/* Intrinsic function resolution.
- Copyright (C) 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007
+ Copyright (C) 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008,
+ 2009, 2010
Free Software Foundation, Inc.
Contributed by Andy Vaught & Katherine Holcomb
#include "tree.h"
#include "gfortran.h"
#include "intrinsic.h"
+#include "constructor.h"
/* Given printf-like arguments, return a stable version of the result string.
static void
check_charlen_present (gfc_expr *source)
{
- if (source->ts.cl == NULL)
- {
- source->ts.cl = gfc_get_charlen ();
- source->ts.cl->next = gfc_current_ns->cl_list;
- gfc_current_ns->cl_list = source->ts.cl;
- }
+ if (source->ts.u.cl == NULL)
+ source->ts.u.cl = gfc_new_charlen (gfc_current_ns, NULL);
if (source->expr_type == EXPR_CONSTANT)
{
- source->ts.cl->length = gfc_int_expr (source->value.character.length);
+ source->ts.u.cl->length
+ = gfc_get_int_expr (gfc_default_integer_kind, NULL,
+ source->value.character.length);
source->rank = 0;
}
else if (source->expr_type == EXPR_ARRAY)
{
- source->ts.cl->length =
- gfc_int_expr (source->value.constructor->expr->value.character.length);
- source->rank = 1;
+ gfc_constructor *c = gfc_constructor_first (source->value.constructor);
+ source->ts.u.cl->length
+ = gfc_get_int_expr (gfc_default_integer_kind, NULL,
+ c->expr->value.character.length);
}
}
/* In the library, we access the mask with a GFC_LOGICAL_1
argument. No need to waste memory if we are about to create
a temporary array. */
- if (mask->expr_type == EXPR_OP)
+ if (mask->expr_type == EXPR_OP && mask->ts.kind != 1)
{
ts.type = BT_LOGICAL;
ts.kind = 1;
- gfc_convert_type (mask, &ts, 2);
+ gfc_convert_type_warn (mask, &ts, 2, 0);
}
}
}
+
+static void
+resolve_bound (gfc_expr *f, gfc_expr *array, gfc_expr *dim, gfc_expr *kind,
+ const char *name, bool coarray)
+{
+ f->ts.type = BT_INTEGER;
+ if (kind)
+ f->ts.kind = mpz_get_si (kind->value.integer);
+ else
+ f->ts.kind = gfc_default_integer_kind;
+
+ if (dim == NULL)
+ {
+ f->rank = 1;
+ f->shape = gfc_get_shape (1);
+ mpz_init_set_ui (f->shape[0], coarray ? gfc_get_corank (array)
+ : array->rank);
+ }
+
+ f->value.function.name = xstrdup (name);
+}
+
/********************** Resolution functions **********************/
}
+void
+gfc_resolve_adjustl (gfc_expr *f, gfc_expr *string)
+{
+ f->ts.type = BT_CHARACTER;
+ f->ts.kind = string->ts.kind;
+ f->value.function.name = gfc_get_string ("__adjustl_s%d", f->ts.kind);
+}
+
+
+void
+gfc_resolve_adjustr (gfc_expr *f, gfc_expr *string)
+{
+ f->ts.type = BT_CHARACTER;
+ f->ts.kind = string->ts.kind;
+ f->value.function.name = gfc_get_string ("__adjustr_s%d", f->ts.kind);
+}
+
+
static void
gfc_resolve_char_achar (gfc_expr *f, gfc_expr *x, gfc_expr *kind,
const char *name)
f->ts.type = BT_CHARACTER;
f->ts.kind = (kind == NULL)
? gfc_default_character_kind : mpz_get_si (kind->value.integer);
- f->ts.cl = gfc_get_charlen ();
- f->ts.cl->next = gfc_current_ns->cl_list;
- gfc_current_ns->cl_list = f->ts.cl;
- f->ts.cl->length = gfc_int_expr (1);
+ f->ts.u.cl = gfc_new_charlen (gfc_current_ns, NULL);
+ f->ts.u.cl->length = gfc_get_int_expr (gfc_default_integer_kind, NULL, 1);
f->value.function.name = gfc_get_string (name, f->ts.kind,
gfc_type_letter (x->ts.type),
void
+gfc_resolve_bessel_n2 (gfc_expr *f, gfc_expr *n1, gfc_expr *n2, gfc_expr *x)
+{
+ gfc_typespec ts;
+ gfc_clear_ts (&ts);
+
+ f->ts = x->ts;
+ f->rank = 1;
+ if (n1->expr_type == EXPR_CONSTANT && n2->expr_type == EXPR_CONSTANT)
+ {
+ f->shape = gfc_get_shape (1);
+ mpz_init (f->shape[0]);
+ mpz_sub (f->shape[0], n2->value.integer, n1->value.integer);
+ mpz_add_ui (f->shape[0], f->shape[0], 1);
+ }
+
+ if (n1->ts.kind != gfc_c_int_kind)
+ {
+ ts.type = BT_INTEGER;
+ ts.kind = gfc_c_int_kind;
+ gfc_convert_type (n1, &ts, 2);
+ }
+
+ if (n2->ts.kind != gfc_c_int_kind)
+ {
+ ts.type = BT_INTEGER;
+ ts.kind = gfc_c_int_kind;
+ gfc_convert_type (n2, &ts, 2);
+ }
+
+ if (f->value.function.isym->id == GFC_ISYM_JN2)
+ f->value.function.name = gfc_get_string (PREFIX ("bessel_jn_r%d"),
+ f->ts.kind);
+ else
+ f->value.function.name = gfc_get_string (PREFIX ("bessel_yn_r%d"),
+ f->ts.kind);
+}
+
+
+void
gfc_resolve_btest (gfc_expr *f, gfc_expr *i, gfc_expr *pos)
{
f->ts.type = BT_LOGICAL;
void
gfc_resolve_dcmplx (gfc_expr *f, gfc_expr *x, gfc_expr *y)
{
- gfc_resolve_cmplx (f, x, y, gfc_int_expr (gfc_default_double_kind));
+ gfc_resolve_cmplx (f, x, y, gfc_get_int_expr (gfc_default_integer_kind, NULL,
+ gfc_default_double_kind));
}
if (dim != NULL)
{
- if (dim->expr_type != EXPR_CONSTANT && dim->symtree->n.sym->attr.optional)
+ if (dim->expr_type != EXPR_CONSTANT && dim->symtree != NULL
+ && dim->symtree->n.sym->attr.optional)
{
/* Mark this for later setting the type in gfc_conv_missing_dummy. */
dim->representation.length = shift->ts.kind;
}
}
- f->value.function.name
- = gfc_get_string (PREFIX ("cshift%d_%d%s"), n, shift->ts.kind,
- array->ts.type == BT_CHARACTER ? "_char" : "");
+ if (array->ts.type == BT_CHARACTER)
+ {
+ if (array->ts.kind == gfc_default_character_kind)
+ f->value.function.name
+ = gfc_get_string (PREFIX ("cshift%d_%d_char"), n, shift->ts.kind);
+ else
+ f->value.function.name
+ = gfc_get_string (PREFIX ("cshift%d_%d_char%d"), n, shift->ts.kind,
+ array->ts.kind);
+ }
+ else
+ f->value.function.name
+ = gfc_get_string (PREFIX ("cshift%d_%d"), n, shift->ts.kind);
}
{
ts.type = BT_INTEGER;
ts.kind = 8;
- ts.derived = NULL;
- ts.cl = NULL;
+ ts.u.derived = NULL;
+ ts.u.cl = NULL;
gfc_convert_type (time, &ts, 2);
}
temp.expr_type = EXPR_OP;
gfc_clear_ts (&temp.ts);
- temp.value.op.operator = INTRINSIC_NONE;
+ temp.value.op.op = INTRINSIC_NONE;
temp.value.op.op1 = a;
temp.value.op.op2 = b;
- gfc_type_convert_binary (&temp);
+ gfc_type_convert_binary (&temp, 1);
f->ts = temp.ts;
f->value.function.name
= gfc_get_string (PREFIX ("dot_product_%c%d"),
if (dim != NULL)
{
- if (dim->expr_type != EXPR_CONSTANT && dim->symtree->n.sym->attr.optional)
+ if (dim->expr_type != EXPR_CONSTANT && dim->symtree != NULL
+ && dim->symtree->n.sym->attr.optional)
{
/* Mark this for later setting the type in gfc_conv_missing_dummy. */
dim->representation.length = shift->ts.kind;
}
}
- f->value.function.name
- = gfc_get_string (PREFIX ("eoshift%d_%d%s"), n, shift->ts.kind,
- array->ts.type == BT_CHARACTER ? "_char" : "");
+ if (array->ts.type == BT_CHARACTER)
+ {
+ if (array->ts.kind == gfc_default_character_kind)
+ f->value.function.name
+ = gfc_get_string (PREFIX ("eoshift%d_%d_char"), n, shift->ts.kind);
+ else
+ f->value.function.name
+ = gfc_get_string (PREFIX ("eoshift%d_%d_char%d"), n, shift->ts.kind,
+ array->ts.kind);
+ }
+ else
+ f->value.function.name
+ = gfc_get_string (PREFIX ("eoshift%d_%d"), n, shift->ts.kind);
}
}
+/* Resolve the EXTENDS_TYPE_OF intrinsic function. */
+
+void
+gfc_resolve_extends_type_of (gfc_expr *f, gfc_expr *a, gfc_expr *mo)
+{
+ gfc_symbol *vtab;
+ gfc_symtree *st;
+
+ /* Prevent double resolution. */
+ if (f->ts.type == BT_LOGICAL)
+ return;
+
+ /* Replace the first argument with the corresponding vtab. */
+ if (a->ts.type == BT_CLASS)
+ gfc_add_component_ref (a, "$vptr");
+ else if (a->ts.type == BT_DERIVED)
+ {
+ vtab = gfc_find_derived_vtab (a->ts.u.derived);
+ /* Clear the old expr. */
+ gfc_free_ref_list (a->ref);
+ memset (a, '\0', sizeof (gfc_expr));
+ /* Construct a new one. */
+ a->expr_type = EXPR_VARIABLE;
+ st = gfc_find_symtree (vtab->ns->sym_root, vtab->name);
+ a->symtree = st;
+ a->ts = vtab->ts;
+ }
+
+ /* Replace the second argument with the corresponding vtab. */
+ if (mo->ts.type == BT_CLASS)
+ gfc_add_component_ref (mo, "$vptr");
+ else if (mo->ts.type == BT_DERIVED)
+ {
+ vtab = gfc_find_derived_vtab (mo->ts.u.derived);
+ /* Clear the old expr. */
+ gfc_free_ref_list (mo->ref);
+ memset (mo, '\0', sizeof (gfc_expr));
+ /* Construct a new one. */
+ mo->expr_type = EXPR_VARIABLE;
+ st = gfc_find_symtree (vtab->ns->sym_root, vtab->name);
+ mo->symtree = st;
+ mo->ts = vtab->ts;
+ }
+
+ f->ts.type = BT_LOGICAL;
+ f->ts.kind = 4;
+
+ f->value.function.isym->formal->ts = a->ts;
+ f->value.function.isym->formal->next->ts = mo->ts;
+
+ /* Call library function. */
+ f->value.function.name = gfc_get_string (PREFIX ("is_extension_of"));
+}
+
+
void
gfc_resolve_fdate (gfc_expr *f)
{
{
f->ts = x->ts;
f->value.function.name
- = gfc_get_string ("__gamma_%d", x->ts.kind);
+ = gfc_get_string ("__tgamma_%d", x->ts.kind);
}
void
+gfc_resolve_hypot (gfc_expr *f, gfc_expr *x, gfc_expr *y ATTRIBUTE_UNUSED)
+{
+ f->ts = x->ts;
+ f->value.function.name = gfc_get_string ("__hypot_r%d", x->ts.kind);
+}
+
+
+void
gfc_resolve_iand (gfc_expr *f, gfc_expr *i, gfc_expr *j)
{
/* If the kind of i and j are different, then g77 cross-promoted the
{
ts.type = BT_LOGICAL;
ts.kind = gfc_default_integer_kind;
- ts.derived = NULL;
- ts.cl = NULL;
+ ts.u.derived = NULL;
+ ts.u.cl = NULL;
gfc_convert_type (back, &ts, 2);
}
{
ts.type = BT_INTEGER;
ts.kind = gfc_c_int_kind;
- ts.derived = NULL;
- ts.cl = NULL;
+ ts.u.derived = NULL;
+ ts.u.cl = NULL;
gfc_convert_type (u, &ts, 2);
}
void
gfc_resolve_lbound (gfc_expr *f, gfc_expr *array, gfc_expr *dim, gfc_expr *kind)
{
- static char lbound[] = "__lbound";
-
- f->ts.type = BT_INTEGER;
- if (kind)
- f->ts.kind = mpz_get_si (kind->value.integer);
- else
- f->ts.kind = gfc_default_integer_kind;
+ resolve_bound (f, array, dim, kind, "__lbound", false);
+}
- if (dim == NULL)
- {
- f->rank = 1;
- f->shape = gfc_get_shape (1);
- mpz_init_set_ui (f->shape[0], array->rank);
- }
- f->value.function.name = lbound;
+void
+gfc_resolve_lcobound (gfc_expr *f, gfc_expr *array, gfc_expr *dim, gfc_expr *kind)
+{
+ resolve_bound (f, array, dim, kind, "__lcobound", true);
}
{
temp.expr_type = EXPR_OP;
gfc_clear_ts (&temp.ts);
- temp.value.op.operator = INTRINSIC_NONE;
+ temp.value.op.op = INTRINSIC_NONE;
temp.value.op.op1 = a;
temp.value.op.op2 = b;
- gfc_type_convert_binary (&temp);
+ gfc_type_convert_binary (&temp, 1);
f->ts = temp.ts;
}
f->rank = (a->rank == 2 && b->rank == 2) ? 2 : 1;
+ if (a->rank == 2 && b->rank == 2)
+ {
+ if (a->shape && b->shape)
+ {
+ f->shape = gfc_get_shape (f->rank);
+ mpz_init_set (f->shape[0], a->shape[0]);
+ mpz_init_set (f->shape[1], b->shape[1]);
+ }
+ }
+ else if (a->rank == 1)
+ {
+ if (b->shape)
+ {
+ f->shape = gfc_get_shape (f->rank);
+ mpz_init_set (f->shape[0], b->shape[1]);
+ }
+ }
+ else
+ {
+ /* b->rank == 1 and a->rank == 2 here, all other cases have
+ been caught in check.c. */
+ if (a->shape)
+ {
+ f->shape = gfc_get_shape (f->rank);
+ mpz_init_set (f->shape[0], a->shape[0]);
+ }
+ }
+
f->value.function.name
= gfc_get_string (PREFIX ("matmul_%c%d"), gfc_type_letter (f->ts.type),
f->ts.kind);
void
+gfc_resolve_norm2 (gfc_expr *f, gfc_expr *array, gfc_expr *dim)
+{
+ f->ts = array->ts;
+
+ if (dim != NULL)
+ {
+ f->rank = array->rank - 1;
+ f->shape = gfc_copy_shape_excluding (array->shape, array->rank, dim);
+ gfc_resolve_dim_arg (dim);
+ }
+
+ f->value.function.name
+ = gfc_get_string (PREFIX ("norm2_r%d"), array->ts.kind);
+}
+
+
+void
gfc_resolve_not (gfc_expr *f, gfc_expr *i)
{
f->ts = i->ts;
resolve_mask_arg (mask);
if (mask->rank != 0)
- f->value.function.name = (array->ts.type == BT_CHARACTER
- ? PREFIX ("pack_char") : PREFIX ("pack"));
+ {
+ if (array->ts.type == BT_CHARACTER)
+ f->value.function.name
+ = array->ts.kind == 1 ? PREFIX ("pack_char")
+ : gfc_get_string
+ (PREFIX ("pack_char%d"),
+ array->ts.kind);
+ else
+ f->value.function.name = PREFIX ("pack");
+ }
else
- f->value.function.name = (array->ts.type == BT_CHARACTER
- ? PREFIX ("pack_s_char") : PREFIX ("pack_s"));
+ {
+ if (array->ts.type == BT_CHARACTER)
+ f->value.function.name
+ = array->ts.kind == 1 ? PREFIX ("pack_s_char")
+ : gfc_get_string
+ (PREFIX ("pack_s_char%d"),
+ array->ts.kind);
+ else
+ f->value.function.name = PREFIX ("pack_s");
+ }
+}
+
+
+void
+gfc_resolve_parity (gfc_expr *f, gfc_expr *array, gfc_expr *dim)
+{
+ f->ts = array->ts;
+
+ if (dim != NULL)
+ {
+ f->rank = array->rank - 1;
+ f->shape = gfc_copy_shape_excluding (array->shape, array->rank, dim);
+ gfc_resolve_dim_arg (dim);
+ }
+
+ resolve_mask_arg (array);
+
+ f->value.function.name
+ = gfc_get_string (PREFIX ("parity_l%d"), array->ts.kind);
}
if (dim != NULL)
{
f->rank = array->rank - 1;
+ f->shape = gfc_copy_shape_excluding (array->shape, array->rank, dim);
gfc_resolve_dim_arg (dim);
}
case BT_REAL:
case BT_INTEGER:
case BT_LOGICAL:
+ case BT_CHARACTER:
kind = source->ts.kind;
break;
= gfc_get_string (PREFIX ("reshape_%c%d"),
gfc_type_letter (source->ts.type),
source->ts.kind);
+ else if (source->ts.type == BT_CHARACTER)
+ f->value.function.name = gfc_get_string (PREFIX ("reshape_char%d"),
+ kind);
else
f->value.function.name
= gfc_get_string (PREFIX ("reshape_%d"), source->ts.kind);
-
break;
default:
f->value.function.name = (source->ts.type == BT_CHARACTER
- ? PREFIX ("reshape_char") : PREFIX ("reshape"));
+ ? PREFIX ("reshape_char") : PREFIX ("reshape"));
break;
}
{
gfc_constructor *c;
f->shape = gfc_get_shape (f->rank);
- c = shape->value.constructor;
+ c = gfc_constructor_first (shape->value.constructor);
for (i = 0; i < f->rank; i++)
{
mpz_init_set (f->shape[i], c->expr->value.integer);
- c = c->next;
+ c = gfc_constructor_next (c);
}
}
void
gfc_resolve_rrspacing (gfc_expr *f, gfc_expr *x)
{
- int k;
- gfc_actual_arglist *prec;
-
f->ts = x->ts;
f->value.function.name = gfc_get_string ("__rrspacing_%d", x->ts.kind);
-
- /* Create a hidden argument to the library routines for rrspacing. This
- hidden argument is the precision of x. */
- k = gfc_validate_kind (BT_REAL, x->ts.kind, false);
- prec = gfc_get_actual_arglist ();
- prec->name = "p";
- prec->expr = gfc_int_expr (gfc_real_kinds[k].digits);
- /* The library routine expects INTEGER(4). */
- if (prec->expr->ts.kind != gfc_c_int_kind)
- {
- gfc_typespec ts;
- gfc_clear_ts (&ts);
- ts.type = BT_INTEGER;
- ts.kind = gfc_c_int_kind;
- gfc_convert_type (prec->expr, &ts, 2);
- }
- f->value.function.actual->next = prec;
}
void
-gfc_resolve_scale (gfc_expr *f, gfc_expr *x, gfc_expr *i)
+gfc_resolve_scale (gfc_expr *f, gfc_expr *x, gfc_expr *i ATTRIBUTE_UNUSED)
{
f->ts = x->ts;
-
- /* The implementation calls scalbn which takes an int as the
- second argument. */
- if (i->ts.kind != gfc_c_int_kind)
- {
- gfc_typespec ts;
- gfc_clear_ts (&ts);
- ts.type = BT_INTEGER;
- ts.kind = gfc_c_int_kind;
- gfc_convert_type_warn (i, &ts, 2, 0);
- }
-
f->value.function.name = gfc_get_string ("__scale_%d", x->ts.kind);
}
void
-gfc_resolve_set_exponent (gfc_expr *f, gfc_expr *x, gfc_expr *i)
+gfc_resolve_set_exponent (gfc_expr *f, gfc_expr *x,
+ gfc_expr *i ATTRIBUTE_UNUSED)
{
f->ts = x->ts;
-
- /* The library implementation uses GFC_INTEGER_4 unconditionally,
- convert type so we don't have to implement all possible
- permutations. */
- if (i->ts.kind != gfc_c_int_kind)
- {
- gfc_typespec ts;
- gfc_clear_ts (&ts);
- ts.type = BT_INTEGER;
- ts.kind = gfc_c_int_kind;
- gfc_convert_type_warn (i, &ts, 2, 0);
- }
-
f->value.function.name = gfc_get_string ("__set_exponent_%d", x->ts.kind);
}
void
gfc_resolve_spacing (gfc_expr *f, gfc_expr *x)
{
- int k;
- gfc_actual_arglist *prec, *tiny, *emin_1;
-
f->ts = x->ts;
f->value.function.name = gfc_get_string ("__spacing_%d", x->ts.kind);
-
- /* Create hidden arguments to the library routine for spacing. These
- hidden arguments are tiny(x), min_exponent - 1, and the precision
- of x. */
-
- k = gfc_validate_kind (BT_REAL, x->ts.kind, false);
-
- tiny = gfc_get_actual_arglist ();
- tiny->name = "tiny";
- tiny->expr = gfc_get_expr ();
- tiny->expr->expr_type = EXPR_CONSTANT;
- tiny->expr->where = gfc_current_locus;
- tiny->expr->ts.type = x->ts.type;
- tiny->expr->ts.kind = x->ts.kind;
- mpfr_init (tiny->expr->value.real);
- mpfr_set (tiny->expr->value.real, gfc_real_kinds[k].tiny, GFC_RND_MODE);
-
- emin_1 = gfc_get_actual_arglist ();
- emin_1->name = "emin";
- emin_1->expr = gfc_int_expr (gfc_real_kinds[k].min_exponent - 1);
-
- /* The library routine expects INTEGER(4). */
- if (emin_1->expr->ts.kind != gfc_c_int_kind)
- {
- gfc_typespec ts;
- gfc_clear_ts (&ts);
- ts.type = BT_INTEGER;
- ts.kind = gfc_c_int_kind;
- gfc_convert_type (emin_1->expr, &ts, 2);
- }
- emin_1->next = tiny;
-
- prec = gfc_get_actual_arglist ();
- prec->name = "prec";
- prec->expr = gfc_int_expr (gfc_real_kinds[k].digits);
-
- /* The library routine expects INTEGER(4). */
- if (prec->expr->ts.kind != gfc_c_int_kind)
- {
- gfc_typespec ts;
- gfc_clear_ts (&ts);
- ts.type = BT_INTEGER;
- ts.kind = gfc_c_int_kind;
- gfc_convert_type (prec->expr, &ts, 2);
- }
- prec->next = emin_1;
-
- f->value.function.actual->next = prec;
}
f->ts = source->ts;
f->rank = source->rank + 1;
if (source->rank == 0)
- f->value.function.name = (source->ts.type == BT_CHARACTER
- ? PREFIX ("spread_char_scalar")
- : PREFIX ("spread_scalar"));
+ {
+ if (source->ts.type == BT_CHARACTER)
+ f->value.function.name
+ = source->ts.kind == 1 ? PREFIX ("spread_char_scalar")
+ : gfc_get_string
+ (PREFIX ("spread_char%d_scalar"),
+ source->ts.kind);
+ else
+ f->value.function.name = PREFIX ("spread_scalar");
+ }
else
- f->value.function.name = (source->ts.type == BT_CHARACTER
- ? PREFIX ("spread_char")
- : PREFIX ("spread"));
+ {
+ if (source->ts.type == BT_CHARACTER)
+ f->value.function.name
+ = source->ts.kind == 1 ? PREFIX ("spread_char")
+ : gfc_get_string
+ (PREFIX ("spread_char%d"),
+ source->ts.kind);
+ else
+ f->value.function.name = PREFIX ("spread");
+ }
if (dim && gfc_is_constant_expr (dim)
&& ncopies && gfc_is_constant_expr (ncopies) && source->shape[0])
{
ts.type = BT_INTEGER;
ts.kind = gfc_c_int_kind;
- ts.derived = NULL;
- ts.cl = NULL;
+ ts.u.derived = NULL;
+ ts.u.cl = NULL;
gfc_convert_type (u, &ts, 2);
}
{
ts.type = BT_INTEGER;
ts.kind = gfc_c_int_kind;
- ts.derived = NULL;
- ts.cl = NULL;
+ ts.u.derived = NULL;
+ ts.u.cl = NULL;
gfc_convert_type (u, &ts, 2);
}
{
ts.type = BT_INTEGER;
ts.kind = gfc_c_int_kind;
- ts.derived = NULL;
- ts.cl = NULL;
+ ts.u.derived = NULL;
+ ts.u.cl = NULL;
gfc_convert_type (u, &ts, 2);
}
void
+gfc_resolve_storage_size (gfc_expr *f, gfc_expr *a ATTRIBUTE_UNUSED,
+ gfc_expr *kind)
+{
+ f->ts.type = BT_INTEGER;
+ if (kind)
+ f->ts.kind = mpz_get_si (kind->value.integer);
+ else
+ f->ts.kind = gfc_default_integer_kind;
+}
+
+
+void
gfc_resolve_sum (gfc_expr *f, gfc_expr *array, gfc_expr *dim, gfc_expr *mask)
{
const char *name;
if (dim != NULL)
{
f->rank = array->rank - 1;
+ f->shape = gfc_copy_shape_excluding (array->shape, array->rank, dim);
gfc_resolve_dim_arg (dim);
}
void
+gfc_resolve_image_index (gfc_expr *f, gfc_expr *array ATTRIBUTE_UNUSED,
+ gfc_expr *sub ATTRIBUTE_UNUSED)
+{
+ static char this_image[] = "__image_index";
+ f->ts.kind = gfc_default_integer_kind;
+ f->value.function.name = this_image;
+}
+
+
+void
+gfc_resolve_this_image (gfc_expr *f, gfc_expr *array, gfc_expr *dim)
+{
+ resolve_bound (f, array, dim, NULL, "__this_image", true);
+}
+
+
+void
gfc_resolve_time (gfc_expr *f)
{
f->ts.type = BT_INTEGER;
/* TODO: Make this do something meaningful. */
static char transfer0[] = "__transfer0", transfer1[] = "__transfer1";
- if (mold->ts.type == BT_CHARACTER && !mold->ts.cl->length
- && !(mold->expr_type == EXPR_VARIABLE && mold->symtree->n.sym->attr.dummy))
- mold->ts.cl->length = gfc_int_expr (mold->value.character.length);
+ if (mold->ts.type == BT_CHARACTER
+ && !mold->ts.u.cl->length
+ && gfc_is_constant_expr (mold))
+ {
+ int len;
+ if (mold->expr_type == EXPR_CONSTANT)
+ {
+ len = mold->value.character.length;
+ mold->ts.u.cl->length = gfc_get_int_expr (gfc_default_integer_kind,
+ NULL, len);
+ }
+ else
+ {
+ gfc_constructor *c = gfc_constructor_first (mold->value.constructor);
+ len = c->expr->value.character.length;
+ mold->ts.u.cl->length = gfc_get_int_expr (gfc_default_integer_kind,
+ NULL, len);
+ }
+ }
f->ts = mold->ts;
break;
default:
- f->value.function.name = PREFIX ("transpose");
+ if (matrix->ts.type == BT_CHARACTER && matrix->ts.kind == 4)
+ f->value.function.name = PREFIX ("transpose_char4");
+ else
+ f->value.function.name = PREFIX ("transpose");
break;
}
break;
void
gfc_resolve_ubound (gfc_expr *f, gfc_expr *array, gfc_expr *dim, gfc_expr *kind)
{
- static char ubound[] = "__ubound";
+ resolve_bound (f, array, dim, kind, "__ubound", false);
+}
- f->ts.type = BT_INTEGER;
- if (kind)
- f->ts.kind = mpz_get_si (kind->value.integer);
- else
- f->ts.kind = gfc_default_integer_kind;
- if (dim == NULL)
- {
- f->rank = 1;
- f->shape = gfc_get_shape (1);
- mpz_init_set_ui (f->shape[0], array->rank);
- }
-
- f->value.function.name = ubound;
+void
+gfc_resolve_ucobound (gfc_expr *f, gfc_expr *array, gfc_expr *dim, gfc_expr *kind)
+{
+ resolve_bound (f, array, dim, kind, "__ucobound", true);
}
{
ts.type = BT_INTEGER;
ts.kind = gfc_c_int_kind;
- ts.derived = NULL;
- ts.cl = NULL;
+ ts.u.derived = NULL;
+ ts.u.cl = NULL;
gfc_convert_type (unit, &ts, 2);
}
f->rank = mask->rank;
resolve_mask_arg (mask);
- f->value.function.name
- = gfc_get_string (PREFIX ("unpack%d%s"), field->rank > 0 ? 1 : 0,
- vector->ts.type == BT_CHARACTER ? "_char" : "");
+ if (vector->ts.type == BT_CHARACTER)
+ {
+ if (vector->ts.kind == 1)
+ f->value.function.name
+ = gfc_get_string (PREFIX ("unpack%d_char"), field->rank > 0 ? 1 : 0);
+ else
+ f->value.function.name
+ = gfc_get_string (PREFIX ("unpack%d_char%d"),
+ field->rank > 0 ? 1 : 0, vector->ts.kind);
+ }
+ else
+ f->value.function.name
+ = gfc_get_string (PREFIX ("unpack%d"), field->rank > 0 ? 1 : 0);
}
gfc_resolve_alarm_sub (gfc_code *c)
{
const char *name;
- gfc_expr *seconds, *handler, *status;
+ gfc_expr *seconds, *handler;
gfc_typespec ts;
gfc_clear_ts (&ts);
seconds = c->ext.actual->expr;
handler = c->ext.actual->next->expr;
- status = c->ext.actual->next->next->expr;
ts.type = BT_INTEGER;
ts.kind = gfc_c_int_kind;
}
+/* Create a formal arglist based on an actual one and set the INTENTs given. */
+
+static gfc_formal_arglist*
+create_formal_for_intents (gfc_actual_arglist* actual, const sym_intent* ints)
+{
+ gfc_formal_arglist* head;
+ gfc_formal_arglist* tail;
+ int i;
+
+ if (!actual)
+ return NULL;
+
+ head = tail = gfc_get_formal_arglist ();
+ for (i = 0; actual; actual = actual->next, tail = tail->next, ++i)
+ {
+ gfc_symbol* sym;
+
+ sym = gfc_new_symbol ("dummyarg", NULL);
+ sym->ts = actual->expr->ts;
+
+ sym->attr.intent = ints[i];
+ tail->sym = sym;
+
+ if (actual->next)
+ tail->next = gfc_get_formal_arglist ();
+ }
+
+ return head;
+}
+
+
void
gfc_resolve_mvbits (gfc_code *c)
{
+ static const sym_intent INTENTS[] = {INTENT_IN, INTENT_IN, INTENT_IN,
+ INTENT_INOUT, INTENT_IN};
+
const char *name;
gfc_typespec ts;
gfc_clear_ts (&ts);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
/* Mark as elemental subroutine as this does not happen automatically. */
c->resolved_sym->attr.elemental = 1;
+
+ /* Create a dummy formal arglist so the INTENTs are known later for purpose
+ of creating temporaries. */
+ c->resolved_sym->formal = create_formal_for_intents (c->ext.actual, INTENTS);
}
}
+/* Resolve the EXECUTE_COMMAND_LINE intrinsic subroutine. */
+void
+gfc_resolve_execute_command_line (gfc_code *c)
+{
+ const char *name;
+ name = gfc_get_string (PREFIX ("execute_command_line_i%d"),
+ gfc_default_integer_kind);
+ c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
+}
+
+
/* Resolve the EXIT intrinsic subroutine. */
void
{
ts.type = BT_INTEGER;
ts.kind = 8;
- ts.derived = NULL;
- ts.cl = NULL;
+ ts.u.derived = NULL;
+ ts.u.cl = NULL;
gfc_convert_type (c->ext.actual->expr, &ts, 2);
}
{
ts.type = BT_INTEGER;
ts.kind = gfc_c_int_kind;
- ts.derived = NULL;
- ts.cl = NULL;
+ ts.u.derived = NULL;
+ ts.u.cl = NULL;
gfc_convert_type (u, &ts, 2);
}
{
ts.type = BT_INTEGER;
ts.kind = gfc_c_int_kind;
- ts.derived = NULL;
- ts.cl = NULL;
+ ts.u.derived = NULL;
+ ts.u.cl = NULL;
gfc_convert_type (u, &ts, 2);
}
gfc_expr *unit;
gfc_expr *offset;
gfc_expr *whence;
- gfc_expr *status;
gfc_typespec ts;
gfc_clear_ts (&ts);
unit = c->ext.actual->expr;
offset = c->ext.actual->next->expr;
whence = c->ext.actual->next->next->expr;
- status = c->ext.actual->next->next->next->expr;
if (unit->ts.kind != gfc_c_int_kind)
{
ts.type = BT_INTEGER;
ts.kind = gfc_c_int_kind;
- ts.derived = NULL;
- ts.cl = NULL;
+ ts.u.derived = NULL;
+ ts.u.cl = NULL;
gfc_convert_type (unit, &ts, 2);
}
{
ts.type = BT_INTEGER;
ts.kind = gfc_intio_kind;
- ts.derived = NULL;
- ts.cl = NULL;
+ ts.u.derived = NULL;
+ ts.u.cl = NULL;
gfc_convert_type (offset, &ts, 2);
}
{
ts.type = BT_INTEGER;
ts.kind = gfc_c_int_kind;
- ts.derived = NULL;
- ts.cl = NULL;
+ ts.u.derived = NULL;
+ ts.u.cl = NULL;
gfc_convert_type (whence, &ts, 2);
}
{
ts.type = BT_INTEGER;
ts.kind = gfc_c_int_kind;
- ts.derived = NULL;
- ts.cl = NULL;
+ ts.u.derived = NULL;
+ ts.u.cl = NULL;
gfc_convert_type (unit, &ts, 2);
}
{
ts.type = BT_INTEGER;
ts.kind = gfc_c_int_kind;
- ts.derived = NULL;
- ts.cl = NULL;
+ ts.u.derived = NULL;
+ ts.u.cl = NULL;
gfc_convert_type (c->ext.actual->expr, &ts, 2);
}
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