generic ("atan2d", GFC_ISYM_ATAN2, GFC_STD_GNU);
+
+ add_sym_1 ("cosd", GFC_ISYM_COS, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL,
+ dr, GFC_STD_GNU,
+ gfc_check_fn_r, gfc_simplify_trigd, gfc_resolve_trigd,
+ x, BT_REAL, dr, REQUIRED);
+
+ add_sym_1 ("dcosd", GFC_ISYM_COS, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL,
+ dd, GFC_STD_GNU,
+ gfc_check_fn_d, gfc_simplify_trigd, gfc_resolve_trigd,
+ x, BT_REAL, dd, REQUIRED);
+
+ make_generic ("cosd", GFC_ISYM_COS, GFC_STD_GNU);
+
+ add_sym_1 ("cotan", GFC_ISYM_COTAN, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL,
+ dr, GFC_STD_GNU,
+ gfc_check_fn_rc2008, gfc_simplify_cotan, gfc_resolve_cotan,
+ x, BT_REAL, dr, REQUIRED);
+
+ add_sym_1 ("dcotan", GFC_ISYM_COTAN, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL,
+ dd, GFC_STD_GNU,
+ gfc_check_fn_d, gfc_simplify_cotan, gfc_resolve_cotan,
+ x, BT_REAL, dd, REQUIRED);
+
+ make_generic ("cotan", GFC_ISYM_COTAN, GFC_STD_GNU);
+
+ add_sym_1 ("cotand", GFC_ISYM_COTAN, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL,
+ dr, GFC_STD_GNU,
+ gfc_check_fn_r, gfc_simplify_trigd, gfc_resolve_trigd,
+ x, BT_REAL, dr, REQUIRED);
+
+ add_sym_1 ("dcotand",GFC_ISYM_COTAN, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL,
+ dd, GFC_STD_GNU,
+ gfc_check_fn_d, gfc_simplify_trigd, gfc_resolve_trigd,
+ x, BT_REAL, dd, REQUIRED);
+
+ make_generic ("cotand", GFC_ISYM_COTAN, GFC_STD_GNU);
+
+ add_sym_1 ("sind", GFC_ISYM_SIN, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL,
+ dr, GFC_STD_GNU,
+ gfc_check_fn_r, gfc_simplify_trigd, gfc_resolve_trigd,
+ x, BT_REAL, dr, REQUIRED);
+
+ add_sym_1 ("dsind", GFC_ISYM_SIN, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL,
+ dd, GFC_STD_GNU,
+ gfc_check_fn_d, gfc_simplify_trigd, gfc_resolve_trigd,
+ x, BT_REAL, dd, REQUIRED);
+
+ make_generic ("sind", GFC_ISYM_SIN, GFC_STD_GNU);
+
+ add_sym_1 ("tand", GFC_ISYM_TAN, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL,
+ dr, GFC_STD_GNU,
+ gfc_check_fn_r, gfc_simplify_trigd, gfc_resolve_trigd,
+ x, BT_REAL, dr, REQUIRED);
+
+ add_sym_1 ("dtand", GFC_ISYM_TAN, CLASS_ELEMENTAL, ACTUAL_YES, BT_REAL,
+ dd, GFC_STD_GNU,
+ gfc_check_fn_d, gfc_simplify_trigd, gfc_resolve_trigd,
+ x, BT_REAL, dd, REQUIRED);
+
+ make_generic ("tand", GFC_ISYM_TAN, GFC_STD_GNU);
+ }
+
+ /* The following function is internally used for coarray libray functions.
+ "make_from_module" makes it inaccessible for external users. */
+ add_sym_1 (GFC_PREFIX ("caf_get"), GFC_ISYM_CAF_GET, CLASS_IMPURE, ACTUAL_NO,
+ BT_REAL, dr, GFC_STD_GNU, NULL, NULL, NULL,
+ x, BT_REAL, dr, REQUIRED);
+ make_from_module();
}
static void
add_subroutines (void)
{
- /* Argument names as in the standard (to be used as argument keywords). */
- const char
- *h = "harvest", *dt = "date", *vl = "values", *pt = "put",
- *c = "count", *tm = "time", *tp = "topos", *gt = "get",
- *t = "to", *zn = "zone", *fp = "frompos", *cm = "count_max",
- *f = "from", *sz = "size", *ln = "len", *cr = "count_rate",
- *com = "command", *length = "length", *st = "status",
- *val = "value", *num = "number", *name = "name",
- *trim_name = "trim_name", *ut = "unit", *han = "handler",
- *sec = "seconds", *res = "result", *of = "offset", *md = "mode",
- *whence = "whence", *pos = "pos", *ptr = "ptr", *p1 = "path1",
- *p2 = "path2", *msk = "mask", *old = "old";
+ /* Argument names. These are used as argument keywords and so need to
+ match the documentation. Please keep this list in sorted order. */
+ static const char
+ *a = "a", *c = "count", *cm = "count_max", *com = "command",
+ *cr = "count_rate", *dt = "date", *errmsg = "errmsg", *f = "from",
+ *fp = "frompos", *gt = "get", *h = "harvest", *han = "handler",
+ *length = "length", *ln = "len", *md = "mode", *msk = "mask",
+ *name = "name", *num = "number", *of = "offset", *old = "old",
+ *p1 = "path1", *p2 = "path2", *pid = "pid", *pos = "pos",
+ *pt = "put", *ptr = "ptr", *res = "result",
+ *result_image = "result_image", *sec = "seconds", *sig = "sig",
+ *st = "status", *stat = "stat", *sz = "size", *t = "to",
+ *tm = "time", *tp = "topos", *trim_name = "trim_name", *ut = "unit",
+ *val = "value", *vl = "values", *whence = "whence", *zn = "zone";
int di, dr, dc, dl, ii;
make_noreturn();
- add_sym_2s ("atomic_define", GFC_ISYM_ATOMIC_DEF, CLASS_ATOMIC,
+ add_sym_3s ("atomic_define", GFC_ISYM_ATOMIC_DEF, CLASS_ATOMIC,
BT_UNKNOWN, 0, GFC_STD_F2008,
gfc_check_atomic_def, NULL, gfc_resolve_atomic_def,
"atom", BT_INTEGER, di, REQUIRED, INTENT_OUT,
- "value", BT_INTEGER, di, REQUIRED, INTENT_IN);
+ "value", BT_INTEGER, di, REQUIRED, INTENT_IN,
+ stat, BT_INTEGER, di, OPTIONAL, INTENT_OUT);
- add_sym_2s ("atomic_ref", GFC_ISYM_ATOMIC_REF, CLASS_ATOMIC,
+ add_sym_3s ("atomic_ref", GFC_ISYM_ATOMIC_REF, CLASS_ATOMIC,
BT_UNKNOWN, 0, GFC_STD_F2008,
gfc_check_atomic_ref, NULL, gfc_resolve_atomic_ref,
"value", BT_INTEGER, di, REQUIRED, INTENT_OUT,
- "atom", BT_INTEGER, di, REQUIRED, INTENT_IN);
+ "atom", BT_INTEGER, di, REQUIRED, INTENT_IN,
+ stat, BT_INTEGER, di, OPTIONAL, INTENT_OUT);
+
+ add_sym_5s ("atomic_cas", GFC_ISYM_ATOMIC_CAS, CLASS_ATOMIC,
+ BT_UNKNOWN, 0, GFC_STD_F2018,
+ gfc_check_atomic_cas, NULL, NULL,
+ "atom", BT_INTEGER, di, REQUIRED, INTENT_INOUT,
+ "old", BT_INTEGER, di, REQUIRED, INTENT_OUT,
+ "compare", BT_INTEGER, di, REQUIRED, INTENT_IN,
+ "new", BT_INTEGER, di, REQUIRED, INTENT_IN,
+ stat, BT_INTEGER, di, OPTIONAL, INTENT_OUT);
+
+ add_sym_3s ("atomic_add", GFC_ISYM_ATOMIC_ADD, CLASS_ATOMIC,
+ BT_UNKNOWN, 0, GFC_STD_F2018,
+ gfc_check_atomic_op, NULL, NULL,
+ "atom", BT_INTEGER, di, REQUIRED, INTENT_OUT,
+ "value", BT_INTEGER, di, REQUIRED, INTENT_IN,
+ stat, BT_INTEGER, di, OPTIONAL, INTENT_OUT);
+
+ add_sym_3s ("atomic_and", GFC_ISYM_ATOMIC_AND, CLASS_ATOMIC,
+ BT_UNKNOWN, 0, GFC_STD_F2018,
+ gfc_check_atomic_op, NULL, NULL,
+ "atom", BT_INTEGER, di, REQUIRED, INTENT_OUT,
+ "value", BT_INTEGER, di, REQUIRED, INTENT_IN,
+ stat, BT_INTEGER, di, OPTIONAL, INTENT_OUT);
+
+ add_sym_3s ("atomic_or", GFC_ISYM_ATOMIC_OR, CLASS_ATOMIC,
+ BT_UNKNOWN, 0, GFC_STD_F2018,
+ gfc_check_atomic_op, NULL, NULL,
+ "atom", BT_INTEGER, di, REQUIRED, INTENT_OUT,
+ "value", BT_INTEGER, di, REQUIRED, INTENT_IN,
+ stat, BT_INTEGER, di, OPTIONAL, INTENT_OUT);
+
+ add_sym_3s ("atomic_xor", GFC_ISYM_ATOMIC_XOR, CLASS_ATOMIC,
+ BT_UNKNOWN, 0, GFC_STD_F2018,
+ gfc_check_atomic_op, NULL, NULL,
+ "atom", BT_INTEGER, di, REQUIRED, INTENT_OUT,
+ "value", BT_INTEGER, di, REQUIRED, INTENT_IN,
+ stat, BT_INTEGER, di, OPTIONAL, INTENT_OUT);
+
+ add_sym_4s ("atomic_fetch_add", GFC_ISYM_ATOMIC_FETCH_ADD, CLASS_ATOMIC,
+ BT_UNKNOWN, 0, GFC_STD_F2018,
+ gfc_check_atomic_fetch_op, NULL, NULL,
+ "atom", BT_INTEGER, di, REQUIRED, INTENT_OUT,
+ "value", BT_INTEGER, di, REQUIRED, INTENT_IN,
+ "old", BT_INTEGER, di, REQUIRED, INTENT_OUT,
+ stat, BT_INTEGER, di, OPTIONAL, INTENT_OUT);
+
+ add_sym_4s ("atomic_fetch_and", GFC_ISYM_ATOMIC_FETCH_AND, CLASS_ATOMIC,
+ BT_UNKNOWN, 0, GFC_STD_F2018,
+ gfc_check_atomic_fetch_op, NULL, NULL,
+ "atom", BT_INTEGER, di, REQUIRED, INTENT_OUT,
+ "value", BT_INTEGER, di, REQUIRED, INTENT_IN,
+ "old", BT_INTEGER, di, REQUIRED, INTENT_OUT,
+ stat, BT_INTEGER, di, OPTIONAL, INTENT_OUT);
+
+ add_sym_4s ("atomic_fetch_or", GFC_ISYM_ATOMIC_FETCH_OR, CLASS_ATOMIC,
+ BT_UNKNOWN, 0, GFC_STD_F2018,
+ gfc_check_atomic_fetch_op, NULL, NULL,
+ "atom", BT_INTEGER, di, REQUIRED, INTENT_OUT,
+ "value", BT_INTEGER, di, REQUIRED, INTENT_IN,
+ "old", BT_INTEGER, di, REQUIRED, INTENT_OUT,
+ stat, BT_INTEGER, di, OPTIONAL, INTENT_OUT);
+
+ add_sym_4s ("atomic_fetch_xor", GFC_ISYM_ATOMIC_FETCH_XOR, CLASS_ATOMIC,
+ BT_UNKNOWN, 0, GFC_STD_F2018,
+ gfc_check_atomic_fetch_op, NULL, NULL,
+ "atom", BT_INTEGER, di, REQUIRED, INTENT_OUT,
+ "value", BT_INTEGER, di, REQUIRED, INTENT_IN,
+ "old", BT_INTEGER, di, REQUIRED, INTENT_OUT,
+ stat, BT_INTEGER, di, OPTIONAL, INTENT_OUT);
+
+ add_sym_0s ("backtrace", GFC_ISYM_BACKTRACE, GFC_STD_GNU, NULL);
add_sym_1s ("cpu_time", GFC_ISYM_CPU_TIME, CLASS_IMPURE, BT_UNKNOWN, 0,
GFC_STD_F95, gfc_check_cpu_time, NULL, gfc_resolve_cpu_time,
tm, BT_REAL, dr, REQUIRED, INTENT_OUT);
+ add_sym_3s ("event_query", GFC_ISYM_EVENT_QUERY, CLASS_ATOMIC,
+ BT_UNKNOWN, 0, GFC_STD_F2018,
+ gfc_check_event_query, NULL, gfc_resolve_event_query,
+ "event", BT_INTEGER, di, REQUIRED, INTENT_IN,
+ c, BT_INTEGER, di, OPTIONAL, INTENT_IN,
+ stat, BT_INTEGER, di, OPTIONAL, INTENT_OUT);
+
/* More G77 compatibility garbage. */
add_sym_2s ("ctime", GFC_ISYM_CTIME, CLASS_IMPURE, BT_UNKNOWN, 0, GFC_STD_GNU,
gfc_check_ctime_sub, NULL, gfc_resolve_ctime_sub,
t, BT_UNKNOWN, 0, REQUIRED, INTENT_OUT);
add_sym_5s ("mvbits", GFC_ISYM_MVBITS, CLASS_ELEMENTAL, BT_UNKNOWN, 0,
- GFC_STD_F95, gfc_check_mvbits, gfc_simplify_mvbits,
- gfc_resolve_mvbits,
+ GFC_STD_F95, gfc_check_mvbits, NULL, gfc_resolve_mvbits,
f, BT_INTEGER, di, REQUIRED, INTENT_IN,
fp, BT_INTEGER, di, REQUIRED, INTENT_IN,
ln, BT_INTEGER, di, REQUIRED, INTENT_IN,
t, BT_INTEGER, di, REQUIRED, INTENT_INOUT,
tp, BT_INTEGER, di, REQUIRED, INTENT_IN);
+ if (flag_dec_intrinsic_ints)
+ {
+ make_alias ("bmvbits", GFC_STD_GNU);
+ make_alias ("imvbits", GFC_STD_GNU);
+ make_alias ("jmvbits", GFC_STD_GNU);
+ make_alias ("kmvbits", GFC_STD_GNU);
+ }
+
+ add_sym_2s ("random_init", GFC_ISYM_RANDOM_INIT, CLASS_IMPURE,
+ BT_UNKNOWN, 0, GFC_STD_F2018,
+ gfc_check_random_init, NULL, gfc_resolve_random_init,
+ "repeatable", BT_LOGICAL, dl, REQUIRED, INTENT_IN,
+ "image_distinct", BT_LOGICAL, dl, REQUIRED, INTENT_IN);
+
add_sym_1s ("random_number", GFC_ISYM_RANDOM_NUMBER, CLASS_IMPURE,
BT_UNKNOWN, 0, GFC_STD_F95,
gfc_check_random_number, NULL, gfc_resolve_random_number,
pt, BT_INTEGER, di, OPTIONAL, INTENT_IN,
gt, BT_INTEGER, di, OPTIONAL, INTENT_OUT);
+ /* The following subroutines are part of ISO_C_BINDING. */
+
+ add_sym_3s ("c_f_pointer", GFC_ISYM_C_F_POINTER, CLASS_IMPURE, BT_UNKNOWN, 0,
+ GFC_STD_F2003, gfc_check_c_f_pointer, NULL, NULL,
+ "cptr", BT_VOID, 0, REQUIRED, INTENT_IN,
+ "fptr", BT_UNKNOWN, 0, REQUIRED, INTENT_OUT,
+ "shape", BT_INTEGER, di, OPTIONAL, INTENT_IN);
+ make_from_module();
+
+ add_sym_2s ("c_f_procpointer", GFC_ISYM_C_F_PROCPOINTER, CLASS_IMPURE,
+ BT_UNKNOWN, 0, GFC_STD_F2003, gfc_check_c_f_procpointer,
+ NULL, NULL,
+ "cptr", BT_VOID, 0, REQUIRED, INTENT_IN,
+ "fptr", BT_UNKNOWN, 0, REQUIRED, INTENT_OUT);
+ make_from_module();
+
+ /* Internal subroutine for emitting a runtime error. */
+
+ add_sym_1p ("fe_runtime_error", GFC_ISYM_FE_RUNTIME_ERROR, CLASS_IMPURE,
+ BT_UNKNOWN, 0, GFC_STD_GNU,
+ gfc_check_fe_runtime_error, NULL, gfc_resolve_fe_runtime_error,
+ "msg", BT_CHARACTER, dc, REQUIRED, INTENT_IN);
+
+ make_noreturn ();
+ make_vararg ();
+ make_from_module ();
+
+ /* Coarray collectives. */
+ add_sym_4s ("co_broadcast", GFC_ISYM_CO_BROADCAST, CLASS_IMPURE,
+ BT_UNKNOWN, 0, GFC_STD_F2018,
+ gfc_check_co_broadcast, NULL, NULL,
+ a, BT_REAL, dr, REQUIRED, INTENT_INOUT,
+ "source_image", BT_INTEGER, di, REQUIRED, INTENT_IN,
+ stat, BT_INTEGER, di, OPTIONAL, INTENT_OUT,
+ errmsg, BT_CHARACTER, dc, OPTIONAL, INTENT_OUT);
+
+ add_sym_4s ("co_max", GFC_ISYM_CO_MAX, CLASS_IMPURE,
+ BT_UNKNOWN, 0, GFC_STD_F2018,
+ gfc_check_co_minmax, NULL, NULL,
+ a, BT_REAL, dr, REQUIRED, INTENT_INOUT,
+ result_image, BT_INTEGER, di, OPTIONAL, INTENT_IN,
+ stat, BT_INTEGER, di, OPTIONAL, INTENT_OUT,
+ errmsg, BT_CHARACTER, dc, OPTIONAL, INTENT_OUT);
+
+ add_sym_4s ("co_min", GFC_ISYM_CO_MIN, CLASS_IMPURE,
+ BT_UNKNOWN, 0, GFC_STD_F2018,
+ gfc_check_co_minmax, NULL, NULL,
+ a, BT_REAL, dr, REQUIRED, INTENT_INOUT,
+ result_image, BT_INTEGER, di, OPTIONAL, INTENT_IN,
+ stat, BT_INTEGER, di, OPTIONAL, INTENT_OUT,
+ errmsg, BT_CHARACTER, dc, OPTIONAL, INTENT_OUT);
+
+ add_sym_4s ("co_sum", GFC_ISYM_CO_SUM, CLASS_IMPURE,
+ BT_UNKNOWN, 0, GFC_STD_F2018,
+ gfc_check_co_sum, NULL, NULL,
+ a, BT_REAL, dr, REQUIRED, INTENT_INOUT,
+ result_image, BT_INTEGER, di, OPTIONAL, INTENT_IN,
+ stat, BT_INTEGER, di, OPTIONAL, INTENT_OUT,
+ errmsg, BT_CHARACTER, dc, OPTIONAL, INTENT_OUT);
+
+ add_sym_5s ("co_reduce", GFC_ISYM_CO_REDUCE, CLASS_IMPURE,
+ BT_UNKNOWN, 0, GFC_STD_F2018,
+ gfc_check_co_reduce, NULL, NULL,
+ a, BT_REAL, dr, REQUIRED, INTENT_INOUT,
+ "operator", BT_INTEGER, di, REQUIRED, INTENT_IN,
+ result_image, BT_INTEGER, di, OPTIONAL, INTENT_IN,
+ stat, BT_INTEGER, di, OPTIONAL, INTENT_OUT,
+ errmsg, BT_CHARACTER, dc, OPTIONAL, INTENT_OUT);
+
+
+ /* The following subroutine is internally used for coarray libray functions.
+ "make_from_module" makes it inaccessible for external users. */
+ add_sym_2s (GFC_PREFIX ("caf_send"), GFC_ISYM_CAF_SEND, CLASS_IMPURE,
+ BT_UNKNOWN, 0, GFC_STD_GNU, NULL, NULL, NULL,
+ "x", BT_REAL, dr, REQUIRED, INTENT_OUT,
+ "y", BT_REAL, dr, REQUIRED, INTENT_IN);
+ make_from_module();
+
+
/* More G77 compatibility garbage. */
add_sym_3s ("alarm", GFC_ISYM_ALARM, CLASS_IMPURE, BT_UNKNOWN, 0, GFC_STD_GNU,
gfc_check_alarm_sub, NULL, gfc_resolve_alarm_sub,
st, BT_INTEGER, di, OPTIONAL, INTENT_OUT);
add_sym_1s ("free", GFC_ISYM_FREE, CLASS_IMPURE, BT_UNKNOWN, 0, GFC_STD_GNU,
- gfc_check_free, NULL, gfc_resolve_free,
+ gfc_check_free, NULL, NULL,
ptr, BT_INTEGER, ii, REQUIRED, INTENT_INOUT);
add_sym_4s ("fseek", GFC_ISYM_FSEEK, CLASS_IMPURE, BT_UNKNOWN, 0, GFC_STD_GNU,
st, BT_INTEGER, di, OPTIONAL, INTENT_OUT);
add_sym_3s ("kill", GFC_ISYM_KILL, CLASS_IMPURE, BT_UNKNOWN, 0, GFC_STD_GNU,
- gfc_check_kill_sub, NULL, gfc_resolve_kill_sub,
- c, BT_INTEGER, di, REQUIRED, INTENT_IN,
- val, BT_INTEGER, di, REQUIRED, INTENT_IN,
+ gfc_check_kill_sub, NULL, NULL,
+ pid, BT_INTEGER, di, REQUIRED, INTENT_IN,
+ sig, BT_INTEGER, di, REQUIRED, INTENT_IN,
st, BT_INTEGER, di, OPTIONAL, INTENT_OUT);
add_sym_3s ("link", GFC_ISYM_LINK, CLASS_IMPURE, BT_UNKNOWN, 0, GFC_STD_GNU,
with the format arglist. Arguments that are not present are given
a blank gfc_actual_arglist structure. If something is obviously
wrong (say, a missing required argument) we abort sorting and
- return FAILURE. */
+ return false. */
-static gfc_try
+static bool
sort_actual (const char *name, gfc_actual_arglist **ap,
gfc_intrinsic_arg *formal, locus *where)
{
a = actual;
if (f == NULL && a == NULL) /* No arguments */
- return SUCCESS;
+ return true;
for (;;)
{ /* Put the nonkeyword arguments in a 1:1 correspondence */
if (a == NULL)
goto do_sort;
- gfc_error ("Too many arguments in call to '%s' at %L", name, where);
- return FAILURE;
+ gfc_error ("Too many arguments in call to %qs at %L", name, where);
+ return false;
keywords:
/* Associate the remaining actual arguments, all of which have
gfc_error ("The argument list functions %%VAL, %%LOC or %%REF "
"are not allowed in this context at %L", where);
else
- gfc_error ("Can't find keyword named '%s' in call to '%s' at %L",
+ gfc_error ("Can't find keyword named %qs in call to %qs at %L",
a->name, name, where);
- return FAILURE;
+ return false;
}
if (f->actual != NULL)
{
- gfc_error ("Argument '%s' appears twice in call to '%s' at %L",
+ gfc_error ("Argument %qs appears twice in call to %qs at %L",
f->name, name, where);
- return FAILURE;
+ return false;
}
f->actual = a;
{
if (f->actual == NULL && f->optional == 0)
{
- gfc_error ("Missing actual argument '%s' in call to '%s' at %L",
+ gfc_error ("Missing actual argument %qs in call to %qs at %L",
f->name, name, where);
- return FAILURE;
+ return false;
}
}
if (f->actual && f->actual->label != NULL && f->ts.type)
{
gfc_error ("ALTERNATE RETURN not permitted at %L", where);
- return FAILURE;
+ return false;
}
if (f->actual == NULL)
}
actual->next = NULL; /* End the sorted argument list. */
- return SUCCESS;
+ return true;
}
list. The lists are checked for agreement of type. We don't check
for arrayness here. */
-static gfc_try
+static bool
check_arglist (gfc_actual_arglist **ap, gfc_intrinsic_sym *sym,
int error_flag)
{
if (!gfc_compare_types (&ts, &actual->expr->ts))
{
if (error_flag)
- gfc_error ("Type of argument '%s' in call to '%s' at %L should "
+ gfc_error ("Type of argument %qs in call to %qs at %L should "
"be %s, not %s", gfc_current_intrinsic_arg[i]->name,
gfc_current_intrinsic, &actual->expr->where,
gfc_typename (&formal->ts),
gfc_typename (&actual->expr->ts));
- return FAILURE;
+ return false;
}
/* If the formal argument is INTENT([IN]OUT), check for definability. */
: NULL);
/* No pointer arguments for intrinsics. */
- if (gfc_check_vardef_context (actual->expr, false, false, context)
- == FAILURE)
- return FAILURE;
+ if (!gfc_check_vardef_context (actual->expr, false, false, false, context))
+ return false;
}
}
- return SUCCESS;
+ return true;
}
static void
resolve_intrinsic (gfc_intrinsic_sym *specific, gfc_expr *e)
{
- gfc_expr *a1, *a2, *a3, *a4, *a5;
+ gfc_expr *a1, *a2, *a3, *a4, *a5, *a6;
gfc_actual_arglist *arg;
if (specific->resolve.f1 == NULL)
return;
}
+ a6 = arg->expr;
+ arg = arg->next;
+
+ if (arg == NULL)
+ {
+ (*specific->resolve.f6) (e, a1, a2, a3, a4, a5, a6);
+ return;
+ }
+
gfc_internal_error ("resolve_intrinsic(): Too many args for intrinsic");
}
/* Given an intrinsic symbol node and an expression node, call the
simplification function (if there is one), perhaps replacing the
- expression with something simpler. We return FAILURE on an error
- of the simplification, SUCCESS if the simplification worked, even
+ expression with something simpler. We return false on an error
+ of the simplification, true if the simplification worked, even
if nothing has changed in the expression itself. */
-static gfc_try
+static bool
do_simplify (gfc_intrinsic_sym *specific, gfc_expr *e)
{
- gfc_expr *result, *a1, *a2, *a3, *a4, *a5;
+ gfc_expr *result, *a1, *a2, *a3, *a4, *a5, *a6;
gfc_actual_arglist *arg;
/* Max and min require special handling due to the variable number
goto finish;
}
+ /* Some math intrinsics need to wrap the original expression. */
+ if (specific->simplify.f1 == gfc_simplify_trigd
+ || specific->simplify.f1 == gfc_simplify_atrigd
+ || specific->simplify.f1 == gfc_simplify_cotan)
+ {
+ result = (*specific->simplify.f1) (e);
+ goto finish;
+ }
+
if (specific->simplify.f1 == NULL)
{
result = NULL;
if (arg == NULL)
result = (*specific->simplify.f5) (a1, a2, a3, a4, a5);
else
- gfc_internal_error
- ("do_simplify(): Too many args for intrinsic");
+ {
+ a6 = arg->expr;
+ arg = arg->next;
+
+ if (arg == NULL)
+ result = (*specific->simplify.f6)
+ (a1, a2, a3, a4, a5, a6);
+ else
+ gfc_internal_error
+ ("do_simplify(): Too many args for intrinsic");
+ }
}
}
}
finish:
if (result == &gfc_bad_expr)
- return FAILURE;
+ return false;
if (result == NULL)
resolve_intrinsic (specific, e); /* Must call at run-time */
gfc_replace_expr (e, result);
}
- return SUCCESS;
+ return true;
}
/* Initialize the gfc_current_intrinsic_arg[] array for the benefit of
- error messages. This subroutine returns FAILURE if a subroutine
+ error messages. This subroutine returns false if a subroutine
has more than MAX_INTRINSIC_ARGS, in which case the actual argument
list cannot match any intrinsic. */
/* Given a pointer to an intrinsic symbol and an expression consisting
of a function call, see if the function call is consistent with the
- intrinsic's formal argument list. Return SUCCESS if the expression
- and intrinsic match, FAILURE otherwise. */
+ intrinsic's formal argument list. Return true if the expression
+ and intrinsic match, false otherwise. */
-static gfc_try
+static bool
check_specific (gfc_intrinsic_sym *specific, gfc_expr *expr, int error_flag)
{
gfc_actual_arglist *arg, **ap;
- gfc_try t;
+ bool t;
ap = &expr->value.function.actual;
|| specific->check.f1m == gfc_check_min_max_integer
|| specific->check.f1m == gfc_check_min_max_real
|| specific->check.f1m == gfc_check_min_max_double)
- return (*specific->check.f1m) (*ap);
+ {
+ if (!do_ts29113_check (specific, *ap))
+ return false;
+ return (*specific->check.f1m) (*ap);
+ }
- if (sort_actual (specific->name, ap, specific->formal,
- &expr->where) == FAILURE)
- return FAILURE;
+ if (!sort_actual (specific->name, ap, specific->formal, &expr->where))
+ return false;
- if (specific->check.f3ml == gfc_check_minloc_maxloc)
+ if (!do_ts29113_check (specific, *ap))
+ return false;
+
+ if (specific->check.f5ml == gfc_check_minloc_maxloc)
/* This is special because we might have to reorder the argument list. */
t = gfc_check_minloc_maxloc (*ap);
+ else if (specific->check.f6fl == gfc_check_findloc)
+ t = gfc_check_findloc (*ap);
else if (specific->check.f3red == gfc_check_minval_maxval)
/* This is also special because we also might have to reorder the
argument list. */
if (specific->check.f1 == NULL)
{
t = check_arglist (ap, specific, error_flag);
- if (t == SUCCESS)
+ if (t)
expr->ts = specific->ts;
}
else
}
/* Check conformance of elemental intrinsics. */
- if (t == SUCCESS && specific->elemental)
+ if (t && specific->elemental)
{
int n = 0;
gfc_expr *first_expr;
first_expr = arg->expr;
for ( ; arg && arg->expr; arg = arg->next, n++)
- if (gfc_check_conformance (first_expr, arg->expr,
- "arguments '%s' and '%s' for "
- "intrinsic '%s'",
- gfc_current_intrinsic_arg[0]->name,
- gfc_current_intrinsic_arg[n]->name,
- gfc_current_intrinsic) == FAILURE)
- return FAILURE;
+ if (!gfc_check_conformance (first_expr, arg->expr,
+ "arguments '%s' and '%s' for "
+ "intrinsic '%s'",
+ gfc_current_intrinsic_arg[0]->name,
+ gfc_current_intrinsic_arg[n]->name,
+ gfc_current_intrinsic))
+ return false;
}
- if (t == FAILURE)
+ if (!t)
remove_nullargs (ap);
return t;
textual representation of the symbols standard status (like
"new in Fortran 2008", "a GNU extension" or "obsolescent in Fortran 95") that
can be used to construct a detailed warning/error message in case of
- a FAILURE. */
+ a false. */
-gfc_try
+bool
gfc_check_intrinsic_standard (const gfc_intrinsic_sym* isym,
const char** symstd, bool silent, locus where)
{
const char* symstd_msg;
/* For -fall-intrinsics, just succeed. */
- if (gfc_option.flag_all_intrinsics)
- return SUCCESS;
+ if (flag_all_intrinsics)
+ return true;
/* Find the symbol's standard message for later usage. */
switch (isym->standard)
symstd_msg = "new in Fortran 2008";
break;
- case GFC_STD_F2008_TS:
- symstd_msg = "new in TS 29113";
+ case GFC_STD_F2018:
+ symstd_msg = "new in Fortran 2018";
break;
case GFC_STD_GNU:
break;
default:
- gfc_internal_error ("Invalid standard code on intrinsic '%s' (%d)",
+ gfc_internal_error ("Invalid standard code on intrinsic %qs (%d)",
isym->name, isym->standard);
}
{
/* Do only print a warning if not a GNU extension. */
if (!silent && isym->standard != GFC_STD_GNU)
- gfc_warning ("Intrinsic '%s' (is %s) is used at %L",
+ gfc_warning (0, "Intrinsic %qs (is %s) is used at %L",
isym->name, _(symstd_msg), &where);
- return SUCCESS;
+ return true;
}
/* If allowing the symbol's standard, succeed, too. */
if (gfc_option.allow_std & isym->standard)
- return SUCCESS;
+ return true;
/* Otherwise, fail. */
if (symstd)
*symstd = _(symstd_msg);
- return FAILURE;
+ return false;
}
int flag;
if (expr->value.function.isym != NULL)
- return (do_simplify (expr->value.function.isym, expr) == FAILURE)
+ return (!do_simplify(expr->value.function.isym, expr))
? MATCH_ERROR : MATCH_YES;
if (!error_flag)
if (expr->symtree->n.sym->intmod_sym_id)
{
- int id = expr->symtree->n.sym->intmod_sym_id;
- isym = specific = gfc_intrinsic_function_by_id ((gfc_isym_id) id);
+ gfc_isym_id id = gfc_isym_id_by_intmod_sym (expr->symtree->n.sym);
+ isym = specific = gfc_intrinsic_function_by_id (id);
}
else
isym = specific = gfc_find_function (name);
if ((isym->id == GFC_ISYM_REAL || isym->id == GFC_ISYM_DBLE
|| isym->id == GFC_ISYM_CMPLX)
&& gfc_init_expr_flag
- && gfc_notify_std (GFC_STD_F2003, "Fortran 2003: Function '%s' "
- "as initialization expression at %L", name,
- &expr->where) == FAILURE)
+ && !gfc_notify_std (GFC_STD_F2003, "Function %qs as initialization "
+ "expression at %L", name, &expr->where))
{
if (!error_flag)
gfc_pop_suppress_errors ();
return MATCH_ERROR;
}
+ /* F95, 7.1.6.1: Only transformational functions REPEAT, RESHAPE,
+ SELECTED_INT_KIND, SELECTED_REAL_KIND, TRANSFER, and TRIM are allowed in
+ initialization expressions. */
+
+ if (gfc_init_expr_flag && isym->transformational)
+ {
+ gfc_isym_id id = isym->id;
+ if (id != GFC_ISYM_REPEAT && id != GFC_ISYM_RESHAPE
+ && id != GFC_ISYM_SI_KIND && id != GFC_ISYM_SR_KIND
+ && id != GFC_ISYM_TRANSFER && id != GFC_ISYM_TRIM
+ && !gfc_notify_std (GFC_STD_F2003, "Transformational function %qs "
+ "at %L is invalid in an initialization "
+ "expression", name, &expr->where))
+ {
+ if (!error_flag)
+ gfc_pop_suppress_errors ();
+
+ return MATCH_ERROR;
+ }
+ }
+
gfc_current_intrinsic_where = &expr->where;
- /* Bypass the generic list for min and max. */
+ /* Bypass the generic list for min, max and ISO_C_Binding's c_loc. */
if (isym->check.f1m == gfc_check_min_max)
{
init_arglist (isym);
- if (gfc_check_min_max (expr->value.function.actual) == SUCCESS)
+ if (isym->check.f1m(expr->value.function.actual))
goto got_specific;
if (!error_flag)
{
if (specific == isym)
continue;
- if (check_specific (specific, expr, 0) == SUCCESS)
+ if (check_specific (specific, expr, 0))
{
gfc_pop_suppress_errors ();
goto got_specific;
gfc_pop_suppress_errors ();
- if (check_specific (isym, expr, error_flag) == FAILURE)
+ if (!check_specific (isym, expr, error_flag))
{
if (!error_flag)
gfc_pop_suppress_errors ();
got_specific:
expr->value.function.isym = specific;
- gfc_intrinsic_symbol (expr->symtree->n.sym);
+ if (!expr->symtree->n.sym->module)
+ gfc_intrinsic_symbol (expr->symtree->n.sym);
if (!error_flag)
gfc_pop_suppress_errors ();
- if (do_simplify (specific, expr) == FAILURE)
+ if (!do_simplify (specific, expr))
return MATCH_ERROR;
/* F95, 7.1.6.1, Initialization expressions
where each argument is an initialization expression */
if (gfc_init_expr_flag && isym->elemental && flag
- && gfc_notify_std (GFC_STD_F2003, "Fortran 2003: Elemental function "
- "as initialization expression with non-integer/non-"
- "character arguments at %L", &expr->where) == FAILURE)
+ && !gfc_notify_std (GFC_STD_F2003, "Elemental function as "
+ "initialization expression with non-integer/non-"
+ "character arguments at %L", &expr->where))
return MATCH_ERROR;
return MATCH_YES;
name = c->symtree->n.sym->name;
- isym = gfc_find_subroutine (name);
+ if (c->symtree->n.sym->intmod_sym_id)
+ {
+ gfc_isym_id id;
+ id = gfc_isym_id_by_intmod_sym (c->symtree->n.sym);
+ isym = gfc_intrinsic_subroutine_by_id (id);
+ }
+ else
+ isym = gfc_find_subroutine (name);
if (isym == NULL)
return MATCH_NO;
init_arglist (isym);
- if (sort_actual (name, &c->ext.actual, isym->formal, &c->loc) == FAILURE)
+ if (!isym->vararg && !sort_actual (name, &c->ext.actual, isym->formal, &c->loc))
+ goto fail;
+
+ if (!do_ts29113_check (isym, c->ext.actual))
goto fail;
if (isym->check.f1 != NULL)
{
- if (do_check (isym, c->ext.actual) == FAILURE)
+ if (!do_check (isym, c->ext.actual))
goto fail;
}
else
{
- if (check_arglist (&c->ext.actual, isym, 1) == FAILURE)
+ if (!check_arglist (&c->ext.actual, isym, 1))
goto fail;
}
c->resolved_sym->attr.elemental = isym->elemental;
}
- if (gfc_pure (NULL) && !isym->pure)
+ if (gfc_do_concurrent_flag && !isym->pure)
{
- gfc_error ("Subroutine call to intrinsic '%s' at %L is not PURE", name,
+ gfc_error ("Subroutine call to intrinsic %qs in DO CONCURRENT "
+ "block at %L is not PURE", name, &c->loc);
+ return MATCH_ERROR;
+ }
+
+ if (!isym->pure && gfc_pure (NULL))
+ {
+ gfc_error ("Subroutine call to intrinsic %qs at %L is not PURE", name,
&c->loc);
return MATCH_ERROR;
}
+ if (!isym->pure)
+ gfc_unset_implicit_pure (NULL);
+
c->resolved_sym->attr.noreturn = isym->noreturn;
return MATCH_YES;
/* Call gfc_convert_type() with warning enabled. */
-gfc_try
+bool
gfc_convert_type (gfc_expr *expr, gfc_typespec *ts, int eflag)
{
return gfc_convert_type_warn (expr, ts, eflag, 1);
'wflag' controls the warning related to conversion. */
-gfc_try
+bool
gfc_convert_type_warn (gfc_expr *expr, gfc_typespec *ts, int eflag, int wflag)
{
gfc_intrinsic_sym *sym;
if (ts->type == BT_UNKNOWN)
goto bad;
- /* NULL and zero size arrays get their type here. */
- if (expr->expr_type == EXPR_NULL
- || (expr->expr_type == EXPR_ARRAY && expr->value.constructor == NULL))
+ expr->do_not_warn = ! wflag;
+
+ /* NULL and zero size arrays get their type here, unless they already have a
+ typespec. */
+ if ((expr->expr_type == EXPR_NULL
+ || (expr->expr_type == EXPR_ARRAY && expr->value.constructor == NULL))
+ && expr->ts.type == BT_UNKNOWN)
{
/* Sometimes the RHS acquire the type. */
expr->ts = *ts;
- return SUCCESS;
+ return true;
}
if (expr->ts.type == BT_UNKNOWN)
goto bad;
+ /* In building an array constructor, gfortran can end up here when no
+ conversion is required for an intrinsic type. We need to let derived
+ types drop through. */
+ if (from_ts.type != BT_DERIVED
+ && (from_ts.type == ts->type && from_ts.kind == ts->kind))
+ return true;
+
if (expr->ts.type == BT_DERIVED && ts->type == BT_DERIVED
&& gfc_compare_types (&expr->ts, ts))
- return SUCCESS;
+ return true;
sym = find_conv (&expr->ts, ts);
if (sym == NULL)
/* At this point, a conversion is necessary. A warning may be needed. */
if ((gfc_option.warn_std & sym->standard) != 0)
{
- gfc_warning_now ("Extension: Conversion from %s to %s at %L",
+ gfc_warning_now (0, "Extension: Conversion from %s to %s at %L",
gfc_typename (&from_ts), gfc_typename (ts),
&expr->where);
}
else if (wflag)
{
- if (gfc_option.flag_range_check
- && expr->expr_type == EXPR_CONSTANT
+ if (flag_range_check && expr->expr_type == EXPR_CONSTANT
&& from_ts.type == ts->type)
{
/* Do nothing. Constants of the same type are range-checked
/* Larger kinds can hold values of smaller kinds without problems.
Hence, only warn if target kind is smaller than the source
kind - or if -Wconversion-extra is specified. */
- if (gfc_option.warn_conversion_extra)
- gfc_warning_now ("Conversion from %s to %s at %L",
- gfc_typename (&from_ts), gfc_typename (ts),
- &expr->where);
- else if (gfc_option.gfc_warn_conversion
- && from_ts.kind > ts->kind)
- gfc_warning_now ("Possible change of value in conversion "
- "from %s to %s at %L", gfc_typename (&from_ts),
- gfc_typename (ts), &expr->where);
+ if (expr->expr_type != EXPR_CONSTANT)
+ {
+ if (warn_conversion && from_ts.kind > ts->kind)
+ gfc_warning_now (OPT_Wconversion, "Possible change of value in "
+ "conversion from %s to %s at %L",
+ gfc_typename (&from_ts), gfc_typename (ts),
+ &expr->where);
+ else if (warn_conversion_extra)
+ gfc_warning_now (OPT_Wconversion_extra, "Conversion from %s to %s "
+ "at %L", gfc_typename (&from_ts),
+ gfc_typename (ts), &expr->where);
+ }
}
else if ((from_ts.type == BT_REAL && ts->type == BT_INTEGER)
|| (from_ts.type == BT_COMPLEX && ts->type == BT_INTEGER)
{
/* Conversion from REAL/COMPLEX to INTEGER or COMPLEX to REAL
usually comes with a loss of information, regardless of kinds. */
- if (gfc_option.warn_conversion_extra
- || gfc_option.gfc_warn_conversion)
- gfc_warning_now ("Possible change of value in conversion "
- "from %s to %s at %L", gfc_typename (&from_ts),
- gfc_typename (ts), &expr->where);
+ if (warn_conversion && expr->expr_type != EXPR_CONSTANT)
+ gfc_warning_now (OPT_Wconversion, "Possible change of value in "
+ "conversion from %s to %s at %L",
+ gfc_typename (&from_ts), gfc_typename (ts),
+ &expr->where);
}
else if (from_ts.type == BT_HOLLERITH || ts->type == BT_HOLLERITH)
{
/* If HOLLERITH is involved, all bets are off. */
- if (gfc_option.warn_conversion_extra
- || gfc_option.gfc_warn_conversion)
- gfc_warning_now ("Conversion from %s to %s at %L",
+ if (warn_conversion)
+ gfc_warning_now (OPT_Wconversion, "Conversion from %s to %s at %L",
gfc_typename (&from_ts), gfc_typename (ts),
&expr->where);
}
new_expr->value.function.name = sym->lib_name;
new_expr->value.function.isym = sym;
new_expr->where = old_where;
+ new_expr->ts = *ts;
new_expr->rank = rank;
new_expr->shape = gfc_copy_shape (shape, rank);
gfc_get_ha_sym_tree (sym->name, &new_expr->symtree);
new_expr->symtree->n.sym->result = new_expr->symtree->n.sym;
- new_expr->symtree->n.sym->ts = *ts;
+ new_expr->symtree->n.sym->ts.type = ts->type;
+ new_expr->symtree->n.sym->ts.kind = ts->kind;
new_expr->symtree->n.sym->attr.flavor = FL_PROCEDURE;
new_expr->symtree->n.sym->attr.function = 1;
new_expr->symtree->n.sym->attr.elemental = 1;
expr->ts = *ts;
if (gfc_is_constant_expr (expr->value.function.actual->expr)
- && do_simplify (sym, expr) == FAILURE)
+ && !do_simplify (sym, expr))
{
if (eflag == 2)
goto bad;
- return FAILURE; /* Error already generated in do_simplify() */
+ return false; /* Error already generated in do_simplify() */
}
- return SUCCESS;
+ return true;
bad:
if (eflag == 1)
{
gfc_error ("Can't convert %s to %s at %L",
gfc_typename (&from_ts), gfc_typename (ts), &expr->where);
- return FAILURE;
+ return false;
}
- gfc_internal_error ("Can't convert %s to %s at %L",
+ gfc_internal_error ("Can't convert %qs to %qs at %L",
gfc_typename (&from_ts), gfc_typename (ts),
&expr->where);
/* Not reached */
}
-gfc_try
+bool
gfc_convert_chartype (gfc_expr *expr, gfc_typespec *ts)
{
gfc_intrinsic_sym *sym;
new_expr->value.function.name = sym->lib_name;
new_expr->value.function.isym = sym;
new_expr->where = old_where;
+ new_expr->ts = *ts;
new_expr->rank = rank;
new_expr->shape = gfc_copy_shape (shape, rank);
gfc_get_ha_sym_tree (sym->name, &new_expr->symtree);
- new_expr->symtree->n.sym->ts = *ts;
+ new_expr->symtree->n.sym->ts.type = ts->type;
+ new_expr->symtree->n.sym->ts.kind = ts->kind;
new_expr->symtree->n.sym->attr.flavor = FL_PROCEDURE;
new_expr->symtree->n.sym->attr.function = 1;
new_expr->symtree->n.sym->attr.elemental = 1;
expr->ts = *ts;
if (gfc_is_constant_expr (expr->value.function.actual->expr)
- && do_simplify (sym, expr) == FAILURE)
+ && !do_simplify (sym, expr))
{
/* Error already generated in do_simplify() */
- return FAILURE;
+ return false;
}
- return SUCCESS;
+ return true;
}
gfc_intrinsic_sym* isym;
/* If the warning is disabled, do nothing at all. */
- if (!gfc_option.warn_intrinsic_shadow)
+ if (!warn_intrinsic_shadow)
return;
/* Try to find an intrinsic of the same name. */
if (func)
isym = gfc_find_function (sym->name);
- else
+ else
isym = gfc_find_subroutine (sym->name);
/* If no intrinsic was found with this name or it's not included in the
selected standard, everything's fine. */
- if (!isym || gfc_check_intrinsic_standard (isym, NULL, true,
- sym->declared_at) == FAILURE)
+ if (!isym || !gfc_check_intrinsic_standard (isym, NULL, true,
+ sym->declared_at))
return;
/* Emit the warning. */
- if (in_module)
- gfc_warning ("'%s' declared at %L may shadow the intrinsic of the same"
+ if (in_module || sym->ns->proc_name)
+ gfc_warning (OPT_Wintrinsic_shadow,
+ "%qs declared at %L may shadow the intrinsic of the same"
" name. In order to call the intrinsic, explicit INTRINSIC"
" declarations may be required.",
sym->name, &sym->declared_at);
else
- gfc_warning ("'%s' declared at %L is also the name of an intrinsic. It can"
+ gfc_warning (OPT_Wintrinsic_shadow,
+ "%qs declared at %L is also the name of an intrinsic. It can"
" only be called via an explicit interface or if declared"
" EXTERNAL.", sym->name, &sym->declared_at);
}