#include "config.h"
#include "system.h"
#include "coretypes.h"
#include "tree.h"
#include "gfortran.h"
#include "intrinsic.h"
const char *
gfc_get_string (const char *format, ...)
{
char temp_name[128];
va_list ap;
tree ident;
va_start (ap, format);
vsnprintf (temp_name, sizeof(temp_name), format, ap);
va_end (ap);
temp_name[sizeof(temp_name)-1] = 0;
ident = get_identifier (temp_name);
return IDENTIFIER_POINTER (ident);
}
static void
check_charlen_present (gfc_expr *source)
{
if (source->expr_type == EXPR_CONSTANT && 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;
source->ts.cl->length = gfc_int_expr (source->value.character.length);
source->rank = 0;
}
}
void
gfc_resolve_abs (gfc_expr * f, gfc_expr * a)
{
f->ts = a->ts;
if (f->ts.type == BT_COMPLEX)
f->ts.type = BT_REAL;
f->value.function.name =
gfc_get_string ("__abs_%c%d", gfc_type_letter (a->ts.type), a->ts.kind);
}
void
gfc_resolve_access (gfc_expr * f, gfc_expr * name ATTRIBUTE_UNUSED,
gfc_expr * mode ATTRIBUTE_UNUSED)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_c_int_kind;
f->value.function.name = PREFIX("access_func");
}
void
gfc_resolve_acos (gfc_expr * f, gfc_expr * x)
{
f->ts = x->ts;
f->value.function.name =
gfc_get_string ("__acos_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
}
void
gfc_resolve_acosh (gfc_expr * f, gfc_expr * x)
{
f->ts = x->ts;
f->value.function.name =
gfc_get_string ("__acosh_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
}
void
gfc_resolve_aimag (gfc_expr * f, gfc_expr * x)
{
f->ts.type = BT_REAL;
f->ts.kind = x->ts.kind;
f->value.function.name =
gfc_get_string ("__aimag_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
}
void
gfc_resolve_and (gfc_expr * f, gfc_expr * i, gfc_expr * j)
{
f->ts.type = i->ts.type;
f->ts.kind = gfc_kind_max (i,j);
if (i->ts.kind != j->ts.kind)
{
if (i->ts.kind == gfc_kind_max (i,j))
gfc_convert_type(j, &i->ts, 2);
else
gfc_convert_type(i, &j->ts, 2);
}
f->value.function.name = gfc_get_string ("__and_%c%d",
gfc_type_letter (i->ts.type),
f->ts.kind);
}
void
gfc_resolve_aint (gfc_expr * f, gfc_expr * a, gfc_expr * kind)
{
gfc_typespec ts;
f->ts.type = a->ts.type;
f->ts.kind = (kind == NULL) ? a->ts.kind : mpz_get_si (kind->value.integer);
if (a->ts.kind != f->ts.kind)
{
ts.type = f->ts.type;
ts.kind = f->ts.kind;
gfc_convert_type (a, &ts, 2);
}
f->value.function.name =
gfc_get_string ("__aint_%c%d", gfc_type_letter (a->ts.type), a->ts.kind);
}
void
gfc_resolve_dint (gfc_expr * f, gfc_expr * a)
{
gfc_resolve_aint (f, a, NULL);
}
void
gfc_resolve_all (gfc_expr * f, gfc_expr * mask, gfc_expr * dim)
{
f->ts = mask->ts;
if (dim != NULL)
{
gfc_resolve_dim_arg (dim);
f->rank = mask->rank - 1;
f->shape = gfc_copy_shape_excluding (mask->shape, mask->rank, dim);
}
f->value.function.name =
gfc_get_string (PREFIX("all_%c%d"), gfc_type_letter (mask->ts.type),
mask->ts.kind);
}
void
gfc_resolve_anint (gfc_expr * f, gfc_expr * a, gfc_expr * kind)
{
gfc_typespec ts;
f->ts.type = a->ts.type;
f->ts.kind = (kind == NULL) ? a->ts.kind : mpz_get_si (kind->value.integer);
if (a->ts.kind != f->ts.kind)
{
ts.type = f->ts.type;
ts.kind = f->ts.kind;
gfc_convert_type (a, &ts, 2);
}
f->value.function.name =
gfc_get_string ("__anint_%c%d", gfc_type_letter (a->ts.type), a->ts.kind);
}
void
gfc_resolve_dnint (gfc_expr * f, gfc_expr * a)
{
gfc_resolve_anint (f, a, NULL);
}
void
gfc_resolve_any (gfc_expr * f, gfc_expr * mask, gfc_expr * dim)
{
f->ts = mask->ts;
if (dim != NULL)
{
gfc_resolve_dim_arg (dim);
f->rank = mask->rank - 1;
f->shape = gfc_copy_shape_excluding (mask->shape, mask->rank, dim);
}
f->value.function.name =
gfc_get_string (PREFIX("any_%c%d"), gfc_type_letter (mask->ts.type),
mask->ts.kind);
}
void
gfc_resolve_asin (gfc_expr * f, gfc_expr * x)
{
f->ts = x->ts;
f->value.function.name =
gfc_get_string ("__asin_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
}
void
gfc_resolve_asinh (gfc_expr * f, gfc_expr * x)
{
f->ts = x->ts;
f->value.function.name =
gfc_get_string ("__asinh_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
}
void
gfc_resolve_atan (gfc_expr * f, gfc_expr * x)
{
f->ts = x->ts;
f->value.function.name =
gfc_get_string ("__atan_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
}
void
gfc_resolve_atanh (gfc_expr * f, gfc_expr * x)
{
f->ts = x->ts;
f->value.function.name =
gfc_get_string ("__atanh_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
}
void
gfc_resolve_atan2 (gfc_expr * f, gfc_expr * x,
gfc_expr * y ATTRIBUTE_UNUSED)
{
f->ts = x->ts;
f->value.function.name =
gfc_get_string ("__atan2_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
}
void
gfc_resolve_besn (gfc_expr * f, gfc_expr * n, gfc_expr * x)
{
gfc_typespec ts;
f->ts = x->ts;
if (n->ts.kind != gfc_c_int_kind)
{
ts.type = BT_INTEGER;
ts.kind = gfc_c_int_kind;
gfc_convert_type (n, &ts, 2);
}
f->value.function.name = gfc_get_string ("<intrinsic>");
}
void
gfc_resolve_btest (gfc_expr * f, gfc_expr * i, gfc_expr * pos)
{
f->ts.type = BT_LOGICAL;
f->ts.kind = gfc_default_logical_kind;
f->value.function.name = gfc_get_string ("__btest_%d_%d", i->ts.kind,
pos->ts.kind);
}
void
gfc_resolve_ceiling (gfc_expr * f, gfc_expr * a, gfc_expr * kind)
{
f->ts.type = BT_INTEGER;
f->ts.kind = (kind == NULL) ? gfc_default_integer_kind
: mpz_get_si (kind->value.integer);
f->value.function.name =
gfc_get_string ("__ceiling_%d_%c%d", f->ts.kind,
gfc_type_letter (a->ts.type), a->ts.kind);
}
void
gfc_resolve_char (gfc_expr * f, gfc_expr * a, gfc_expr * kind)
{
f->ts.type = BT_CHARACTER;
f->ts.kind = (kind == NULL) ? gfc_default_character_kind
: mpz_get_si (kind->value.integer);
f->value.function.name =
gfc_get_string ("__char_%d_%c%d", f->ts.kind,
gfc_type_letter (a->ts.type), a->ts.kind);
}
void
gfc_resolve_chdir (gfc_expr * f, gfc_expr * d ATTRIBUTE_UNUSED)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_default_integer_kind;
f->value.function.name = gfc_get_string (PREFIX("chdir_i%d"), f->ts.kind);
}
void
gfc_resolve_chdir_sub (gfc_code * c)
{
const char *name;
int kind;
if (c->ext.actual->next->expr != NULL)
kind = c->ext.actual->next->expr->ts.kind;
else
kind = gfc_default_integer_kind;
name = gfc_get_string (PREFIX("chdir_i%d_sub"), kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_chmod (gfc_expr * f, gfc_expr * name ATTRIBUTE_UNUSED,
gfc_expr * mode ATTRIBUTE_UNUSED)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_c_int_kind;
f->value.function.name = PREFIX("chmod_func");
}
void
gfc_resolve_chmod_sub (gfc_code * c)
{
const char *name;
int kind;
if (c->ext.actual->next->next->expr != NULL)
kind = c->ext.actual->next->next->expr->ts.kind;
else
kind = gfc_default_integer_kind;
name = gfc_get_string (PREFIX("chmod_i%d_sub"), kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_cmplx (gfc_expr * f, gfc_expr * x, gfc_expr * y, gfc_expr * kind)
{
f->ts.type = BT_COMPLEX;
f->ts.kind = (kind == NULL) ? gfc_default_real_kind
: mpz_get_si (kind->value.integer);
if (y == NULL)
f->value.function.name =
gfc_get_string ("__cmplx0_%d_%c%d", f->ts.kind,
gfc_type_letter (x->ts.type), x->ts.kind);
else
f->value.function.name =
gfc_get_string ("__cmplx1_%d_%c%d_%c%d", f->ts.kind,
gfc_type_letter (x->ts.type), x->ts.kind,
gfc_type_letter (y->ts.type), y->ts.kind);
}
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));
}
void
gfc_resolve_complex (gfc_expr * f, gfc_expr * x, gfc_expr * y)
{
int kind;
if (x->ts.type == BT_INTEGER)
{
if (y->ts.type == BT_INTEGER)
kind = gfc_default_real_kind;
else
kind = y->ts.kind;
}
else
{
if (y->ts.type == BT_REAL)
kind = (x->ts.kind > y->ts.kind) ? x->ts.kind : y->ts.kind;
else
kind = x->ts.kind;
}
f->ts.type = BT_COMPLEX;
f->ts.kind = kind;
f->value.function.name =
gfc_get_string ("__cmplx1_%d_%c%d_%c%d", f->ts.kind,
gfc_type_letter (x->ts.type), x->ts.kind,
gfc_type_letter (y->ts.type), y->ts.kind);
}
void
gfc_resolve_conjg (gfc_expr * f, gfc_expr * x)
{
f->ts = x->ts;
f->value.function.name = gfc_get_string ("__conjg_%d", x->ts.kind);
}
void
gfc_resolve_cos (gfc_expr * f, gfc_expr * x)
{
f->ts = x->ts;
f->value.function.name =
gfc_get_string ("__cos_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
}
void
gfc_resolve_cosh (gfc_expr * f, gfc_expr * x)
{
f->ts = x->ts;
f->value.function.name =
gfc_get_string ("__cosh_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
}
void
gfc_resolve_count (gfc_expr * f, gfc_expr * mask, gfc_expr * dim)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_default_integer_kind;
if (dim != NULL)
{
f->rank = mask->rank - 1;
gfc_resolve_dim_arg (dim);
f->shape = gfc_copy_shape_excluding (mask->shape, mask->rank, dim);
}
f->value.function.name =
gfc_get_string (PREFIX("count_%d_%c%d"), f->ts.kind,
gfc_type_letter (mask->ts.type), mask->ts.kind);
}
void
gfc_resolve_cshift (gfc_expr * f, gfc_expr * array,
gfc_expr * shift,
gfc_expr * dim)
{
int n;
f->ts = array->ts;
f->rank = array->rank;
f->shape = gfc_copy_shape (array->shape, array->rank);
if (shift->rank > 0)
n = 1;
else
n = 0;
if (shift->ts.kind < gfc_default_integer_kind)
{
gfc_typespec ts;
ts.type = BT_INTEGER;
ts.kind = gfc_default_integer_kind;
gfc_convert_type_warn (shift, &ts, 2, 0);
}
if (dim != NULL)
{
gfc_resolve_dim_arg (dim);
if (dim->ts.kind != shift->ts.kind)
gfc_convert_type_warn (dim, &shift->ts, 2, 0);
}
f->value.function.name =
gfc_get_string (PREFIX("cshift%d_%d%s"), n, shift->ts.kind,
array->ts.type == BT_CHARACTER ? "_char" : "");
}
void
gfc_resolve_ctime (gfc_expr * f, gfc_expr * time)
{
gfc_typespec ts;
f->ts.type = BT_CHARACTER;
f->ts.kind = gfc_default_character_kind;
if (time->ts.kind != 8)
{
ts.type = BT_INTEGER;
ts.kind = 8;
ts.derived = NULL;
ts.cl = NULL;
gfc_convert_type (time, &ts, 2);
}
f->value.function.name = gfc_get_string (PREFIX("ctime"));
}
void
gfc_resolve_dble (gfc_expr * f, gfc_expr * a)
{
f->ts.type = BT_REAL;
f->ts.kind = gfc_default_double_kind;
f->value.function.name =
gfc_get_string ("__dble_%c%d", gfc_type_letter (a->ts.type), a->ts.kind);
}
void
gfc_resolve_dim (gfc_expr * f, gfc_expr * a, gfc_expr * p)
{
f->ts.type = a->ts.type;
if (p != NULL)
f->ts.kind = gfc_kind_max (a,p);
else
f->ts.kind = a->ts.kind;
if (p != NULL && a->ts.kind != p->ts.kind)
{
if (a->ts.kind == gfc_kind_max (a,p))
gfc_convert_type(p, &a->ts, 2);
else
gfc_convert_type(a, &p->ts, 2);
}
f->value.function.name =
gfc_get_string ("__dim_%c%d", gfc_type_letter (f->ts.type), f->ts.kind);
}
void
gfc_resolve_dot_product (gfc_expr * f, gfc_expr * a, gfc_expr * b)
{
gfc_expr temp;
temp.expr_type = EXPR_OP;
gfc_clear_ts (&temp.ts);
temp.value.op.operator = INTRINSIC_NONE;
temp.value.op.op1 = a;
temp.value.op.op2 = b;
gfc_type_convert_binary (&temp);
f->ts = temp.ts;
f->value.function.name =
gfc_get_string (PREFIX("dot_product_%c%d"), gfc_type_letter (f->ts.type),
f->ts.kind);
}
void
gfc_resolve_dprod (gfc_expr * f,
gfc_expr * a ATTRIBUTE_UNUSED,
gfc_expr * b ATTRIBUTE_UNUSED)
{
f->ts.kind = gfc_default_double_kind;
f->ts.type = BT_REAL;
f->value.function.name = gfc_get_string ("__dprod_r%d", f->ts.kind);
}
void
gfc_resolve_eoshift (gfc_expr * f, gfc_expr * array,
gfc_expr * shift,
gfc_expr * boundary,
gfc_expr * dim)
{
int n;
f->ts = array->ts;
f->rank = array->rank;
f->shape = gfc_copy_shape (array->shape, array->rank);
n = 0;
if (shift->rank > 0)
n = n | 1;
if (boundary && boundary->rank > 0)
n = n | 2;
if (shift->ts.kind < gfc_default_integer_kind)
{
gfc_typespec ts;
ts.type = BT_INTEGER;
ts.kind = gfc_default_integer_kind;
gfc_convert_type_warn (shift, &ts, 2, 0);
}
if (dim != NULL)
{
gfc_resolve_dim_arg (dim);
if (dim->ts.kind != shift->ts.kind)
gfc_convert_type_warn (dim, &shift->ts, 2, 0);
}
f->value.function.name =
gfc_get_string (PREFIX("eoshift%d_%d%s"), n, shift->ts.kind,
array->ts.type == BT_CHARACTER ? "_char" : "");
}
void
gfc_resolve_exp (gfc_expr * f, gfc_expr * x)
{
f->ts = x->ts;
f->value.function.name =
gfc_get_string ("__exp_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
}
void
gfc_resolve_exponent (gfc_expr * f, gfc_expr * x)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_default_integer_kind;
f->value.function.name = gfc_get_string ("__exponent_%d", x->ts.kind);
}
void
gfc_resolve_fdate (gfc_expr * f)
{
f->ts.type = BT_CHARACTER;
f->ts.kind = gfc_default_character_kind;
f->value.function.name = gfc_get_string (PREFIX("fdate"));
}
void
gfc_resolve_floor (gfc_expr * f, gfc_expr * a, gfc_expr * kind)
{
f->ts.type = BT_INTEGER;
f->ts.kind = (kind == NULL) ? gfc_default_integer_kind
: mpz_get_si (kind->value.integer);
f->value.function.name =
gfc_get_string ("__floor%d_%c%d", f->ts.kind,
gfc_type_letter (a->ts.type), a->ts.kind);
}
void
gfc_resolve_fnum (gfc_expr * f, gfc_expr * n)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_default_integer_kind;
if (n->ts.kind != f->ts.kind)
gfc_convert_type (n, &f->ts, 2);
f->value.function.name = gfc_get_string (PREFIX("fnum_i%d"), f->ts.kind);
}
void
gfc_resolve_fraction (gfc_expr * f, gfc_expr * x)
{
f->ts = x->ts;
f->value.function.name = gfc_get_string ("__fraction_%d", x->ts.kind);
}
void
gfc_resolve_g77_math1 (gfc_expr * f, gfc_expr * x)
{
f->ts = x->ts;
f->value.function.name = gfc_get_string ("<intrinsic>");
}
void
gfc_resolve_getcwd (gfc_expr * f, gfc_expr * n ATTRIBUTE_UNUSED)
{
f->ts.type = BT_INTEGER;
f->ts.kind = 4;
f->value.function.name = gfc_get_string (PREFIX("getcwd"));
}
void
gfc_resolve_getgid (gfc_expr * f)
{
f->ts.type = BT_INTEGER;
f->ts.kind = 4;
f->value.function.name = gfc_get_string (PREFIX("getgid"));
}
void
gfc_resolve_getpid (gfc_expr * f)
{
f->ts.type = BT_INTEGER;
f->ts.kind = 4;
f->value.function.name = gfc_get_string (PREFIX("getpid"));
}
void
gfc_resolve_getuid (gfc_expr * f)
{
f->ts.type = BT_INTEGER;
f->ts.kind = 4;
f->value.function.name = gfc_get_string (PREFIX("getuid"));
}
void
gfc_resolve_hostnm (gfc_expr * f, gfc_expr * n ATTRIBUTE_UNUSED)
{
f->ts.type = BT_INTEGER;
f->ts.kind = 4;
f->value.function.name = gfc_get_string (PREFIX ("hostnm"));
}
void
gfc_resolve_iand (gfc_expr * f, gfc_expr * i, gfc_expr * j)
{
if (i->ts.kind != j->ts.kind)
{
if (i->ts.kind == gfc_kind_max (i,j))
gfc_convert_type(j, &i->ts, 2);
else
gfc_convert_type(i, &j->ts, 2);
}
f->ts = i->ts;
f->value.function.name = gfc_get_string ("__iand_%d", i->ts.kind);
}
void
gfc_resolve_ibclr (gfc_expr * f, gfc_expr * i, gfc_expr * pos ATTRIBUTE_UNUSED)
{
f->ts = i->ts;
f->value.function.name = gfc_get_string ("__ibclr_%d", i->ts.kind);
}
void
gfc_resolve_ibits (gfc_expr * f, gfc_expr * i,
gfc_expr * pos ATTRIBUTE_UNUSED,
gfc_expr * len ATTRIBUTE_UNUSED)
{
f->ts = i->ts;
f->value.function.name = gfc_get_string ("__ibits_%d", i->ts.kind);
}
void
gfc_resolve_ibset (gfc_expr * f, gfc_expr * i,
gfc_expr * pos ATTRIBUTE_UNUSED)
{
f->ts = i->ts;
f->value.function.name = gfc_get_string ("__ibset_%d", i->ts.kind);
}
void
gfc_resolve_ichar (gfc_expr * f, gfc_expr * c)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_default_integer_kind;
f->value.function.name = gfc_get_string ("__ichar_%d", c->ts.kind);
}
void
gfc_resolve_idnint (gfc_expr * f, gfc_expr * a)
{
gfc_resolve_nint (f, a, NULL);
}
void
gfc_resolve_ierrno (gfc_expr * f)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_default_integer_kind;
f->value.function.name = gfc_get_string (PREFIX("ierrno_i%d"), f->ts.kind);
}
void
gfc_resolve_ieor (gfc_expr * f, gfc_expr * i, gfc_expr * j)
{
if (i->ts.kind != j->ts.kind)
{
if (i->ts.kind == gfc_kind_max (i,j))
gfc_convert_type(j, &i->ts, 2);
else
gfc_convert_type(i, &j->ts, 2);
}
f->ts = i->ts;
f->value.function.name = gfc_get_string ("__ieor_%d", i->ts.kind);
}
void
gfc_resolve_ior (gfc_expr * f, gfc_expr * i, gfc_expr * j)
{
if (i->ts.kind != j->ts.kind)
{
if (i->ts.kind == gfc_kind_max (i,j))
gfc_convert_type(j, &i->ts, 2);
else
gfc_convert_type(i, &j->ts, 2);
}
f->ts = i->ts;
f->value.function.name = gfc_get_string ("__ior_%d", i->ts.kind);
}
void
gfc_resolve_index_func (gfc_expr * f, gfc_expr * str,
ATTRIBUTE_UNUSED gfc_expr * sub_str, gfc_expr * back)
{
gfc_typespec ts;
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_default_integer_kind;
if (back && back->ts.kind != gfc_default_integer_kind)
{
ts.type = BT_LOGICAL;
ts.kind = gfc_default_integer_kind;
ts.derived = NULL;
ts.cl = NULL;
gfc_convert_type (back, &ts, 2);
}
f->value.function.name =
gfc_get_string ("__index_%d_i%d", str->ts.kind, f->ts.kind);
}
void
gfc_resolve_int (gfc_expr * f, gfc_expr * a, gfc_expr * kind)
{
f->ts.type = BT_INTEGER;
f->ts.kind = (kind == NULL) ? gfc_default_integer_kind
: mpz_get_si (kind->value.integer);
f->value.function.name =
gfc_get_string ("__int_%d_%c%d", f->ts.kind, gfc_type_letter (a->ts.type),
a->ts.kind);
}
void
gfc_resolve_int2 (gfc_expr * f, gfc_expr * a)
{
f->ts.type = BT_INTEGER;
f->ts.kind = 2;
f->value.function.name =
gfc_get_string ("__int_%d_%c%d", f->ts.kind, gfc_type_letter (a->ts.type),
a->ts.kind);
}
void
gfc_resolve_int8 (gfc_expr * f, gfc_expr * a)
{
f->ts.type = BT_INTEGER;
f->ts.kind = 8;
f->value.function.name =
gfc_get_string ("__int_%d_%c%d", f->ts.kind, gfc_type_letter (a->ts.type),
a->ts.kind);
}
void
gfc_resolve_long (gfc_expr * f, gfc_expr * a)
{
f->ts.type = BT_INTEGER;
f->ts.kind = 4;
f->value.function.name =
gfc_get_string ("__int_%d_%c%d", f->ts.kind, gfc_type_letter (a->ts.type),
a->ts.kind);
}
void
gfc_resolve_isatty (gfc_expr * f, gfc_expr * u)
{
gfc_typespec ts;
f->ts.type = BT_LOGICAL;
f->ts.kind = gfc_default_integer_kind;
if (u->ts.kind != gfc_c_int_kind)
{
ts.type = BT_INTEGER;
ts.kind = gfc_c_int_kind;
ts.derived = NULL;
ts.cl = NULL;
gfc_convert_type (u, &ts, 2);
}
f->value.function.name = gfc_get_string (PREFIX("isatty_l%d"), f->ts.kind);
}
void
gfc_resolve_ishft (gfc_expr * f, gfc_expr * i, gfc_expr * shift)
{
f->ts = i->ts;
f->value.function.name =
gfc_get_string ("__ishft_%d_%d", i->ts.kind, shift->ts.kind);
}
void
gfc_resolve_rshift (gfc_expr * f, gfc_expr * i, gfc_expr * shift)
{
f->ts = i->ts;
f->value.function.name =
gfc_get_string ("__rshift_%d_%d", i->ts.kind, shift->ts.kind);
}
void
gfc_resolve_lshift (gfc_expr * f, gfc_expr * i, gfc_expr * shift)
{
f->ts = i->ts;
f->value.function.name =
gfc_get_string ("__lshift_%d_%d", i->ts.kind, shift->ts.kind);
}
void
gfc_resolve_ishftc (gfc_expr * f, gfc_expr * i, gfc_expr * shift,
gfc_expr * size)
{
int s_kind;
s_kind = (size == NULL) ? gfc_default_integer_kind : shift->ts.kind;
f->ts = i->ts;
f->value.function.name =
gfc_get_string ("__ishftc_%d_%d_%d", i->ts.kind, shift->ts.kind, s_kind);
}
void
gfc_resolve_kill (gfc_expr * f, ATTRIBUTE_UNUSED gfc_expr * p,
ATTRIBUTE_UNUSED gfc_expr * s)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_default_integer_kind;
f->value.function.name = gfc_get_string (PREFIX("kill_i%d"), f->ts.kind);
}
void
gfc_resolve_lbound (gfc_expr * f, gfc_expr * array,
gfc_expr * dim)
{
static char lbound[] = "__lbound";
f->ts.type = BT_INTEGER;
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 = lbound;
}
void
gfc_resolve_len (gfc_expr * f, gfc_expr * string)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_default_integer_kind;
f->value.function.name = gfc_get_string ("__len_%d_i%d", string->ts.kind,
gfc_default_integer_kind);
}
void
gfc_resolve_len_trim (gfc_expr * f, gfc_expr * string)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_default_integer_kind;
f->value.function.name = gfc_get_string ("__len_trim%d", string->ts.kind);
}
void
gfc_resolve_link (gfc_expr * f, gfc_expr * p1 ATTRIBUTE_UNUSED,
gfc_expr * p2 ATTRIBUTE_UNUSED)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_default_integer_kind;
f->value.function.name = gfc_get_string (PREFIX("link_i%d"), f->ts.kind);
}
void
gfc_resolve_loc (gfc_expr *f, gfc_expr *x)
{
f->ts.type= BT_INTEGER;
f->ts.kind = gfc_index_integer_kind;
f->value.function.name = gfc_get_string ("__loc_%d", x->ts.kind);
}
void
gfc_resolve_log (gfc_expr * f, gfc_expr * x)
{
f->ts = x->ts;
f->value.function.name =
gfc_get_string ("__log_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
}
void
gfc_resolve_log10 (gfc_expr * f, gfc_expr * x)
{
f->ts = x->ts;
f->value.function.name =
gfc_get_string ("__log10_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
}
void
gfc_resolve_logical (gfc_expr * f, gfc_expr * a, gfc_expr * kind)
{
f->ts.type = BT_LOGICAL;
f->ts.kind = (kind == NULL) ? gfc_default_logical_kind
: mpz_get_si (kind->value.integer);
f->rank = a->rank;
f->value.function.name =
gfc_get_string ("__logical_%d_%c%d", f->ts.kind,
gfc_type_letter (a->ts.type), a->ts.kind);
}
void
gfc_resolve_malloc (gfc_expr * f, gfc_expr * size)
{
if (size->ts.kind < gfc_index_integer_kind)
{
gfc_typespec ts;
ts.type = BT_INTEGER;
ts.kind = gfc_index_integer_kind;
gfc_convert_type_warn (size, &ts, 2, 0);
}
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_index_integer_kind;
f->value.function.name = gfc_get_string (PREFIX("malloc"));
}
void
gfc_resolve_matmul (gfc_expr * f, gfc_expr * a, gfc_expr * b)
{
gfc_expr temp;
if (a->ts.type == BT_LOGICAL && b->ts.type == BT_LOGICAL)
{
f->ts.type = BT_LOGICAL;
f->ts.kind = gfc_default_logical_kind;
}
else
{
temp.expr_type = EXPR_OP;
gfc_clear_ts (&temp.ts);
temp.value.op.operator = INTRINSIC_NONE;
temp.value.op.op1 = a;
temp.value.op.op2 = b;
gfc_type_convert_binary (&temp);
f->ts = temp.ts;
}
f->rank = (a->rank == 2 && b->rank == 2) ? 2 : 1;
f->value.function.name =
gfc_get_string (PREFIX("matmul_%c%d"), gfc_type_letter (f->ts.type),
f->ts.kind);
}
static void
gfc_resolve_minmax (const char * name, gfc_expr * f, gfc_actual_arglist * args)
{
gfc_actual_arglist *a;
f->ts.type = args->expr->ts.type;
f->ts.kind = args->expr->ts.kind;
for (a = args->next; a; a = a->next)
{
if (a->expr->ts.kind > f->ts.kind)
f->ts.kind = a->expr->ts.kind;
}
for (a = args; a; a = a->next)
{
if (a->expr->ts.kind != f->ts.kind)
gfc_convert_type (a->expr, &f->ts, 2);
}
f->value.function.name =
gfc_get_string (name, gfc_type_letter (f->ts.type), f->ts.kind);
}
void
gfc_resolve_max (gfc_expr * f, gfc_actual_arglist * args)
{
gfc_resolve_minmax ("__max_%c%d", f, args);
}
void
gfc_resolve_maxloc (gfc_expr * f, gfc_expr * array, gfc_expr * dim,
gfc_expr * mask)
{
const char *name;
int i, j, idim;
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_default_integer_kind;
if (dim == NULL)
{
f->rank = 1;
f->shape = gfc_get_shape (1);
mpz_init_set_si (f->shape[0], array->rank);
}
else
{
f->rank = array->rank - 1;
gfc_resolve_dim_arg (dim);
if (array->shape && dim->expr_type == EXPR_CONSTANT)
{
idim = (int) mpz_get_si (dim->value.integer);
f->shape = gfc_get_shape (f->rank);
for (i = 0, j = 0; i < f->rank; i++, j++)
{
if (i == (idim - 1))
j++;
mpz_init_set (f->shape[i], array->shape[j]);
}
}
}
if (mask)
{
if (mask->rank == 0)
name = "smaxloc";
else
name = "mmaxloc";
if ((mask->ts.kind < gfc_default_logical_kind)
|| (mask->rank == 0 && mask->ts.kind != gfc_default_logical_kind))
{
gfc_typespec ts;
ts.type = BT_LOGICAL;
ts.kind = gfc_default_logical_kind;
gfc_convert_type_warn (mask, &ts, 2, 0);
}
}
else
name = "maxloc";
f->value.function.name =
gfc_get_string (PREFIX("%s%d_%d_%c%d"), name, dim != NULL, f->ts.kind,
gfc_type_letter (array->ts.type), array->ts.kind);
}
void
gfc_resolve_maxval (gfc_expr * f, gfc_expr * array, gfc_expr * dim,
gfc_expr * mask)
{
const char *name;
int i, j, idim;
f->ts = array->ts;
if (dim != NULL)
{
f->rank = array->rank - 1;
gfc_resolve_dim_arg (dim);
if (f->rank && array->shape && dim->expr_type == EXPR_CONSTANT)
{
idim = (int) mpz_get_si (dim->value.integer);
f->shape = gfc_get_shape (f->rank);
for (i = 0, j = 0; i < f->rank; i++, j++)
{
if (i == (idim - 1))
j++;
mpz_init_set (f->shape[i], array->shape[j]);
}
}
}
if (mask)
{
if (mask->rank == 0)
name = "smaxval";
else
name = "mmaxval";
if ((mask->ts.kind < gfc_default_logical_kind)
|| (mask->rank == 0 && mask->ts.kind != gfc_default_logical_kind))
{
gfc_typespec ts;
ts.type = BT_LOGICAL;
ts.kind = gfc_default_logical_kind;
gfc_convert_type_warn (mask, &ts, 2, 0);
}
}
else
name = "maxval";
f->value.function.name =
gfc_get_string (PREFIX("%s_%c%d"), name,
gfc_type_letter (array->ts.type), array->ts.kind);
}
void
gfc_resolve_mclock (gfc_expr * f)
{
f->ts.type = BT_INTEGER;
f->ts.kind = 4;
f->value.function.name = PREFIX("mclock");
}
void
gfc_resolve_mclock8 (gfc_expr * f)
{
f->ts.type = BT_INTEGER;
f->ts.kind = 8;
f->value.function.name = PREFIX("mclock8");
}
void
gfc_resolve_merge (gfc_expr * f, gfc_expr * tsource,
gfc_expr * fsource ATTRIBUTE_UNUSED,
gfc_expr * mask ATTRIBUTE_UNUSED)
{
if (tsource->ts.type == BT_CHARACTER)
check_charlen_present (tsource);
f->ts = tsource->ts;
f->value.function.name =
gfc_get_string ("__merge_%c%d", gfc_type_letter (tsource->ts.type),
tsource->ts.kind);
}
void
gfc_resolve_min (gfc_expr * f, gfc_actual_arglist * args)
{
gfc_resolve_minmax ("__min_%c%d", f, args);
}
void
gfc_resolve_minloc (gfc_expr * f, gfc_expr * array, gfc_expr * dim,
gfc_expr * mask)
{
const char *name;
int i, j, idim;
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_default_integer_kind;
if (dim == NULL)
{
f->rank = 1;
f->shape = gfc_get_shape (1);
mpz_init_set_si (f->shape[0], array->rank);
}
else
{
f->rank = array->rank - 1;
gfc_resolve_dim_arg (dim);
if (array->shape && dim->expr_type == EXPR_CONSTANT)
{
idim = (int) mpz_get_si (dim->value.integer);
f->shape = gfc_get_shape (f->rank);
for (i = 0, j = 0; i < f->rank; i++, j++)
{
if (i == (idim - 1))
j++;
mpz_init_set (f->shape[i], array->shape[j]);
}
}
}
if (mask)
{
if (mask->rank == 0)
name = "sminloc";
else
name = "mminloc";
if ((mask->ts.kind < gfc_default_logical_kind)
|| (mask->rank == 0 && mask->ts.kind != gfc_default_logical_kind))
{
gfc_typespec ts;
ts.type = BT_LOGICAL;
ts.kind = gfc_default_logical_kind;
gfc_convert_type_warn (mask, &ts, 2, 0);
}
}
else
name = "minloc";
f->value.function.name =
gfc_get_string (PREFIX("%s%d_%d_%c%d"), name, dim != NULL, f->ts.kind,
gfc_type_letter (array->ts.type), array->ts.kind);
}
void
gfc_resolve_minval (gfc_expr * f, gfc_expr * array, gfc_expr * dim,
gfc_expr * mask)
{
const char *name;
int i, j, idim;
f->ts = array->ts;
if (dim != NULL)
{
f->rank = array->rank - 1;
gfc_resolve_dim_arg (dim);
if (f->rank && array->shape && dim->expr_type == EXPR_CONSTANT)
{
idim = (int) mpz_get_si (dim->value.integer);
f->shape = gfc_get_shape (f->rank);
for (i = 0, j = 0; i < f->rank; i++, j++)
{
if (i == (idim - 1))
j++;
mpz_init_set (f->shape[i], array->shape[j]);
}
}
}
if (mask)
{
if (mask->rank == 0)
name = "sminval";
else
name = "mminval";
if ((mask->ts.kind < gfc_default_logical_kind)
|| (mask->rank == 0 && mask->ts.kind != gfc_default_logical_kind))
{
gfc_typespec ts;
ts.type = BT_LOGICAL;
ts.kind = gfc_default_logical_kind;
gfc_convert_type_warn (mask, &ts, 2, 0);
}
}
else
name = "minval";
f->value.function.name =
gfc_get_string (PREFIX("%s_%c%d"), name,
gfc_type_letter (array->ts.type), array->ts.kind);
}
void
gfc_resolve_mod (gfc_expr * f, gfc_expr * a, gfc_expr * p)
{
f->ts.type = a->ts.type;
if (p != NULL)
f->ts.kind = gfc_kind_max (a,p);
else
f->ts.kind = a->ts.kind;
if (p != NULL && a->ts.kind != p->ts.kind)
{
if (a->ts.kind == gfc_kind_max (a,p))
gfc_convert_type(p, &a->ts, 2);
else
gfc_convert_type(a, &p->ts, 2);
}
f->value.function.name =
gfc_get_string ("__mod_%c%d", gfc_type_letter (f->ts.type), f->ts.kind);
}
void
gfc_resolve_modulo (gfc_expr * f, gfc_expr * a, gfc_expr * p)
{
f->ts.type = a->ts.type;
if (p != NULL)
f->ts.kind = gfc_kind_max (a,p);
else
f->ts.kind = a->ts.kind;
if (p != NULL && a->ts.kind != p->ts.kind)
{
if (a->ts.kind == gfc_kind_max (a,p))
gfc_convert_type(p, &a->ts, 2);
else
gfc_convert_type(a, &p->ts, 2);
}
f->value.function.name =
gfc_get_string ("__modulo_%c%d", gfc_type_letter (f->ts.type),
f->ts.kind);
}
void
gfc_resolve_nearest (gfc_expr * f, gfc_expr * a, gfc_expr *p ATTRIBUTE_UNUSED)
{
f->ts = a->ts;
f->value.function.name =
gfc_get_string ("__nearest_%c%d", gfc_type_letter (a->ts.type),
a->ts.kind);
}
void
gfc_resolve_nint (gfc_expr * f, gfc_expr * a, gfc_expr * kind)
{
f->ts.type = BT_INTEGER;
f->ts.kind = (kind == NULL) ? gfc_default_integer_kind
: mpz_get_si (kind->value.integer);
f->value.function.name =
gfc_get_string ("__nint_%d_%d", f->ts.kind, a->ts.kind);
}
void
gfc_resolve_not (gfc_expr * f, gfc_expr * i)
{
f->ts = i->ts;
f->value.function.name = gfc_get_string ("__not_%d", i->ts.kind);
}
void
gfc_resolve_or (gfc_expr * f, gfc_expr * i, gfc_expr * j)
{
f->ts.type = i->ts.type;
f->ts.kind = gfc_kind_max (i,j);
if (i->ts.kind != j->ts.kind)
{
if (i->ts.kind == gfc_kind_max (i,j))
gfc_convert_type(j, &i->ts, 2);
else
gfc_convert_type(i, &j->ts, 2);
}
f->value.function.name = gfc_get_string ("__or_%c%d",
gfc_type_letter (i->ts.type),
f->ts.kind);
}
void
gfc_resolve_pack (gfc_expr * f, gfc_expr * array, gfc_expr * mask,
gfc_expr * vector ATTRIBUTE_UNUSED)
{
f->ts = array->ts;
f->rank = 1;
if (mask->rank != 0)
f->value.function.name = (array->ts.type == BT_CHARACTER
? PREFIX("pack_char")
: PREFIX("pack"));
else
{
if (mask->ts.kind != gfc_default_logical_kind)
{
gfc_typespec ts;
ts.type = BT_LOGICAL;
ts.kind = gfc_default_logical_kind;
gfc_convert_type (mask, &ts, 2);
}
f->value.function.name = (array->ts.type == BT_CHARACTER
? PREFIX("pack_s_char")
: PREFIX("pack_s"));
}
}
void
gfc_resolve_product (gfc_expr * f, gfc_expr * array, gfc_expr * dim,
gfc_expr * mask)
{
const char *name;
f->ts = array->ts;
if (dim != NULL)
{
f->rank = array->rank - 1;
gfc_resolve_dim_arg (dim);
}
if (mask)
{
if (mask->rank == 0)
name = "sproduct";
else
name = "mproduct";
if ((mask->ts.kind < gfc_default_logical_kind)
|| (mask->rank == 0 && mask->ts.kind != gfc_default_logical_kind))
{
gfc_typespec ts;
ts.type = BT_LOGICAL;
ts.kind = gfc_default_logical_kind;
gfc_convert_type_warn (mask, &ts, 2, 0);
}
}
else
name = "product";
f->value.function.name =
gfc_get_string (PREFIX("%s_%c%d"), name,
gfc_type_letter (array->ts.type), array->ts.kind);
}
void
gfc_resolve_real (gfc_expr * f, gfc_expr * a, gfc_expr * kind)
{
f->ts.type = BT_REAL;
if (kind != NULL)
f->ts.kind = mpz_get_si (kind->value.integer);
else
f->ts.kind = (a->ts.type == BT_COMPLEX) ?
a->ts.kind : gfc_default_real_kind;
f->value.function.name =
gfc_get_string ("__real_%d_%c%d", f->ts.kind,
gfc_type_letter (a->ts.type), a->ts.kind);
}
void
gfc_resolve_realpart (gfc_expr * f, gfc_expr * a)
{
f->ts.type = BT_REAL;
f->ts.kind = a->ts.kind;
f->value.function.name =
gfc_get_string ("__real_%d_%c%d", f->ts.kind,
gfc_type_letter (a->ts.type), a->ts.kind);
}
void
gfc_resolve_rename (gfc_expr * f, gfc_expr * p1 ATTRIBUTE_UNUSED,
gfc_expr * p2 ATTRIBUTE_UNUSED)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_default_integer_kind;
f->value.function.name = gfc_get_string (PREFIX("rename_i%d"), f->ts.kind);
}
void
gfc_resolve_repeat (gfc_expr * f, gfc_expr * string,
gfc_expr * ncopies ATTRIBUTE_UNUSED)
{
f->ts.type = BT_CHARACTER;
f->ts.kind = string->ts.kind;
f->value.function.name = gfc_get_string ("__repeat_%d", string->ts.kind);
}
void
gfc_resolve_reshape (gfc_expr * f, gfc_expr * source, gfc_expr * shape,
gfc_expr * pad ATTRIBUTE_UNUSED,
gfc_expr * order ATTRIBUTE_UNUSED)
{
mpz_t rank;
int kind;
int i;
f->ts = source->ts;
gfc_array_size (shape, &rank);
f->rank = mpz_get_si (rank);
mpz_clear (rank);
switch (source->ts.type)
{
case BT_COMPLEX:
case BT_REAL:
case BT_INTEGER:
case BT_LOGICAL:
kind = source->ts.kind;
break;
default:
kind = 0;
break;
}
switch (kind)
{
case 4:
case 8:
case 10:
case 16:
if (source->ts.type == BT_COMPLEX || source->ts.type == BT_REAL)
f->value.function.name =
gfc_get_string (PREFIX("reshape_%c%d"),
gfc_type_letter (source->ts.type), source->ts.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"));
break;
}
if (shape->expr_type == EXPR_ARRAY
&& gfc_is_constant_expr (shape)
&& order == NULL)
{
gfc_constructor *c;
f->shape = gfc_get_shape (f->rank);
c = shape->value.constructor;
for (i = 0; i < f->rank; i++)
{
mpz_init_set (f->shape[i], c->expr->value.integer);
c = c->next;
}
}
if (shape->ts.kind != gfc_index_integer_kind)
{
gfc_typespec ts = shape->ts;
ts.kind = gfc_index_integer_kind;
gfc_convert_type_warn (shape, &ts, 2, 0);
}
if (order && order->ts.kind != gfc_index_integer_kind)
gfc_convert_type_warn (order, &shape->ts, 2, 0);
}
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);
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);
f->value.function.actual->next = prec;
}
void
gfc_resolve_scale (gfc_expr * f, gfc_expr * x, gfc_expr * i)
{
f->ts = x->ts;
if (i->ts.kind != gfc_c_int_kind)
{
gfc_typespec ts;
ts.type = BT_INTEGER;
ts.kind = gfc_default_integer_kind;
gfc_convert_type_warn (i, &ts, 2, 0);
}
f->value.function.name = gfc_get_string ("__scale_%d", x->ts.kind);
}
void
gfc_resolve_scan (gfc_expr * f, gfc_expr * string,
gfc_expr * set ATTRIBUTE_UNUSED,
gfc_expr * back ATTRIBUTE_UNUSED)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_default_integer_kind;
f->value.function.name = gfc_get_string ("__scan_%d", string->ts.kind);
}
void
gfc_resolve_secnds (gfc_expr * t1, gfc_expr * t0)
{
t1->ts = t0->ts;
t1->value.function.name =
gfc_get_string (PREFIX("secnds"));
}
void
gfc_resolve_set_exponent (gfc_expr * f, gfc_expr * x, gfc_expr * i)
{
f->ts = x->ts;
if (i->ts.kind != 4)
{
gfc_typespec ts;
ts.type = BT_INTEGER;
ts.kind = gfc_default_integer_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_shape (gfc_expr * f, gfc_expr * array)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_default_integer_kind;
f->rank = 1;
f->value.function.name = gfc_get_string (PREFIX("shape_%d"), f->ts.kind);
f->shape = gfc_get_shape (1);
mpz_init_set_ui (f->shape[0], array->rank);
}
void
gfc_resolve_sign (gfc_expr * f, gfc_expr * a, gfc_expr * b ATTRIBUTE_UNUSED)
{
f->ts = a->ts;
f->value.function.name =
gfc_get_string ("__sign_%c%d", gfc_type_letter (a->ts.type), a->ts.kind);
}
void
gfc_resolve_signal (gfc_expr * f, gfc_expr *number, gfc_expr *handler)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_c_int_kind;
if (handler->ts.type == BT_INTEGER)
{
if (handler->ts.kind != gfc_c_int_kind)
gfc_convert_type (handler, &f->ts, 2);
f->value.function.name = gfc_get_string (PREFIX("signal_func_int"));
}
else
f->value.function.name = gfc_get_string (PREFIX("signal_func"));
if (number->ts.kind != gfc_c_int_kind)
gfc_convert_type (number, &f->ts, 2);
}
void
gfc_resolve_sin (gfc_expr * f, gfc_expr * x)
{
f->ts = x->ts;
f->value.function.name =
gfc_get_string ("__sin_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
}
void
gfc_resolve_sinh (gfc_expr * f, gfc_expr * x)
{
f->ts = x->ts;
f->value.function.name =
gfc_get_string ("__sinh_%c%d", gfc_type_letter (x->ts.type), 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);
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);
emin_1->next = tiny;
prec = gfc_get_actual_arglist ();
prec->name = "prec";
prec->expr = gfc_int_expr (gfc_real_kinds[k].digits);
prec->next = emin_1;
f->value.function.actual->next = prec;
}
void
gfc_resolve_spread (gfc_expr * f, gfc_expr * source,
gfc_expr * dim,
gfc_expr * ncopies)
{
if (source->ts.type == BT_CHARACTER)
check_charlen_present (source);
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"));
else
f->value.function.name = (source->ts.type == BT_CHARACTER
? PREFIX("spread_char")
: PREFIX("spread"));
if (dim && gfc_is_constant_expr (dim)
&& ncopies && gfc_is_constant_expr (ncopies)
&& source->shape[0])
{
int i, idim;
idim = mpz_get_ui (dim->value.integer);
f->shape = gfc_get_shape (f->rank);
for (i = 0; i < (idim - 1); i++)
mpz_init_set (f->shape[i], source->shape[i]);
mpz_init_set (f->shape[idim - 1], ncopies->value.integer);
for (i = idim; i < f->rank ; i++)
mpz_init_set (f->shape[i], source->shape[i-1]);
}
gfc_resolve_dim_arg (dim);
gfc_resolve_index (ncopies, 1);
}
void
gfc_resolve_sqrt (gfc_expr * f, gfc_expr * x)
{
f->ts = x->ts;
f->value.function.name =
gfc_get_string ("__sqrt_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
}
void
gfc_resolve_stat (gfc_expr * f, gfc_expr * n ATTRIBUTE_UNUSED,
gfc_expr * a ATTRIBUTE_UNUSED)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_default_integer_kind;
f->value.function.name = gfc_get_string (PREFIX("stat_i%d"), f->ts.kind);
}
void
gfc_resolve_lstat (gfc_expr * f, gfc_expr * n ATTRIBUTE_UNUSED,
gfc_expr * a ATTRIBUTE_UNUSED)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_default_integer_kind;
f->value.function.name = gfc_get_string (PREFIX("lstat_i%d"), f->ts.kind);
}
void
gfc_resolve_fstat (gfc_expr * f, gfc_expr * n, gfc_expr * a ATTRIBUTE_UNUSED)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_default_integer_kind;
if (n->ts.kind != f->ts.kind)
gfc_convert_type (n, &f->ts, 2);
f->value.function.name = gfc_get_string (PREFIX("fstat_i%d"), f->ts.kind);
}
void
gfc_resolve_fgetc (gfc_expr * f, gfc_expr * u, gfc_expr * c ATTRIBUTE_UNUSED)
{
gfc_typespec ts;
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_c_int_kind;
if (u->ts.kind != gfc_c_int_kind)
{
ts.type = BT_INTEGER;
ts.kind = gfc_c_int_kind;
ts.derived = NULL;
ts.cl = NULL;
gfc_convert_type (u, &ts, 2);
}
f->value.function.name = gfc_get_string (PREFIX("fgetc"));
}
void
gfc_resolve_fget (gfc_expr * f, gfc_expr * c ATTRIBUTE_UNUSED)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_c_int_kind;
f->value.function.name = gfc_get_string (PREFIX("fget"));
}
void
gfc_resolve_fputc (gfc_expr * f, gfc_expr * u, gfc_expr * c ATTRIBUTE_UNUSED)
{
gfc_typespec ts;
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_c_int_kind;
if (u->ts.kind != gfc_c_int_kind)
{
ts.type = BT_INTEGER;
ts.kind = gfc_c_int_kind;
ts.derived = NULL;
ts.cl = NULL;
gfc_convert_type (u, &ts, 2);
}
f->value.function.name = gfc_get_string (PREFIX("fputc"));
}
void
gfc_resolve_fput (gfc_expr * f, gfc_expr * c ATTRIBUTE_UNUSED)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_c_int_kind;
f->value.function.name = gfc_get_string (PREFIX("fput"));
}
void
gfc_resolve_ftell (gfc_expr * f, gfc_expr * u)
{
gfc_typespec ts;
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_index_integer_kind;
if (u->ts.kind != gfc_c_int_kind)
{
ts.type = BT_INTEGER;
ts.kind = gfc_c_int_kind;
ts.derived = NULL;
ts.cl = NULL;
gfc_convert_type (u, &ts, 2);
}
f->value.function.name = gfc_get_string (PREFIX("ftell"));
}
void
gfc_resolve_sum (gfc_expr * f, gfc_expr * array, gfc_expr * dim,
gfc_expr * mask)
{
const char *name;
f->ts = array->ts;
if (mask)
{
if (mask->rank == 0)
name = "ssum";
else
name = "msum";
if ((mask->ts.kind < gfc_default_logical_kind)
|| (mask->rank == 0 && mask->ts.kind != gfc_default_logical_kind))
{
gfc_typespec ts;
ts.type = BT_LOGICAL;
ts.kind = gfc_default_logical_kind;
gfc_convert_type_warn (mask, &ts, 2, 0);
}
}
else
name = "sum";
if (dim != NULL)
{
f->rank = array->rank - 1;
gfc_resolve_dim_arg (dim);
}
f->value.function.name =
gfc_get_string (PREFIX("%s_%c%d"), name,
gfc_type_letter (array->ts.type), array->ts.kind);
}
void
gfc_resolve_symlnk (gfc_expr * f, gfc_expr * p1 ATTRIBUTE_UNUSED,
gfc_expr * p2 ATTRIBUTE_UNUSED)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_default_integer_kind;
f->value.function.name = gfc_get_string (PREFIX("symlnk_i%d"), f->ts.kind);
}
void
gfc_resolve_system (gfc_expr * f, gfc_expr * n ATTRIBUTE_UNUSED)
{
f->ts.type = BT_INTEGER;
f->ts.kind = 4;
f->value.function.name = gfc_get_string (PREFIX("system"));
}
void
gfc_resolve_tan (gfc_expr * f, gfc_expr * x)
{
f->ts = x->ts;
f->value.function.name =
gfc_get_string ("__tan_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
}
void
gfc_resolve_tanh (gfc_expr * f, gfc_expr * x)
{
f->ts = x->ts;
f->value.function.name =
gfc_get_string ("__tanh_%c%d", gfc_type_letter (x->ts.type), x->ts.kind);
}
void
gfc_resolve_time (gfc_expr * f)
{
f->ts.type = BT_INTEGER;
f->ts.kind = 4;
f->value.function.name = gfc_get_string (PREFIX("time_func"));
}
void
gfc_resolve_time8 (gfc_expr * f)
{
f->ts.type = BT_INTEGER;
f->ts.kind = 8;
f->value.function.name = gfc_get_string (PREFIX("time8_func"));
}
void
gfc_resolve_transfer (gfc_expr * f, gfc_expr * source ATTRIBUTE_UNUSED,
gfc_expr * mold, gfc_expr * size)
{
static char transfer0[] = "__transfer0", transfer1[] = "__transfer1";
f->ts = mold->ts;
if (size == NULL && mold->rank == 0)
{
f->rank = 0;
f->value.function.name = transfer0;
}
else
{
f->rank = 1;
f->value.function.name = transfer1;
if (size && gfc_is_constant_expr (size))
{
f->shape = gfc_get_shape (1);
mpz_init_set (f->shape[0], size->value.integer);
}
}
}
void
gfc_resolve_transpose (gfc_expr * f, gfc_expr * matrix)
{
f->ts = matrix->ts;
f->rank = 2;
if (matrix->shape)
{
f->shape = gfc_get_shape (2);
mpz_init_set (f->shape[0], matrix->shape[1]);
mpz_init_set (f->shape[1], matrix->shape[0]);
}
switch (matrix->ts.kind)
{
case 4:
case 8:
case 10:
case 16:
switch (matrix->ts.type)
{
case BT_REAL:
case BT_COMPLEX:
f->value.function.name =
gfc_get_string (PREFIX("transpose_%c%d"),
gfc_type_letter (matrix->ts.type),
matrix->ts.kind);
break;
case BT_INTEGER:
case BT_LOGICAL:
f->value.function.name =
gfc_get_string (PREFIX("transpose_i%d"), matrix->ts.kind);
break;
default:
f->value.function.name = PREFIX("transpose");
break;
}
break;
default:
f->value.function.name = (matrix->ts.type == BT_CHARACTER
? PREFIX("transpose_char")
: PREFIX("transpose"));
break;
}
}
void
gfc_resolve_trim (gfc_expr * f, gfc_expr * string)
{
f->ts.type = BT_CHARACTER;
f->ts.kind = string->ts.kind;
f->value.function.name = gfc_get_string ("__trim_%d", string->ts.kind);
}
void
gfc_resolve_ubound (gfc_expr * f, gfc_expr * array,
gfc_expr * dim)
{
static char ubound[] = "__ubound";
f->ts.type = BT_INTEGER;
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_umask (gfc_expr * f, gfc_expr * n)
{
f->ts.type = BT_INTEGER;
f->ts.kind = n->ts.kind;
f->value.function.name = gfc_get_string (PREFIX("umask_i%d"), n->ts.kind);
}
void
gfc_resolve_unlink (gfc_expr * f, gfc_expr * n ATTRIBUTE_UNUSED)
{
f->ts.type = BT_INTEGER;
f->ts.kind = 4;
f->value.function.name = gfc_get_string (PREFIX("unlink"));
}
void
gfc_resolve_ttynam (gfc_expr * f, gfc_expr * unit)
{
gfc_typespec ts;
f->ts.type = BT_CHARACTER;
f->ts.kind = gfc_default_character_kind;
if (unit->ts.kind != gfc_c_int_kind)
{
ts.type = BT_INTEGER;
ts.kind = gfc_c_int_kind;
ts.derived = NULL;
ts.cl = NULL;
gfc_convert_type (unit, &ts, 2);
}
f->value.function.name = gfc_get_string (PREFIX("ttynam"));
}
void
gfc_resolve_unpack (gfc_expr * f, gfc_expr * vector, gfc_expr * mask,
gfc_expr * field ATTRIBUTE_UNUSED)
{
f->ts = vector->ts;
f->rank = mask->rank;
f->value.function.name =
gfc_get_string (PREFIX("unpack%d%s"), field->rank > 0 ? 1 : 0,
vector->ts.type == BT_CHARACTER ? "_char" : "");
}
void
gfc_resolve_verify (gfc_expr * f, gfc_expr * string,
gfc_expr * set ATTRIBUTE_UNUSED,
gfc_expr * back ATTRIBUTE_UNUSED)
{
f->ts.type = BT_INTEGER;
f->ts.kind = gfc_default_integer_kind;
f->value.function.name = gfc_get_string ("__verify_%d", string->ts.kind);
}
void
gfc_resolve_xor (gfc_expr * f, gfc_expr * i, gfc_expr * j)
{
f->ts.type = i->ts.type;
f->ts.kind = gfc_kind_max (i,j);
if (i->ts.kind != j->ts.kind)
{
if (i->ts.kind == gfc_kind_max (i,j))
gfc_convert_type(j, &i->ts, 2);
else
gfc_convert_type(i, &j->ts, 2);
}
f->value.function.name = gfc_get_string ("__xor_%c%d",
gfc_type_letter (i->ts.type),
f->ts.kind);
}
void
gfc_resolve_alarm_sub (gfc_code * c)
{
const char *name;
gfc_expr *seconds, *handler, *status;
gfc_typespec 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;
if (handler->ts.type == BT_INTEGER)
{
if (handler->ts.kind != gfc_c_int_kind)
gfc_convert_type (handler, &ts, 2);
name = gfc_get_string (PREFIX("alarm_sub_int"));
}
else
name = gfc_get_string (PREFIX("alarm_sub"));
if (seconds->ts.kind != gfc_c_int_kind)
gfc_convert_type (seconds, &ts, 2);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_cpu_time (gfc_code * c)
{
const char *name;
name = gfc_get_string (PREFIX("cpu_time_%d"),
c->ext.actual->expr->ts.kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_mvbits (gfc_code * c)
{
const char *name;
int kind;
kind = c->ext.actual->expr->ts.kind;
name = gfc_get_string (PREFIX("mvbits_i%d"), kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_random_number (gfc_code * c)
{
const char *name;
int kind;
kind = c->ext.actual->expr->ts.kind;
if (c->ext.actual->expr->rank == 0)
name = gfc_get_string (PREFIX("random_r%d"), kind);
else
name = gfc_get_string (PREFIX("arandom_r%d"), kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_rename_sub (gfc_code * c)
{
const char *name;
int kind;
if (c->ext.actual->next->next->expr != NULL)
kind = c->ext.actual->next->next->expr->ts.kind;
else
kind = gfc_default_integer_kind;
name = gfc_get_string (PREFIX("rename_i%d_sub"), kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_kill_sub (gfc_code * c)
{
const char *name;
int kind;
if (c->ext.actual->next->next->expr != NULL)
kind = c->ext.actual->next->next->expr->ts.kind;
else
kind = gfc_default_integer_kind;
name = gfc_get_string (PREFIX("kill_i%d_sub"), kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_link_sub (gfc_code * c)
{
const char *name;
int kind;
if (c->ext.actual->next->next->expr != NULL)
kind = c->ext.actual->next->next->expr->ts.kind;
else
kind = gfc_default_integer_kind;
name = gfc_get_string (PREFIX("link_i%d_sub"), kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_symlnk_sub (gfc_code * c)
{
const char *name;
int kind;
if (c->ext.actual->next->next->expr != NULL)
kind = c->ext.actual->next->next->expr->ts.kind;
else
kind = gfc_default_integer_kind;
name = gfc_get_string (PREFIX("symlnk_i%d_sub"), kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_etime_sub (gfc_code * c)
{
const char *name;
name = gfc_get_string (PREFIX("etime_sub"));
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_itime (gfc_code * c)
{
c->resolved_sym = gfc_get_intrinsic_sub_symbol
(gfc_get_string (PREFIX("itime_i%d"),
gfc_default_integer_kind));
}
void
gfc_resolve_idate (gfc_code * c)
{
c->resolved_sym = gfc_get_intrinsic_sub_symbol
(gfc_get_string (PREFIX("idate_i%d"),
gfc_default_integer_kind));
}
void
gfc_resolve_ltime (gfc_code * c)
{
c->resolved_sym = gfc_get_intrinsic_sub_symbol
(gfc_get_string (PREFIX("ltime_i%d"),
gfc_default_integer_kind));
}
void
gfc_resolve_gmtime (gfc_code * c)
{
c->resolved_sym = gfc_get_intrinsic_sub_symbol
(gfc_get_string (PREFIX("gmtime_i%d"),
gfc_default_integer_kind));
}
void
gfc_resolve_second_sub (gfc_code * c)
{
const char *name;
name = gfc_get_string (PREFIX("second_sub"));
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_sleep_sub (gfc_code * c)
{
const char *name;
int kind;
if (c->ext.actual->expr != NULL)
kind = c->ext.actual->expr->ts.kind;
else
kind = gfc_default_integer_kind;
name = gfc_get_string (PREFIX("sleep_i%d_sub"), kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_srand (gfc_code * c)
{
const char *name;
name = gfc_get_string (PREFIX("srand"));
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_getarg (gfc_code * c)
{
const char *name;
int kind;
kind = gfc_default_integer_kind;
name = gfc_get_string (PREFIX("getarg_i%d"), kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_getcwd_sub (gfc_code * c)
{
const char *name;
int kind;
if (c->ext.actual->next->expr != NULL)
kind = c->ext.actual->next->expr->ts.kind;
else
kind = gfc_default_integer_kind;
name = gfc_get_string (PREFIX("getcwd_i%d_sub"), kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_get_command (gfc_code * c)
{
const char *name;
int kind;
kind = gfc_default_integer_kind;
name = gfc_get_string (PREFIX("get_command_i%d"), kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_get_command_argument (gfc_code * c)
{
const char *name;
int kind;
kind = gfc_default_integer_kind;
name = gfc_get_string (PREFIX("get_command_argument_i%d"), kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_get_environment_variable (gfc_code * code)
{
const char *name;
int kind;
kind = gfc_default_integer_kind;
name = gfc_get_string (PREFIX("get_environment_variable_i%d"), kind);
code->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_signal_sub (gfc_code * c)
{
const char *name;
gfc_expr *number, *handler, *status;
gfc_typespec ts;
number = 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;
if (handler->ts.type == BT_INTEGER)
{
if (handler->ts.kind != gfc_c_int_kind)
gfc_convert_type (handler, &ts, 2);
name = gfc_get_string (PREFIX("signal_sub_int"));
}
else
name = gfc_get_string (PREFIX("signal_sub"));
if (number->ts.kind != gfc_c_int_kind)
gfc_convert_type (number, &ts, 2);
if (status != NULL && status->ts.kind != gfc_c_int_kind)
gfc_convert_type (status, &ts, 2);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_system_sub (gfc_code * c)
{
const char *name;
name = gfc_get_string (PREFIX("system_sub"));
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_system_clock (gfc_code * c)
{
const char *name;
int kind;
if (c->ext.actual->expr != NULL)
kind = c->ext.actual->expr->ts.kind;
else if (c->ext.actual->next->expr != NULL)
kind = c->ext.actual->next->expr->ts.kind;
else if (c->ext.actual->next->next->expr != NULL)
kind = c->ext.actual->next->next->expr->ts.kind;
else
kind = gfc_default_integer_kind;
name = gfc_get_string (PREFIX("system_clock_%d"), kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_exit (gfc_code * c)
{
const char *name;
int kind;
if (c->ext.actual->expr != NULL)
kind = c->ext.actual->expr->ts.kind;
else
kind = gfc_default_integer_kind;
name = gfc_get_string (PREFIX("exit_i%d"), kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_flush (gfc_code * c)
{
const char *name;
gfc_typespec ts;
gfc_expr *n;
ts.type = BT_INTEGER;
ts.kind = gfc_default_integer_kind;
n = c->ext.actual->expr;
if (n != NULL
&& n->ts.kind != ts.kind)
gfc_convert_type (n, &ts, 2);
name = gfc_get_string (PREFIX("flush_i%d"), ts.kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_free (gfc_code * c)
{
gfc_typespec ts;
gfc_expr *n;
ts.type = BT_INTEGER;
ts.kind = gfc_index_integer_kind;
n = c->ext.actual->expr;
if (n->ts.kind != ts.kind)
gfc_convert_type (n, &ts, 2);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (PREFIX("free"));
}
void
gfc_resolve_ctime_sub (gfc_code * c)
{
gfc_typespec ts;
if (c->ext.actual->expr->ts.kind != 8)
{
ts.type = BT_INTEGER;
ts.kind = 8;
ts.derived = NULL;
ts.cl = NULL;
gfc_convert_type (c->ext.actual->expr, &ts, 2);
}
c->resolved_sym = gfc_get_intrinsic_sub_symbol (PREFIX("ctime_sub"));
}
void
gfc_resolve_fdate_sub (gfc_code * c)
{
c->resolved_sym = gfc_get_intrinsic_sub_symbol (PREFIX ("fdate_sub"));
}
void
gfc_resolve_gerror (gfc_code * c)
{
c->resolved_sym = gfc_get_intrinsic_sub_symbol (PREFIX ("gerror"));
}
void
gfc_resolve_getlog (gfc_code * c)
{
c->resolved_sym = gfc_get_intrinsic_sub_symbol (PREFIX ("getlog"));
}
void
gfc_resolve_hostnm_sub (gfc_code * c)
{
const char *name;
int kind;
if (c->ext.actual->next->expr != NULL)
kind = c->ext.actual->next->expr->ts.kind;
else
kind = gfc_default_integer_kind;
name = gfc_get_string (PREFIX("hostnm_i%d_sub"), kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_perror (gfc_code * c)
{
c->resolved_sym = gfc_get_intrinsic_sub_symbol (PREFIX ("perror_sub"));
}
void
gfc_resolve_stat_sub (gfc_code * c)
{
const char *name;
name = gfc_get_string (PREFIX("stat_i%d_sub"), gfc_default_integer_kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_lstat_sub (gfc_code * c)
{
const char *name;
name = gfc_get_string (PREFIX("lstat_i%d_sub"), gfc_default_integer_kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_fstat_sub (gfc_code * c)
{
const char *name;
gfc_expr *u;
gfc_typespec *ts;
u = c->ext.actual->expr;
ts = &c->ext.actual->next->expr->ts;
if (u->ts.kind != ts->kind)
gfc_convert_type (u, ts, 2);
name = gfc_get_string (PREFIX("fstat_i%d_sub"), ts->kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_fgetc_sub (gfc_code * c)
{
const char *name;
gfc_typespec ts;
gfc_expr *u, *st;
u = c->ext.actual->expr;
st = c->ext.actual->next->next->expr;
if (u->ts.kind != gfc_c_int_kind)
{
ts.type = BT_INTEGER;
ts.kind = gfc_c_int_kind;
ts.derived = NULL;
ts.cl = NULL;
gfc_convert_type (u, &ts, 2);
}
if (st != NULL)
name = gfc_get_string (PREFIX("fgetc_i%d_sub"), st->ts.kind);
else
name = gfc_get_string (PREFIX("fgetc_i%d_sub"), gfc_default_integer_kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_fget_sub (gfc_code * c)
{
const char *name;
gfc_expr *st;
st = c->ext.actual->next->expr;
if (st != NULL)
name = gfc_get_string (PREFIX("fget_i%d_sub"), st->ts.kind);
else
name = gfc_get_string (PREFIX("fget_i%d_sub"), gfc_default_integer_kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_fputc_sub (gfc_code * c)
{
const char *name;
gfc_typespec ts;
gfc_expr *u, *st;
u = c->ext.actual->expr;
st = c->ext.actual->next->next->expr;
if (u->ts.kind != gfc_c_int_kind)
{
ts.type = BT_INTEGER;
ts.kind = gfc_c_int_kind;
ts.derived = NULL;
ts.cl = NULL;
gfc_convert_type (u, &ts, 2);
}
if (st != NULL)
name = gfc_get_string (PREFIX("fputc_i%d_sub"), st->ts.kind);
else
name = gfc_get_string (PREFIX("fputc_i%d_sub"), gfc_default_integer_kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_fput_sub (gfc_code * c)
{
const char *name;
gfc_expr *st;
st = c->ext.actual->next->expr;
if (st != NULL)
name = gfc_get_string (PREFIX("fput_i%d_sub"), st->ts.kind);
else
name = gfc_get_string (PREFIX("fput_i%d_sub"), gfc_default_integer_kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_ftell_sub (gfc_code * c)
{
const char *name;
gfc_expr *unit;
gfc_expr *offset;
gfc_typespec ts;
unit = c->ext.actual->expr;
offset = c->ext.actual->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;
gfc_convert_type (unit, &ts, 2);
}
name = gfc_get_string (PREFIX("ftell_i%d_sub"), offset->ts.kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_ttynam_sub (gfc_code * c)
{
gfc_typespec ts;
if (c->ext.actual->expr->ts.kind != gfc_c_int_kind)
{
ts.type = BT_INTEGER;
ts.kind = gfc_c_int_kind;
ts.derived = NULL;
ts.cl = NULL;
gfc_convert_type (c->ext.actual->expr, &ts, 2);
}
c->resolved_sym = gfc_get_intrinsic_sub_symbol (PREFIX("ttynam_sub"));
}
void
gfc_resolve_umask_sub (gfc_code * c)
{
const char *name;
int kind;
if (c->ext.actual->next->expr != NULL)
kind = c->ext.actual->next->expr->ts.kind;
else
kind = gfc_default_integer_kind;
name = gfc_get_string (PREFIX("umask_i%d_sub"), kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}
void
gfc_resolve_unlink_sub (gfc_code * c)
{
const char *name;
int kind;
if (c->ext.actual->next->expr != NULL)
kind = c->ext.actual->next->expr->ts.kind;
else
kind = gfc_default_integer_kind;
name = gfc_get_string (PREFIX("unlink_i%d_sub"), kind);
c->resolved_sym = gfc_get_intrinsic_sub_symbol (name);
}