/* Declaration statement matcher
- Copyright (C) 2002, 2004, 2005, 2006, 2007, 2008, 2009, 2010
+ Copyright (C) 2002, 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011, 2012
Free Software Foundation, Inc.
Contributed by Andy Vaught
#include "parse.h"
#include "flags.h"
#include "constructor.h"
+#include "tree.h"
/* Macros to access allocate memory for gfc_data_variable,
gfc_data_value and gfc_data. */
#define gfc_get_data() XCNEW (gfc_data)
+static gfc_try set_binding_label (const char **, const char *, int);
+
+
/* This flag is set if an old-style length selector is matched
during a type-declaration statement. */
static int colon_seen;
/* The current binding label (if any). */
-static char curr_binding_label[GFC_MAX_BINDING_LABEL_LEN + 1];
+static const char* curr_binding_label;
/* Need to know how many identifiers are on the current data declaration
line in case we're given the BIND(C) attribute with a NAME= specifier. */
static int num_idents_on_line;
gfc_free_expr (p->expr);
gfc_free_iterator (&p->iter, 0);
free_variable (p->list);
- gfc_free (p);
+ free (p);
}
}
for (; p; p = q)
{
q = p->next;
+ mpz_clear (p->repeat);
gfc_free_expr (p->expr);
- gfc_free (p);
+ free (p);
}
}
q = p->next;
free_variable (p->var);
free_value (p->value);
- gfc_free (p);
+ free (p);
}
}
for (;ns->data;)
{
d = ns->data->next;
- gfc_free (ns->data);
+ free (ns->data);
ns->data = d;
}
}
match_data_constant (gfc_expr **result)
{
char name[GFC_MAX_SYMBOL_LEN + 1];
- gfc_symbol *sym;
+ gfc_symbol *sym, *dt_sym = NULL;
gfc_expr *expr;
match m;
locus old_loc;
if (gfc_find_symbol (name, NULL, 1, &sym))
return MATCH_ERROR;
+ if (sym && sym->attr.generic)
+ dt_sym = gfc_find_dt_in_generic (sym);
+
if (sym == NULL
- || (sym->attr.flavor != FL_PARAMETER && sym->attr.flavor != FL_DERIVED))
+ || (sym->attr.flavor != FL_PARAMETER
+ && (!dt_sym || dt_sym->attr.flavor != FL_DERIVED)))
{
gfc_error ("Symbol '%s' must be a PARAMETER in DATA statement at %C",
name);
return MATCH_ERROR;
}
- else if (sym->attr.flavor == FL_DERIVED)
- return gfc_match_structure_constructor (sym, result, false);
+ else if (dt_sym && dt_sym->attr.flavor == FL_DERIVED)
+ return gfc_match_structure_constructor (dt_sym, result);
/* Check to see if the value is an initialization array expression. */
if (sym->value->expr_type == EXPR_ARRAY)
m = top_val_list (newdata);
if (m != MATCH_YES)
{
- gfc_free (newdata);
+ free (newdata);
return m;
}
if (gfc_pure (NULL))
{
gfc_error ("Initialization at %C is not allowed in a PURE procedure");
- gfc_free (newdata);
+ free (newdata);
return MATCH_ERROR;
}
+ if (gfc_implicit_pure (NULL))
+ gfc_current_ns->proc_name->attr.implicit_pure = 0;
+
/* Mark the variable as having appeared in a data statement. */
if (gfc_add_data (&sym->attr, sym->name, &sym->declared_at) == FAILURE)
{
- gfc_free (newdata);
+ free (newdata);
return MATCH_ERROR;
}
return MATCH_ERROR;
}
+ if (gfc_implicit_pure (NULL))
+ gfc_current_ns->proc_name->attr.implicit_pure = 0;
+
return MATCH_YES;
cleanup:
/* Matches a character length specification, which is either a
- specification expression or a '*'. */
+ specification expression, '*', or ':'. */
static match
-char_len_param_value (gfc_expr **expr)
+char_len_param_value (gfc_expr **expr, bool *deferred)
{
match m;
+ *expr = NULL;
+ *deferred = false;
+
if (gfc_match_char ('*') == MATCH_YES)
+ return MATCH_YES;
+
+ if (gfc_match_char (':') == MATCH_YES)
{
- *expr = NULL;
+ if (gfc_notify_std (GFC_STD_F2003, "Fortran 2003: deferred type "
+ "parameter at %C") == FAILURE)
+ return MATCH_ERROR;
+
+ *deferred = true;
+
return MATCH_YES;
}
char_len_param_value in parenthesis. */
static match
-match_char_length (gfc_expr **expr)
+match_char_length (gfc_expr **expr, bool *deferred)
{
int length;
match m;
+ *deferred = false;
m = gfc_match_char ('*');
if (m != MATCH_YES)
return m;
if (gfc_match_char ('(') == MATCH_NO)
goto syntax;
- m = char_len_param_value (expr);
+ m = char_len_param_value (expr, deferred);
if (m != MATCH_YES && gfc_matching_function)
{
gfc_undo_symbols ();
across platforms. */
gfc_try
-verify_c_interop_param (gfc_symbol *sym)
+gfc_verify_c_interop_param (gfc_symbol *sym)
{
int is_c_interop = 0;
gfc_try retval = SUCCESS;
{
if (sym->ns->proc_name->attr.is_bind_c == 1)
{
- is_c_interop =
- (verify_c_interop (&(sym->ts))
- == SUCCESS ? 1 : 0);
+ is_c_interop = (gfc_verify_c_interop (&(sym->ts)) == SUCCESS ? 1 : 0);
if (is_c_interop != 1)
{
/* Make personalized messages to give better feedback. */
if (sym->ts.type == BT_DERIVED)
- gfc_error ("Type '%s' at %L is a parameter to the BIND(C) "
- " procedure '%s' but is not C interoperable "
+ gfc_error ("Variable '%s' at %L is a dummy argument to the "
+ "BIND(C) procedure '%s' but is not C interoperable "
"because derived type '%s' is not C interoperable",
sym->name, &(sym->declared_at),
sym->ns->proc_name->name,
sym->ts.u.derived->name);
+ else if (sym->ts.type == BT_CLASS)
+ gfc_error ("Variable '%s' at %L is a dummy argument to the "
+ "BIND(C) procedure '%s' but is not C interoperable "
+ "because it is polymorphic",
+ sym->name, &(sym->declared_at),
+ sym->ns->proc_name->name);
else
gfc_warning ("Variable '%s' at %L is a parameter to the "
"BIND(C) procedure '%s' but may not be C "
retval = FAILURE;
}
- if (sym->attr.optional == 1)
+ if (sym->attr.optional == 1 && sym->attr.value)
{
- gfc_error ("Variable '%s' at %L cannot have the "
- "OPTIONAL attribute because procedure '%s'"
- " is BIND(C)", sym->name, &(sym->declared_at),
+ gfc_error ("Variable '%s' at %L cannot have both the OPTIONAL "
+ "and the VALUE attribute because procedure '%s' "
+ "is BIND(C)", sym->name, &(sym->declared_at),
sym->ns->proc_name->name);
retval = FAILURE;
}
+ else if (sym->attr.optional == 1
+ && gfc_notify_std (GFC_STD_F2008_TS, "TS29113: Variable '%s' "
+ "at %L with OPTIONAL attribute in "
+ "procedure '%s' which is BIND(C)",
+ sym->name, &(sym->declared_at),
+ sym->ns->proc_name->name)
+ == FAILURE)
+ retval = FAILURE;
/* Make sure that if it has the dimension attribute, that it is
either assumed size or explicit shape. */
/* Function called by variable_decl() that adds a name to the symbol table. */
static gfc_try
-build_sym (const char *name, gfc_charlen *cl,
+build_sym (const char *name, gfc_charlen *cl, bool cl_deferred,
gfc_array_spec **as, locus *var_locus)
{
symbol_attribute attr;
return FAILURE;
if (sym->ts.type == BT_CHARACTER)
- sym->ts.u.cl = cl;
+ {
+ sym->ts.u.cl = cl;
+ sym->ts.deferred = cl_deferred;
+ }
/* Add dimension attribute if present. */
if (gfc_set_array_spec (sym, *as, var_locus) == FAILURE)
with a bind(c) and make sure the binding label is set correctly. */
if (sym->attr.is_bind_c == 1)
{
- if (sym->binding_label[0] == '\0')
+ if (!sym->binding_label)
{
/* Set the binding label and verify that if a NAME= was specified
then only one identifier was in the entity-decl-list. */
- if (set_binding_label (sym->binding_label, sym->name,
+ if (set_binding_label (&sym->binding_label, sym->name,
num_idents_on_line) == FAILURE)
return FAILURE;
}
sym->attr.implied_index = 0;
if (sym->ts.type == BT_CLASS)
- {
- sym->attr.class_ok = (sym->attr.dummy
- || sym->attr.pointer
- || sym->attr.allocatable) ? 1 : 0;
- gfc_build_class_symbol (&sym->ts, &sym->attr, &sym->as, false);
- }
+ return gfc_build_class_symbol (&sym->ts, &sym->attr, &sym->as, false);
return SUCCESS;
}
&expr->where, slen, check_len);
s[len] = '\0';
- gfc_free (expr->value.character.string);
+ free (expr->value.character.string);
expr->value.character.string = s;
expr->value.character.length = len;
}
while (current != NULL)
{
next = current->next;
- gfc_free (current);
+ free (current);
current = next;
}
max_enum = NULL;
}
/* Check if the assignment can happen. This has to be put off
- until later for a derived type variable. */
+ until later for derived type variables and procedure pointers. */
if (sym->ts.type != BT_DERIVED && init->ts.type != BT_DERIVED
&& sym->ts.type != BT_CLASS && init->ts.type != BT_CLASS
+ && !sym->attr.proc_pointer
&& gfc_check_assign_symbol (sym, init) == FAILURE)
return FAILURE;
}
}
+ /* If sym is implied-shape, set its upper bounds from init. */
+ if (sym->attr.flavor == FL_PARAMETER && sym->attr.dimension
+ && sym->as->type == AS_IMPLIED_SHAPE)
+ {
+ int dim;
+
+ if (init->rank == 0)
+ {
+ gfc_error ("Can't initialize implied-shape array at %L"
+ " with scalar", &sym->declared_at);
+ return FAILURE;
+ }
+ gcc_assert (sym->as->rank == init->rank);
+
+ /* Shape should be present, we get an initialization expression. */
+ gcc_assert (init->shape);
+
+ for (dim = 0; dim < sym->as->rank; ++dim)
+ {
+ int k;
+ gfc_expr* lower;
+ gfc_expr* e;
+
+ lower = sym->as->lower[dim];
+ if (lower->expr_type != EXPR_CONSTANT)
+ {
+ gfc_error ("Non-constant lower bound in implied-shape"
+ " declaration at %L", &lower->where);
+ return FAILURE;
+ }
+
+ /* All dimensions must be without upper bound. */
+ gcc_assert (!sym->as->upper[dim]);
+
+ k = lower->ts.kind;
+ e = gfc_get_constant_expr (BT_INTEGER, k, &sym->declared_at);
+ mpz_add (e->value.integer,
+ lower->value.integer, init->shape[dim]);
+ mpz_sub_ui (e->value.integer, e->value.integer, 1);
+ sym->as->upper[dim] = e;
+ }
+
+ sym->as->type = AS_EXPLICIT;
+ }
+
/* Need to check if the expression we initialized this
to was one of the iso_c_binding named constants. If so,
and we're a parameter (constant), let it be iso_c.
/* Should this ever get more complicated, combine with similar section
in add_init_expr_to_sym into a separate function. */
- if (c->ts.type == BT_CHARACTER && !c->attr.pointer && c->initializer && c->ts.u.cl
+ if (c->ts.type == BT_CHARACTER && !c->attr.pointer && c->initializer
+ && c->ts.u.cl
&& c->ts.u.cl->length && c->ts.u.cl->length->expr_type == EXPR_CONSTANT)
{
int len;
scalar:
if (c->ts.type == BT_CLASS)
- gfc_build_class_symbol (&c->ts, &c->attr, &c->as, true);
+ {
+ bool delayed = (gfc_state_stack->sym == c->ts.u.derived)
+ || (!c->ts.u.derived->components
+ && !c->ts.u.derived->attr.zero_comp);
+ return gfc_build_class_symbol (&c->ts, &c->attr, &c->as, delayed);
+ }
return t;
}
}
+/* Match the initialization expr for a data pointer or procedure pointer. */
+
+static match
+match_pointer_init (gfc_expr **init, int procptr)
+{
+ match m;
+
+ if (gfc_pure (NULL) && gfc_state_stack->state != COMP_DERIVED)
+ {
+ gfc_error ("Initialization of pointer at %C is not allowed in "
+ "a PURE procedure");
+ return MATCH_ERROR;
+ }
+
+ /* Match NULL() initilization. */
+ m = gfc_match_null (init);
+ if (m != MATCH_NO)
+ return m;
+
+ /* Match non-NULL initialization. */
+ gfc_matching_ptr_assignment = !procptr;
+ gfc_matching_procptr_assignment = procptr;
+ m = gfc_match_rvalue (init);
+ gfc_matching_ptr_assignment = 0;
+ gfc_matching_procptr_assignment = 0;
+ if (m == MATCH_ERROR)
+ return MATCH_ERROR;
+ else if (m == MATCH_NO)
+ {
+ gfc_error ("Error in pointer initialization at %C");
+ return MATCH_ERROR;
+ }
+
+ if (!procptr)
+ gfc_resolve_expr (*init);
+
+ if (gfc_notify_std (GFC_STD_F2008, "Fortran 2008: non-NULL pointer "
+ "initialization at %C") == FAILURE)
+ return MATCH_ERROR;
+
+ return MATCH_YES;
+}
+
+
+static gfc_try
+check_function_name (char *name)
+{
+ /* In functions that have a RESULT variable defined, the function name always
+ refers to function calls. Therefore, the name is not allowed to appear in
+ specification statements. When checking this, be careful about
+ 'hidden' procedure pointer results ('ppr@'). */
+
+ if (gfc_current_state () == COMP_FUNCTION)
+ {
+ gfc_symbol *block = gfc_current_block ();
+ if (block && block->result && block->result != block
+ && strcmp (block->result->name, "ppr@") != 0
+ && strcmp (block->name, name) == 0)
+ {
+ gfc_error ("Function name '%s' not allowed at %C", name);
+ return FAILURE;
+ }
+ }
+
+ return SUCCESS;
+}
+
+
/* Match a variable name with an optional initializer. When this
subroutine is called, a variable is expected to be parsed next.
Depending on what is happening at the moment, updates either the
gfc_array_spec *as;
gfc_array_spec *cp_as; /* Extra copy for Cray Pointees. */
gfc_charlen *cl;
+ bool cl_deferred;
locus var_locus;
match m;
gfc_try t;
/* Now we could see the optional array spec. or character length. */
m = gfc_match_array_spec (&as, true, true);
- if (gfc_option.flag_cray_pointer && m == MATCH_YES)
- cp_as = gfc_copy_array_spec (as);
- else if (m == MATCH_ERROR)
+ if (m == MATCH_ERROR)
goto cleanup;
if (m == MATCH_NO)
else if (current_as)
merge_array_spec (current_as, as, true);
+ if (gfc_option.flag_cray_pointer)
+ cp_as = gfc_copy_array_spec (as);
+
+ /* At this point, we know for sure if the symbol is PARAMETER and can thus
+ determine (and check) whether it can be implied-shape. If it
+ was parsed as assumed-size, change it because PARAMETERs can not
+ be assumed-size. */
+ if (as)
+ {
+ if (as->type == AS_IMPLIED_SHAPE && current_attr.flavor != FL_PARAMETER)
+ {
+ m = MATCH_ERROR;
+ gfc_error ("Non-PARAMETER symbol '%s' at %L can't be implied-shape",
+ name, &var_locus);
+ goto cleanup;
+ }
+
+ if (as->type == AS_ASSUMED_SIZE && as->rank == 1
+ && current_attr.flavor == FL_PARAMETER)
+ as->type = AS_IMPLIED_SHAPE;
+
+ if (as->type == AS_IMPLIED_SHAPE
+ && gfc_notify_std (GFC_STD_F2008,
+ "Fortran 2008: Implied-shape array at %L",
+ &var_locus) == FAILURE)
+ {
+ m = MATCH_ERROR;
+ goto cleanup;
+ }
+ }
+
char_len = NULL;
cl = NULL;
+ cl_deferred = false;
if (current_ts.type == BT_CHARACTER)
{
- switch (match_char_length (&char_len))
+ switch (match_char_length (&char_len, &cl_deferred))
{
case MATCH_YES:
cl = gfc_new_charlen (gfc_current_ns, NULL);
else
cl = current_ts.u.cl;
+ cl_deferred = current_ts.deferred;
+
break;
case MATCH_ERROR:
create a symbol for those yet. If we fail to create the symbol,
bail out. */
if (gfc_current_state () != COMP_DERIVED
- && build_sym (name, cl, &as, &var_locus) == FAILURE)
+ && build_sym (name, cl, cl_deferred, &as, &var_locus) == FAILURE)
{
m = MATCH_ERROR;
goto cleanup;
}
- /* An interface body specifies all of the procedure's
- characteristics and these shall be consistent with those
- specified in the procedure definition, except that the interface
- may specify a procedure that is not pure if the procedure is
- defined to be pure(12.3.2). */
- if ((current_ts.type == BT_DERIVED || current_ts.type == BT_CLASS)
- && gfc_current_ns->proc_name
- && gfc_current_ns->proc_name->attr.if_source == IFSRC_IFBODY
- && current_ts.u.derived->ns != gfc_current_ns)
+ if (check_function_name (name) == FAILURE)
{
- gfc_symtree *st;
- st = gfc_find_symtree (gfc_current_ns->sym_root, current_ts.u.derived->name);
- if (!(current_ts.u.derived->attr.imported
- && st != NULL
- && st->n.sym == current_ts.u.derived)
- && !gfc_current_ns->has_import_set)
- {
- gfc_error ("the type of '%s' at %C has not been declared within the "
- "interface", name);
- m = MATCH_ERROR;
- goto cleanup;
- }
- }
-
- /* In functions that have a RESULT variable defined, the function
- name always refers to function calls. Therefore, the name is
- not allowed to appear in specification statements. */
- if (gfc_current_state () == COMP_FUNCTION
- && gfc_current_block () != NULL
- && gfc_current_block ()->result != NULL
- && gfc_current_block ()->result != gfc_current_block ()
- && strcmp (gfc_current_block ()->name, name) == 0)
- {
- gfc_error ("Function name '%s' not allowed at %C", name);
m = MATCH_ERROR;
goto cleanup;
}
goto cleanup;
}
- m = gfc_match_null (&initializer);
- if (m == MATCH_NO)
- {
- gfc_error ("Pointer initialization requires a NULL() at %C");
- m = MATCH_ERROR;
- }
-
- if (gfc_pure (NULL) && gfc_state_stack->state != COMP_DERIVED)
- {
- gfc_error ("Initialization of pointer at %C is not allowed in "
- "a PURE procedure");
- m = MATCH_ERROR;
- }
-
+ m = match_pointer_init (&initializer, 0);
if (m != MATCH_YES)
goto cleanup;
-
}
else if (gfc_match_char ('=') == MATCH_YES)
{
return MATCH_ERROR;
}
ts->kind /= 2;
+
+ }
+
+ if (ts->type == BT_INTEGER && ts->kind == 4 && gfc_option.flag_integer4_kind == 8)
+ ts->kind = 8;
+
+ if (ts->type == BT_REAL || ts->type == BT_COMPLEX)
+ {
+ if (ts->kind == 4)
+ {
+ if (gfc_option.flag_real4_kind == 8)
+ ts->kind = 8;
+ if (gfc_option.flag_real4_kind == 10)
+ ts->kind = 10;
+ if (gfc_option.flag_real4_kind == 16)
+ ts->kind = 16;
+ }
+
+ if (ts->kind == 8)
+ {
+ if (gfc_option.flag_real8_kind == 4)
+ ts->kind = 4;
+ if (gfc_option.flag_real8_kind == 10)
+ ts->kind = 10;
+ if (gfc_option.flag_real8_kind == 16)
+ ts->kind = 16;
+ }
}
if (gfc_validate_kind (ts->type, ts->kind, true) < 0)
if(m == MATCH_ERROR)
gfc_current_locus = where;
-
+
+ if (ts->type == BT_INTEGER && ts->kind == 4 && gfc_option.flag_integer4_kind == 8)
+ ts->kind = 8;
+
+ if (ts->type == BT_REAL || ts->type == BT_COMPLEX)
+ {
+ if (ts->kind == 4)
+ {
+ if (gfc_option.flag_real4_kind == 8)
+ ts->kind = 8;
+ if (gfc_option.flag_real4_kind == 10)
+ ts->kind = 10;
+ if (gfc_option.flag_real4_kind == 16)
+ ts->kind = 16;
+ }
+
+ if (ts->kind == 8)
+ {
+ if (gfc_option.flag_real8_kind == 4)
+ ts->kind = 4;
+ if (gfc_option.flag_real8_kind == 10)
+ ts->kind = 10;
+ if (gfc_option.flag_real8_kind == 16)
+ ts->kind = 16;
+ }
+ }
+
/* Return what we know from the test(s). */
return m;
gfc_charlen *cl;
gfc_expr *len;
match m;
+ bool deferred;
len = NULL;
seen_length = 0;
kind = 0;
is_iso_c = 0;
+ deferred = false;
/* Try the old-style specification first. */
old_char_selector = 0;
- m = match_char_length (&len);
+ m = match_char_length (&len, &deferred);
if (m != MATCH_NO)
{
if (m == MATCH_YES)
if (gfc_match (" , len =") == MATCH_NO)
goto rparen;
- m = char_len_param_value (&len);
+ m = char_len_param_value (&len, &deferred);
if (m == MATCH_NO)
goto syntax;
if (m == MATCH_ERROR)
/* Try to match "LEN = <len-param>" or "LEN = <len-param>, KIND = <int>". */
if (gfc_match (" len =") == MATCH_YES)
{
- m = char_len_param_value (&len);
+ m = char_len_param_value (&len, &deferred);
if (m == MATCH_NO)
goto syntax;
if (m == MATCH_ERROR)
}
/* Try to match ( <len-param> ) or ( <len-param> , [ KIND = ] <int> ). */
- m = char_len_param_value (&len);
+ m = char_len_param_value (&len, &deferred);
if (m == MATCH_NO)
goto syntax;
if (m == MATCH_ERROR)
ts->u.cl = cl;
ts->kind = kind == 0 ? gfc_default_character_kind : kind;
+ ts->deferred = deferred;
/* We have to know if it was a c interoperable kind so we can
do accurate type checking of bind(c) procs, etc. */
gfc_match_decl_type_spec (gfc_typespec *ts, int implicit_flag)
{
char name[GFC_MAX_SYMBOL_LEN + 1];
- gfc_symbol *sym;
+ gfc_symbol *sym, *dt_sym;
match m;
char c;
bool seen_deferred_kind, matched_type;
+ const char *dt_name;
/* A belt and braces check that the typespec is correctly being treated
as a deferred characteristic association. */
ts->kind = -1;
/* Clear the current binding label, in case one is given. */
- curr_binding_label[0] = '\0';
+ curr_binding_label = NULL;
if (gfc_match (" byte") == MATCH_YES)
{
ts->type = BT_DERIVED;
else
{
+ /* Match CLASS declarations. */
+ m = gfc_match (" class ( * )");
+ if (m == MATCH_ERROR)
+ return MATCH_ERROR;
+ else if (m == MATCH_YES)
+ {
+ gfc_fatal_error ("Unlimited polymorphism at %C not yet supported");
+ return MATCH_ERROR;
+ }
+
m = gfc_match (" class ( %n )", name);
if (m != MATCH_YES)
return m;
ts->u.derived = NULL;
if (gfc_current_state () != COMP_INTERFACE
&& !gfc_find_symbol (name, NULL, 1, &sym) && sym)
- ts->u.derived = sym;
+ {
+ sym = gfc_find_dt_in_generic (sym);
+ ts->u.derived = sym;
+ }
return MATCH_YES;
}
/* Search for the name but allow the components to be defined later. If
type = -1, this typespec has been seen in a function declaration but
- the type could not be accessed at that point. */
+ the type could not be accessed at that point. The actual derived type is
+ stored in a symtree with the first letter of the name captialized; the
+ symtree with the all lower-case name contains the associated
+ generic function. */
+ dt_name = gfc_get_string ("%c%s",
+ (char) TOUPPER ((unsigned char) name[0]),
+ (const char*)&name[1]);
sym = NULL;
- if (ts->kind != -1 && gfc_get_ha_symbol (name, &sym))
+ dt_sym = NULL;
+ if (ts->kind != -1)
{
- gfc_error ("Type name '%s' at %C is ambiguous", name);
- return MATCH_ERROR;
+ gfc_get_ha_symbol (name, &sym);
+ if (sym->generic && gfc_find_symbol (dt_name, NULL, 0, &dt_sym))
+ {
+ gfc_error ("Type name '%s' at %C is ambiguous", name);
+ return MATCH_ERROR;
+ }
+ if (sym->generic && !dt_sym)
+ dt_sym = gfc_find_dt_in_generic (sym);
}
else if (ts->kind == -1)
{
int iface = gfc_state_stack->previous->state != COMP_INTERFACE
|| gfc_current_ns->has_import_set;
- if (gfc_find_symbol (name, NULL, iface, &sym))
+ gfc_find_symbol (name, NULL, iface, &sym);
+ if (sym && sym->generic && gfc_find_symbol (dt_name, NULL, 1, &dt_sym))
{
gfc_error ("Type name '%s' at %C is ambiguous", name);
return MATCH_ERROR;
}
+ if (sym && sym->generic && !dt_sym)
+ dt_sym = gfc_find_dt_in_generic (sym);
ts->kind = 0;
if (sym == NULL)
return MATCH_NO;
}
- if (sym->attr.flavor != FL_DERIVED
- && gfc_add_flavor (&sym->attr, FL_DERIVED, sym->name, NULL) == FAILURE)
- return MATCH_ERROR;
+ if ((sym->attr.flavor != FL_UNKNOWN
+ && !(sym->attr.flavor == FL_PROCEDURE && sym->attr.generic))
+ || sym->attr.subroutine)
+ {
+ gfc_error ("Type name '%s' at %C conflicts with previously declared "
+ "entity at %L, which has the same name", name,
+ &sym->declared_at);
+ return MATCH_ERROR;
+ }
gfc_set_sym_referenced (sym);
- ts->u.derived = sym;
+ if (!sym->attr.generic
+ && gfc_add_generic (&sym->attr, sym->name, NULL) == FAILURE)
+ return MATCH_ERROR;
+
+ if (!sym->attr.function
+ && gfc_add_function (&sym->attr, sym->name, NULL) == FAILURE)
+ return MATCH_ERROR;
+
+ if (!dt_sym)
+ {
+ gfc_interface *intr, *head;
+
+ /* Use upper case to save the actual derived-type symbol. */
+ gfc_get_symbol (dt_name, NULL, &dt_sym);
+ dt_sym->name = gfc_get_string (sym->name);
+ head = sym->generic;
+ intr = gfc_get_interface ();
+ intr->sym = dt_sym;
+ intr->where = gfc_current_locus;
+ intr->next = head;
+ sym->generic = intr;
+ sym->attr.if_source = IFSRC_DECL;
+ }
+
+ gfc_set_sym_referenced (dt_sym);
+
+ if (dt_sym->attr.flavor != FL_DERIVED
+ && gfc_add_flavor (&dt_sym->attr, FL_DERIVED, sym->name, NULL)
+ == FAILURE)
+ return MATCH_ERROR;
+
+ ts->u.derived = dt_sym;
return MATCH_YES;
for(;;)
{
+ sym = NULL;
m = gfc_match (" %n", name);
switch (m)
{
gfc_error ("Type name '%s' at %C is ambiguous", name);
return MATCH_ERROR;
}
- else if (gfc_current_ns->proc_name->ns->parent != NULL
+ else if (!sym && gfc_current_ns->proc_name->ns->parent != NULL
&& gfc_find_symbol (name,
gfc_current_ns->proc_name->ns->parent,
1, &sym))
return MATCH_ERROR;
}
- if (gfc_find_symtree (gfc_current_ns->sym_root,name))
+ if (gfc_find_symtree (gfc_current_ns->sym_root, name))
{
gfc_warning ("'%s' is already IMPORTed from host scoping unit "
"at %C.", name);
goto next_item;
}
- st = gfc_new_symtree (&gfc_current_ns->sym_root, sym->name);
+ st = gfc_new_symtree (&gfc_current_ns->sym_root, name);
st->n.sym = sym;
sym->refs++;
sym->attr.imported = 1;
+ if (sym->attr.generic && (sym = gfc_find_dt_in_generic (sym)))
+ {
+ /* The actual derived type is stored in a symtree with the first
+ letter of the name captialized; the symtree with the all
+ lower-case name contains the associated generic function. */
+ st = gfc_new_symtree (&gfc_current_ns->sym_root,
+ gfc_get_string ("%c%s",
+ (char) TOUPPER ((unsigned char) name[0]),
+ &name[1]));
+ st->n.sym = sym;
+ sym->refs++;
+ sym->attr.imported = 1;
+ }
+
goto next_item;
case MATCH_NO:
else if (m == MATCH_YES)
{
merge_array_spec (as, current_as, false);
- gfc_free (as);
+ free (as);
}
if (m == MATCH_NO)
break;
case DECL_SAVE:
- t = gfc_add_save (¤t_attr, NULL, &seen_at[d]);
+ t = gfc_add_save (¤t_attr, SAVE_EXPLICIT, NULL, &seen_at[d]);
break;
case DECL_TARGET:
}
}
+ /* Since Fortran 2008 module variables implicitly have the SAVE attribute. */
+ if (gfc_current_state () == COMP_MODULE && !current_attr.save
+ && (gfc_option.allow_std & GFC_STD_F2008) != 0)
+ current_attr.save = SAVE_IMPLICIT;
+
colon_seen = 1;
return MATCH_YES;
(J3/04-007, section 15.4.1). If a binding label was given and
there is more than one argument (num_idents), it is an error. */
-gfc_try
-set_binding_label (char *dest_label, const char *sym_name, int num_idents)
+static gfc_try
+set_binding_label (const char **dest_label, const char *sym_name,
+ int num_idents)
{
if (num_idents > 1 && has_name_equals)
{
return FAILURE;
}
- if (curr_binding_label[0] != '\0')
- {
- /* Binding label given; store in temp holder til have sym. */
- strcpy (dest_label, curr_binding_label);
- }
+ if (curr_binding_label)
+ /* Binding label given; store in temp holder til have sym. */
+ *dest_label = curr_binding_label;
else
{
/* No binding label given, and the NAME= specifier did not exist,
which means there was no NAME="". */
if (sym_name != NULL && has_name_equals == 0)
- strcpy (dest_label, sym_name);
+ *dest_label = IDENTIFIER_POINTER (get_identifier (sym_name));
}
return SUCCESS;
/* Verify that the given gfc_typespec is for a C interoperable type. */
gfc_try
-verify_c_interop (gfc_typespec *ts)
+gfc_verify_c_interop (gfc_typespec *ts)
{
if (ts->type == BT_DERIVED && ts->u.derived != NULL)
- return (ts->u.derived->ts.is_c_interop ? SUCCESS : FAILURE);
+ return (ts->u.derived->ts.is_c_interop || ts->u.derived->attr.is_bind_c)
+ ? SUCCESS : FAILURE;
+ else if (ts->type == BT_CLASS)
+ return FAILURE;
else if (ts->is_c_interop != 1)
return FAILURE;
the given ts (current_ts), so look in both. */
if (tmp_sym->ts.type != BT_UNKNOWN || ts->type != BT_UNKNOWN)
{
- if (verify_c_interop (&(tmp_sym->ts)) != SUCCESS)
+ if (gfc_verify_c_interop (&(tmp_sym->ts)) != SUCCESS)
{
/* See if we're dealing with a sym in a common block or not. */
if (is_in_common == 1)
/* See if the symbol has been marked as private. If it has, make sure
there is no binding label and warn the user if there is one. */
if (tmp_sym->attr.access == ACCESS_PRIVATE
- && tmp_sym->binding_label[0] != '\0')
+ && tmp_sym->binding_label)
/* Use gfc_warning_now because we won't say that the symbol fails
just because of this. */
gfc_warning_now ("Symbol '%s' at %L is marked PRIVATE but has been "
/* Set the is_bind_c bit in symbol_attribute. */
gfc_add_is_bind_c (&(tmp_sym->attr), tmp_sym->name, &gfc_current_locus, 0);
- if (set_binding_label (tmp_sym->binding_label, tmp_sym->name,
+ if (set_binding_label (&tmp_sym->binding_label, tmp_sym->name,
num_idents) != SUCCESS)
return FAILURE;
gfc_try retval = SUCCESS;
/* destLabel, common name, typespec (which may have binding label). */
- if (set_binding_label (com_block->binding_label, com_block->name, num_idents)
+ if (set_binding_label (&com_block->binding_label, com_block->name,
+ num_idents)
!= SUCCESS)
return FAILURE;
/* This may not be necessary. */
gfc_clear_ts (ts);
/* Clear the temporary binding label holder. */
- curr_binding_label[0] = '\0';
+ curr_binding_label = NULL;
/* Look for the bind(c). */
found_match = gfc_match_bind_c (NULL, true);
goto ok;
gfc_find_symbol (current_ts.u.derived->name,
- current_ts.u.derived->ns->parent, 1, &sym);
+ current_ts.u.derived->ns, 1, &sym);
/* Any symbol that we find had better be a type definition
which has its components defined. */
gfc_match_prefix (gfc_typespec *ts)
{
bool seen_type;
+ bool seen_impure;
+ bool found_prefix;
gfc_clear_attr (¤t_attr);
- seen_type = 0;
+ seen_type = false;
+ seen_impure = false;
gcc_assert (!gfc_matching_prefix);
gfc_matching_prefix = true;
-loop:
- if (!seen_type && ts != NULL
- && gfc_match_decl_type_spec (ts, 0) == MATCH_YES
- && gfc_match_space () == MATCH_YES)
+ do
{
+ found_prefix = false;
- seen_type = 1;
- goto loop;
- }
+ if (!seen_type && ts != NULL
+ && gfc_match_decl_type_spec (ts, 0) == MATCH_YES
+ && gfc_match_space () == MATCH_YES)
+ {
- if (gfc_match ("elemental% ") == MATCH_YES)
- {
- if (gfc_add_elemental (¤t_attr, NULL) == FAILURE)
- goto error;
+ seen_type = true;
+ found_prefix = true;
+ }
+
+ if (gfc_match ("elemental% ") == MATCH_YES)
+ {
+ if (gfc_add_elemental (¤t_attr, NULL) == FAILURE)
+ goto error;
+
+ found_prefix = true;
+ }
+
+ if (gfc_match ("pure% ") == MATCH_YES)
+ {
+ if (gfc_add_pure (¤t_attr, NULL) == FAILURE)
+ goto error;
+
+ found_prefix = true;
+ }
+
+ if (gfc_match ("recursive% ") == MATCH_YES)
+ {
+ if (gfc_add_recursive (¤t_attr, NULL) == FAILURE)
+ goto error;
+
+ found_prefix = true;
+ }
+
+ /* IMPURE is a somewhat special case, as it needs not set an actual
+ attribute but rather only prevents ELEMENTAL routines from being
+ automatically PURE. */
+ if (gfc_match ("impure% ") == MATCH_YES)
+ {
+ if (gfc_notify_std (GFC_STD_F2008,
+ "Fortran 2008: IMPURE procedure at %C")
+ == FAILURE)
+ goto error;
- goto loop;
+ seen_impure = true;
+ found_prefix = true;
+ }
}
+ while (found_prefix);
- if (gfc_match ("pure% ") == MATCH_YES)
+ /* IMPURE and PURE must not both appear, of course. */
+ if (seen_impure && current_attr.pure)
{
- if (gfc_add_pure (¤t_attr, NULL) == FAILURE)
- goto error;
-
- goto loop;
+ gfc_error ("PURE and IMPURE must not appear both at %C");
+ goto error;
}
- if (gfc_match ("recursive% ") == MATCH_YES)
+ /* If IMPURE it not seen but the procedure is ELEMENTAL, mark it as PURE. */
+ if (!seen_impure && current_attr.elemental && !current_attr.pure)
{
- if (gfc_add_recursive (¤t_attr, NULL) == FAILURE)
+ if (gfc_add_pure (¤t_attr, NULL) == FAILURE)
goto error;
-
- goto loop;
}
/* At this point, the next item is not a prefix. */
return MATCH_ERROR;
}
/* Set binding label for BIND(C). */
- if (set_binding_label (sym->binding_label, sym->name, num) != SUCCESS)
+ if (set_binding_label (&sym->binding_label, sym->name, num)
+ != SUCCESS)
return MATCH_ERROR;
}
return MATCH_ERROR;
sym->ts.interface = gfc_new_symbol ("", gfc_current_ns);
sym->ts.interface->ts = current_ts;
+ sym->ts.interface->attr.flavor = FL_PROCEDURE;
sym->ts.interface->attr.function = 1;
- sym->attr.function = sym->ts.interface->attr.function;
+ sym->attr.function = 1;
sym->attr.if_source = IFSRC_UNKNOWN;
}
goto cleanup;
}
- m = gfc_match_null (&initializer);
- if (m == MATCH_NO)
- {
- gfc_error ("Pointer initialization requires a NULL() at %C");
- m = MATCH_ERROR;
- }
-
- if (gfc_pure (NULL))
- {
- gfc_error ("Initialization of pointer at %C is not allowed in "
- "a PURE procedure");
- m = MATCH_ERROR;
- }
-
+ m = match_pointer_init (&initializer, 1);
if (m != MATCH_YES)
goto cleanup;
c->ts = ts;
c->ts.interface = gfc_new_symbol ("", gfc_current_ns);
c->ts.interface->ts = ts;
+ c->ts.interface->attr.flavor = FL_PROCEDURE;
c->ts.interface->attr.function = 1;
- c->attr.function = c->ts.interface->attr.function;
+ c->attr.function = 1;
c->attr.if_source = IFSRC_UNKNOWN;
}
if (gfc_match (" =>") == MATCH_YES)
{
- m = gfc_match_null (&initializer);
- if (m == MATCH_NO)
- {
- gfc_error ("Pointer initialization requires a NULL() at %C");
- m = MATCH_ERROR;
- }
- if (gfc_pure (NULL))
- {
- gfc_error ("Initialization of pointer at %C is not allowed in "
- "a PURE procedure");
- m = MATCH_ERROR;
- }
+ m = match_pointer_init (&initializer, 1);
if (m != MATCH_YES)
{
gfc_free_expr (initializer);
case COMP_MODULE:
case COMP_SUBROUTINE:
case COMP_FUNCTION:
+ case COMP_BLOCK:
m = match_procedure_decl ();
break;
case COMP_INTERFACE:
"an IF-THEN block");
break;
case COMP_DO:
+ case COMP_DO_CONCURRENT:
gfc_error ("ENTRY statement at %C cannot appear within "
"a DO block");
break;
gfc_match_bind_c (gfc_symbol *sym, bool allow_binding_name)
{
/* binding label, if exists */
- char binding_label[GFC_MAX_SYMBOL_LEN + 1];
+ const char* binding_label = NULL;
match double_quote;
match single_quote;
specifier or not. */
has_name_equals = 0;
- /* Init the first char to nil so we can catch if we don't have
- the label (name attr) or the symbol name yet. */
- binding_label[0] = '\0';
-
/* This much we have to be able to match, in this order, if
there is a bind(c) label. */
if (gfc_match (" bind ( c ") != MATCH_YES)
/* Grab the binding label, using functions that will not lower
case the names automatically. */
- if (gfc_match_name_C (binding_label) != MATCH_YES)
+ if (gfc_match_name_C (&binding_label) != MATCH_YES)
return MATCH_ERROR;
/* Get the closing quotation. */
/* Save the binding label to the symbol. If sym is null, we're
probably matching the typespec attributes of a declaration and
haven't gotten the name yet, and therefore, no symbol yet. */
- if (binding_label[0] != '\0')
+ if (binding_label)
{
if (sym != NULL)
- {
- strcpy (sym->binding_label, binding_label);
- }
+ sym->binding_label = binding_label;
else
- strcpy (curr_binding_label, binding_label);
+ curr_binding_label = binding_label;
}
else if (allow_binding_name)
{
If name="" or allow_binding_name is false, no C binding name is
created. */
if (sym != NULL && sym->name != NULL && has_name_equals == 0)
- strncpy (sym->binding_label, sym->name, strlen (sym->name) + 1);
+ sym->binding_label = IDENTIFIER_POINTER (get_identifier (sym->name));
}
if (has_name_equals && gfc_current_state () == COMP_INTERFACE
const char *target;
int eos_ok;
match m;
+ gfc_namespace *parent_ns, *ns, *prev_ns;
+ gfc_namespace **nsp;
old_loc = gfc_current_locus;
if (gfc_match ("end") != MATCH_YES)
{
case COMP_ASSOCIATE:
case COMP_BLOCK:
- if (!strcmp (block_name, "block@"))
+ if (!strncmp (block_name, "block@", strlen("block@")))
block_name = NULL;
break;
break;
case COMP_DO:
+ case COMP_DO_CONCURRENT:
*st = ST_ENDDO;
target = " do";
eos_ok = 0;
cleanup:
gfc_current_locus = old_loc;
+
+ /* If we are missing an END BLOCK, we created a half-ready namespace.
+ Remove it from the parent namespace's sibling list. */
+
+ if (state == COMP_BLOCK)
+ {
+ parent_ns = gfc_current_ns->parent;
+
+ nsp = &(gfc_state_stack->previous->tail->ext.block.ns);
+
+ prev_ns = NULL;
+ ns = *nsp;
+ while (ns)
+ {
+ if (ns == gfc_current_ns)
+ {
+ if (prev_ns == NULL)
+ *nsp = NULL;
+ else
+ prev_ns->sibling = ns->sibling;
+ }
+ prev_ns = ns;
+ ns = ns->sibling;
+ }
+
+ gfc_free_namespace (gfc_current_ns);
+ gfc_current_ns = parent_ns;
+ }
+
return MATCH_ERROR;
}
if (find_special (name, &sym, false))
return MATCH_ERROR;
+ if (check_function_name (name) == FAILURE)
+ {
+ m = MATCH_ERROR;
+ goto cleanup;
+ }
+
var_locus = gfc_current_locus;
/* Deal with possible array specification for certain attributes. */
/* Update symbol table. DIMENSION attribute is set in
gfc_set_array_spec(). For CLASS variables, this must be applied
- to the first component, or '$data' field. */
- if (sym->ts.type == BT_CLASS)
+ to the first component, or '_data' field. */
+ if (sym->ts.type == BT_CLASS && sym->ts.u.derived->attr.is_class)
{
- if (gfc_copy_attr (&CLASS_DATA (sym)->attr, ¤t_attr,&var_locus)
+ if (gfc_copy_attr (&CLASS_DATA (sym)->attr, ¤t_attr, &var_locus)
== FAILURE)
{
m = MATCH_ERROR;
goto cleanup;
}
- sym->attr.class_ok = (sym->attr.class_ok || current_attr.allocatable
- || current_attr.pointer);
}
else
{
goto cleanup;
}
}
+
+ if (sym->ts.type == BT_CLASS
+ && gfc_build_class_symbol (&sym->ts, &sym->attr, &sym->as, false) == FAILURE)
+ {
+ m = MATCH_ERROR;
+ goto cleanup;
+ }
if (gfc_set_array_spec (sym, as, &var_locus) == FAILURE)
{
char name[GFC_MAX_SYMBOL_LEN + 1];
interface_type type;
gfc_user_op *uop;
- gfc_symbol *sym;
+ gfc_symbol *sym, *dt_sym;
gfc_intrinsic_op op;
match m;
sym->name, NULL) == FAILURE)
return MATCH_ERROR;
+ if (sym->attr.generic && (dt_sym = gfc_find_dt_in_generic (sym))
+ && gfc_add_access (&dt_sym->attr,
+ (st == ST_PUBLIC) ? ACCESS_PUBLIC
+ : ACCESS_PRIVATE,
+ sym->name, NULL) == FAILURE)
+ return MATCH_ERROR;
+
break;
case INTERFACE_INTRINSIC_OP:
if (gfc_current_ns->operator_access[op] == ACCESS_UNKNOWN)
{
+ gfc_intrinsic_op other_op;
+
gfc_current_ns->operator_access[op] =
(st == ST_PUBLIC) ? ACCESS_PUBLIC : ACCESS_PRIVATE;
+
+ /* Handle the case if there is another op with the same
+ function, for INTRINSIC_EQ vs. INTRINSIC_EQ_OS and so on. */
+ other_op = gfc_equivalent_op (op);
+
+ if (other_op != INTRINSIC_NONE)
+ gfc_current_ns->operator_access[other_op] =
+ (st == ST_PUBLIC) ? ACCESS_PUBLIC : ACCESS_PRIVATE;
+
}
else
{
switch (m)
{
case MATCH_YES:
- if (gfc_add_save (&sym->attr, sym->name, &gfc_current_locus)
- == FAILURE)
+ if (gfc_add_save (&sym->attr, SAVE_EXPLICIT, sym->name,
+ &gfc_current_locus) == FAILURE)
return MATCH_ERROR;
goto next_item;
char name[GFC_MAX_SYMBOL_LEN + 1];
gfc_symbol *sym;
match m;
+ locus old_locus;
gfc_namespace *module_ns;
gfc_interface *old_interface_head, *interface;
end up with a syntax error and need to recover. */
old_interface_head = gfc_current_interface_head ();
+ /* Check if the F2008 optional double colon appears. */
+ gfc_gobble_whitespace ();
+ old_locus = gfc_current_locus;
+ if (gfc_match ("::") == MATCH_YES)
+ {
+ if (gfc_notify_std (GFC_STD_F2008, "Fortran 2008: double colon in "
+ "MODULE PROCEDURE statement at %L", &old_locus)
+ == FAILURE)
+ return MATCH_ERROR;
+ }
+ else
+ gfc_current_locus = old_locus;
+
for (;;)
{
- locus old_locus = gfc_current_locus;
bool last = false;
+ old_locus = gfc_current_locus;
m = gfc_match_name (name);
if (m == MATCH_NO)
current namespace. */
if (gfc_match_eos () == MATCH_YES)
last = true;
+
if (!last && gfc_match_char (',') != MATCH_YES)
goto syntax;
while (interface != old_interface_head)
{
gfc_interface *i = interface->next;
- gfc_free (interface);
+ free (interface);
interface = i;
}
/* Check a derived type that is being extended. */
+
static gfc_symbol*
check_extended_derived_type (char *name)
{
return NULL;
}
+ extended = gfc_find_dt_in_generic (extended);
+
+ /* F08:C428. */
if (!extended)
{
- gfc_error ("No such symbol in TYPE definition at %C");
+ gfc_error ("Symbol '%s' at %C has not been previously defined", name);
return NULL;
}
}
-/* Assign a hash value for a derived type. The algorithm is that of
- SDBM. The hashed string is '[module_name #] derived_name'. */
-static unsigned int
-hash_value (gfc_symbol *sym)
-{
- unsigned int hash = 0;
- const char *c;
- int i, len;
-
- /* Hash of the module or procedure name. */
- if (sym->module != NULL)
- c = sym->module;
- else if (sym->ns && sym->ns->proc_name
- && sym->ns->proc_name->attr.flavor == FL_MODULE)
- c = sym->ns->proc_name->name;
- else
- c = NULL;
-
- if (c)
- {
- len = strlen (c);
- for (i = 0; i < len; i++, c++)
- hash = (hash << 6) + (hash << 16) - hash + (*c);
-
- /* Disambiguate between 'a' in 'aa' and 'aa' in 'a'. */
- hash = (hash << 6) + (hash << 16) - hash + '#';
- }
-
- /* Hash of the derived type name. */
- len = strlen (sym->name);
- c = sym->name;
- for (i = 0; i < len; i++, c++)
- hash = (hash << 6) + (hash << 16) - hash + (*c);
-
- /* Return the hash but take the modulus for the sake of module read,
- even though this slightly increases the chance of collision. */
- return (hash % 100000000);
-}
-
-
/* Match the beginning of a derived type declaration. If a type name
was the result of a function, then it is possible to have a symbol
already to be known as a derived type yet have no components. */
char name[GFC_MAX_SYMBOL_LEN + 1];
char parent[GFC_MAX_SYMBOL_LEN + 1];
symbol_attribute attr;
- gfc_symbol *sym;
+ gfc_symbol *sym, *gensym;
gfc_symbol *extended;
match m;
match is_type_attr_spec = MATCH_NO;
bool seen_attr = false;
+ gfc_interface *intr = NULL, *head;
if (gfc_current_state () == COMP_DERIVED)
return MATCH_NO;
return MATCH_ERROR;
}
- if (gfc_get_symbol (name, NULL, &sym))
+ if (gfc_get_symbol (name, NULL, &gensym))
return MATCH_ERROR;
- if (sym->ts.type != BT_UNKNOWN)
+ if (!gensym->attr.generic && gensym->ts.type != BT_UNKNOWN)
{
gfc_error ("Derived type name '%s' at %C already has a basic type "
- "of %s", sym->name, gfc_typename (&sym->ts));
+ "of %s", gensym->name, gfc_typename (&gensym->ts));
+ return MATCH_ERROR;
+ }
+
+ if (!gensym->attr.generic
+ && gfc_add_generic (&gensym->attr, gensym->name, NULL) == FAILURE)
+ return MATCH_ERROR;
+
+ if (!gensym->attr.function
+ && gfc_add_function (&gensym->attr, gensym->name, NULL) == FAILURE)
+ return MATCH_ERROR;
+
+ sym = gfc_find_dt_in_generic (gensym);
+
+ if (sym && (sym->components != NULL || sym->attr.zero_comp))
+ {
+ gfc_error ("Derived type definition of '%s' at %C has already been "
+ "defined", sym->name);
return MATCH_ERROR;
}
+ if (!sym)
+ {
+ /* Use upper case to save the actual derived-type symbol. */
+ gfc_get_symbol (gfc_get_string ("%c%s",
+ (char) TOUPPER ((unsigned char) gensym->name[0]),
+ &gensym->name[1]), NULL, &sym);
+ sym->name = gfc_get_string (gensym->name);
+ head = gensym->generic;
+ intr = gfc_get_interface ();
+ intr->sym = sym;
+ intr->where = gfc_current_locus;
+ intr->sym->declared_at = gfc_current_locus;
+ intr->next = head;
+ gensym->generic = intr;
+ gensym->attr.if_source = IFSRC_DECL;
+ }
+
/* The symbol may already have the derived attribute without the
components. The ways this can happen is via a function
definition, an INTRINSIC statement or a subtype in another
&& gfc_add_flavor (&sym->attr, FL_DERIVED, sym->name, NULL) == FAILURE)
return MATCH_ERROR;
- if (sym->components != NULL || sym->attr.zero_comp)
- {
- gfc_error ("Derived type definition of '%s' at %C has already been "
- "defined", sym->name);
- return MATCH_ERROR;
- }
-
if (attr.access != ACCESS_UNKNOWN
&& gfc_add_access (&sym->attr, attr.access, sym->name, NULL) == FAILURE)
return MATCH_ERROR;
+ else if (sym->attr.access == ACCESS_UNKNOWN
+ && gensym->attr.access != ACCESS_UNKNOWN
+ && gfc_add_access (&sym->attr, gensym->attr.access, sym->name, NULL)
+ == FAILURE)
+ return MATCH_ERROR;
+
+ if (sym->attr.access != ACCESS_UNKNOWN
+ && gensym->attr.access == ACCESS_UNKNOWN)
+ gensym->attr.access = sym->attr.access;
/* See if the derived type was labeled as bind(c). */
if (attr.is_bind_c != 0)
if (!sym->hash_value)
/* Set the hash for the compound name for this type. */
- sym->hash_value = hash_value (sym);
+ sym->hash_value = gfc_hash_value (sym);
/* Take over the ABSTRACT attribute. */
sym->attr.abstract = attr.abstract;
/* OK, we've successfully matched the declaration. Now put the
symbol in the current namespace. If we fail to create the symbol,
bail out. */
- if (build_sym (name, NULL, &as, &var_locus) == FAILURE)
+ if (build_sym (name, NULL, false, &as, &var_locus) == FAILURE)
{
m = MATCH_ERROR;
goto cleanup;
}
/* Construct the data structure. */
+ memset (&tb, 0, sizeof (tb));
tb.where = gfc_current_locus;
- tb.is_generic = 0;
/* Match binding attributes. */
m = match_binding_attributes (&tb, false, false);
ns = block->f2k_derived;
gcc_assert (block && ns);
+ memset (&tbattr, 0, sizeof (tbattr));
+ tbattr.where = gfc_current_locus;
+
/* See if we get an access-specifier. */
m = match_binding_attributes (&tbattr, true, false);
if (m == MATCH_ERROR)
target->specific_st = target_st;
target->specific = NULL;
target->next = tb->u.generic;
+ target->is_operator = ((op_type == INTERFACE_USER_OP)
+ || (op_type == INTERFACE_INTRINSIC_OP));
tb->u.generic = target;
}
while (gfc_match (" ,") == MATCH_YES);