https://gcc.gnu.org/g:44c0398e65347def316700911a51ca8b4ec0a411
commit r14-9618-g44c0398e65347def316700911a51ca8b4ec0a411
Author: Mikael Morin <mik...@gcc.gnu.org>
Date: Fri Mar 22 12:32:34 2024 +0100
fortran: Fix specification expression error with dummy procedures [PR111781]
This fixes a spurious invalid variable in specification expression error.
The error was caused on the testcase from the PR by two different bugs.
First, the call to is_parent_of_current_ns was unable to recognize
correct host association and returned false. Second, an ad-hoc
condition coming next was using a global variable previously improperly
restored to false (instead of restoring it to its initial value). The
latter happened on the testcase because one dummy argument was a procedure,
and checking that argument what causing a check of all its arguments with
the (improper) reset of the flag at the end, and that preceded the check of
the next argument.
For the first bug, the wrong result of is_parent_of_current_ns is fixed by
correcting the namespaces that function deals with, both the one passed
as argument and the current one tracked in the gfc_current_ns global. Two
new functions are introduced to select the right namespace.
Regarding the second bug, the problematic condition is removed, together
with the formal_arg_flag associated with it. Indeed, that condition was
(wrongly) allowing local variables to be used in array bounds of dummy
arguments.
PR fortran/111781
gcc/fortran/ChangeLog:
* symbol.cc (gfc_get_procedure_ns, gfc_get_spec_ns): New functions.
* gfortran.h (gfc_get_procedure_ns, gfc_get_spec ns): Declare them.
(gfc_is_formal_arg): Remove.
* expr.cc (check_restricted): Remove special case allowing local
variable in dummy argument bound expressions. Use gfc_get_spec_ns
to get the right namespace.
* resolve.cc (gfc_is_formal_arg, formal_arg_flag): Remove.
(gfc_resolve_formal_arglist): Set gfc_current_ns. Quit loop and
restore gfc_current_ns instead of early returning.
(resolve_symbol): Factor common array spec resolution code to...
(resolve_symbol_array_spec): ... this new function. Additionnally
set and restore gfc_current_ns.
gcc/testsuite/ChangeLog:
* gfortran.dg/spec_expr_8.f90: New test.
* gfortran.dg/spec_expr_9.f90: New test.
Diff:
---
gcc/fortran/expr.cc | 8 +---
gcc/fortran/gfortran.h | 4 +-
gcc/fortran/resolve.cc | 77 ++++++++++++++-----------------
gcc/fortran/symbol.cc | 58 +++++++++++++++++++++++
gcc/testsuite/gfortran.dg/spec_expr_8.f90 | 24 ++++++++++
gcc/testsuite/gfortran.dg/spec_expr_9.f90 | 19 ++++++++
6 files changed, 140 insertions(+), 50 deletions(-)
diff --git a/gcc/fortran/expr.cc b/gcc/fortran/expr.cc
index e4b1e8307e3..9a042cd7040 100644
--- a/gcc/fortran/expr.cc
+++ b/gcc/fortran/expr.cc
@@ -3514,19 +3514,13 @@ check_restricted (gfc_expr *e)
if (!check_references (e->ref, &check_restricted))
break;
- /* gfc_is_formal_arg broadcasts that a formal argument list is being
- processed in resolve.cc(resolve_formal_arglist). This is done so
- that host associated dummy array indices are accepted (PR23446).
- This mechanism also does the same for the specification expressions
- of array-valued functions. */
if (e->error
|| sym->attr.in_common
|| sym->attr.use_assoc
|| sym->attr.dummy
|| sym->attr.implied_index
|| sym->attr.flavor == FL_PARAMETER
- || is_parent_of_current_ns (sym->ns)
- || (gfc_is_formal_arg () && (sym->ns == gfc_current_ns)))
+ || is_parent_of_current_ns (gfc_get_spec_ns (sym)))
{
t = true;
break;
diff --git a/gcc/fortran/gfortran.h b/gcc/fortran/gfortran.h
index c7039730fad..26aa56b3358 100644
--- a/gcc/fortran/gfortran.h
+++ b/gcc/fortran/gfortran.h
@@ -3612,6 +3612,9 @@ bool gfc_is_associate_pointer (gfc_symbol*);
gfc_symbol * gfc_find_dt_in_generic (gfc_symbol *);
gfc_formal_arglist *gfc_sym_get_dummy_args (gfc_symbol *);
+gfc_namespace * gfc_get_procedure_ns (gfc_symbol *);
+gfc_namespace * gfc_get_spec_ns (gfc_symbol *);
+
/* intrinsic.cc -- true if working in an init-expr, false otherwise. */
extern bool gfc_init_expr_flag;
@@ -3821,7 +3824,6 @@ bool gfc_resolve_iterator (gfc_iterator *, bool, bool);
bool find_forall_index (gfc_expr *, gfc_symbol *, int);
bool gfc_resolve_index (gfc_expr *, int);
bool gfc_resolve_dim_arg (gfc_expr *);
-bool gfc_is_formal_arg (void);
bool gfc_resolve_substring (gfc_ref *, bool *);
void gfc_resolve_substring_charlen (gfc_expr *);
gfc_expr *gfc_expr_to_initialize (gfc_expr *);
diff --git a/gcc/fortran/resolve.cc b/gcc/fortran/resolve.cc
index c5ae826bd6e..50d51b06c92 100644
--- a/gcc/fortran/resolve.cc
+++ b/gcc/fortran/resolve.cc
@@ -72,9 +72,6 @@ static bool first_actual_arg = false;
static int omp_workshare_flag;
-/* True if we are processing a formal arglist. The corresponding function
- resets the flag each time that it is read. */
-static bool formal_arg_flag = false;
/* True if we are resolving a specification expression. */
static bool specification_expr = false;
@@ -89,12 +86,6 @@ static bitmap_obstack labels_obstack;
static bool inquiry_argument = false;
-bool
-gfc_is_formal_arg (void)
-{
- return formal_arg_flag;
-}
-
/* Is the symbol host associated? */
static bool
is_sym_host_assoc (gfc_symbol *sym, gfc_namespace *ns)
@@ -285,7 +276,8 @@ gfc_resolve_formal_arglist (gfc_symbol *proc)
sym->attr.always_explicit = 1;
}
- formal_arg_flag = true;
+ gfc_namespace *orig_current_ns = gfc_current_ns;
+ gfc_current_ns = gfc_get_procedure_ns (proc);
for (f = proc->formal; f; f = f->next)
{
@@ -306,17 +298,18 @@ gfc_resolve_formal_arglist (gfc_symbol *proc)
&proc->declared_at);
continue;
}
- else if (sym->attr.procedure && sym->attr.if_source != IFSRC_DECL
+
+ if (sym->attr.procedure && sym->attr.if_source != IFSRC_DECL
&& !resolve_procedure_interface (sym))
- return;
+ break;
if (strcmp (proc->name, sym->name) == 0)
- {
- gfc_error ("Self-referential argument "
- "%qs at %L is not allowed", sym->name,
- &proc->declared_at);
- return;
- }
+ {
+ gfc_error ("Self-referential argument "
+ "%qs at %L is not allowed", sym->name,
+ &proc->declared_at);
+ break;
+ }
if (sym->attr.if_source != IFSRC_UNKNOWN)
gfc_resolve_formal_arglist (sym);
@@ -533,7 +526,8 @@ gfc_resolve_formal_arglist (gfc_symbol *proc)
}
}
}
- formal_arg_flag = false;
+
+ gfc_current_ns = orig_current_ns;
}
@@ -16206,6 +16200,26 @@ resolve_pdt (gfc_symbol* sym)
}
+/* Resolve the symbol's array spec. */
+
+static bool
+resolve_symbol_array_spec (gfc_symbol *sym, int check_constant)
+{
+ gfc_namespace *orig_current_ns = gfc_current_ns;
+ gfc_current_ns = gfc_get_spec_ns (sym);
+
+ bool saved_specification_expr = specification_expr;
+ specification_expr = true;
+
+ bool result = gfc_resolve_array_spec (sym->as, check_constant);
+
+ specification_expr = saved_specification_expr;
+ gfc_current_ns = orig_current_ns;
+
+ return result;
+}
+
+
/* Do anything necessary to resolve a symbol. Right now, we just
assume that an otherwise unknown symbol is a variable. This sort
of thing commonly happens for symbols in module. */
@@ -16220,7 +16234,6 @@ resolve_symbol (gfc_symbol *sym)
gfc_component *c;
symbol_attribute class_attr;
gfc_array_spec *as;
- bool saved_specification_expr;
if (sym->resolve_symbol_called >= 1)
return;
@@ -16385,16 +16398,7 @@ resolve_symbol (gfc_symbol *sym)
}
}
else if (mp_flag && sym->attr.flavor == FL_PROCEDURE && sym->attr.function)
- {
- bool saved_specification_expr = specification_expr;
- bool saved_formal_arg_flag = formal_arg_flag;
-
- specification_expr = true;
- formal_arg_flag = true;
- gfc_resolve_array_spec (sym->result->as, false);
- formal_arg_flag = saved_formal_arg_flag;
- specification_expr = saved_specification_expr;
- }
+ resolve_symbol_array_spec (sym->result, false);
/* For a CLASS-valued function with a result variable, affirm that it has
been resolved also when looking at the symbol 'sym'. */
@@ -16961,18 +16965,7 @@ resolve_symbol (gfc_symbol *sym)
check_constant = sym->attr.in_common && !sym->attr.pointer && !sym->error;
- /* Set the formal_arg_flag so that check_conflict will not throw
- an error for host associated variables in the specification
- expression for an array_valued function. */
- if ((sym->attr.function || sym->attr.result) && sym->as)
- formal_arg_flag = true;
-
- saved_specification_expr = specification_expr;
- specification_expr = true;
- gfc_resolve_array_spec (sym->as, check_constant);
- specification_expr = saved_specification_expr;
-
- formal_arg_flag = false;
+ resolve_symbol_array_spec (sym, check_constant);
/* Resolve formal namespaces. */
if (sym->formal_ns && sym->formal_ns != gfc_current_ns
diff --git a/gcc/fortran/symbol.cc b/gcc/fortran/symbol.cc
index 16adb2a7efb..3a3b6de5cec 100644
--- a/gcc/fortran/symbol.cc
+++ b/gcc/fortran/symbol.cc
@@ -5408,3 +5408,61 @@ gfc_sym_get_dummy_args (gfc_symbol *sym)
return dummies;
}
+
+
+/* Given a procedure, returns the associated namespace.
+ The resulting NS should match the condition NS->PROC_NAME == SYM. */
+
+gfc_namespace *
+gfc_get_procedure_ns (gfc_symbol *sym)
+{
+ if (sym->formal_ns
+ && sym->formal_ns->proc_name == sym)
+ return sym->formal_ns;
+
+ /* The above should have worked in most cases. If it hasn't, try some other
+ heuristics, eventually returning SYM->NS. */
+ if (gfc_current_ns->proc_name == sym)
+ return gfc_current_ns;
+
+ /* For contained procedures, the symbol's NS field is the
+ hosting namespace, not the procedure namespace. */
+ if (sym->attr.flavor == FL_PROCEDURE && sym->attr.contained)
+ for (gfc_namespace *ns = sym->ns->contained; ns; ns = ns->sibling)
+ if (ns->proc_name == sym)
+ return ns;
+
+ if (sym->formal)
+ for (gfc_formal_arglist *f = sym->formal; f != nullptr; f = f->next)
+ if (f->sym)
+ {
+ gfc_namespace *ns = f->sym->ns;
+ if (ns && ns->proc_name == sym)
+ return ns;
+ }
+
+ return sym->ns;
+}
+
+
+/* Given a symbol, returns the namespace in which the symbol is specified.
+ In most cases, it is the namespace hosting the symbol. This is the case
+ for variables. For functions, however, it is the function namespace
+ itself. This specification namespace is used to check conformance of
+ array spec bound expressions. */
+
+gfc_namespace *
+gfc_get_spec_ns (gfc_symbol *sym)
+{
+ if (sym->attr.flavor == FL_PROCEDURE
+ && sym->attr.function)
+ {
+ if (sym->result == sym)
+ return gfc_get_procedure_ns (sym);
+ /* Generic and intrinsic functions can have a null result. */
+ else if (sym->result != nullptr)
+ return sym->result->ns;
+ }
+
+ return sym->ns;
+}
diff --git a/gcc/testsuite/gfortran.dg/spec_expr_8.f90
b/gcc/testsuite/gfortran.dg/spec_expr_8.f90
new file mode 100644
index 00000000000..77e14156497
--- /dev/null
+++ b/gcc/testsuite/gfortran.dg/spec_expr_8.f90
@@ -0,0 +1,24 @@
+! { dg-do compile }
+!
+! PR fortran/111781
+! We used to reject the example below because the dummy procedure g was
+! setting the current namespace without properly restoring it, which broke
+! the specification expression check for the dimension of A later on.
+!
+! Contributed by Rasmus Vikhamar-Sandberg <rasmus.vikhamar-sandb...@uit.no>
+
+program example
+ implicit none
+ integer :: n
+
+contains
+
+ subroutine f(g,A)
+ real, intent(out) :: A(n)
+ interface
+ pure real(8) function g(x)
+ real(8), intent(in) :: x
+ end function
+ end interface
+ end subroutine
+end program
diff --git a/gcc/testsuite/gfortran.dg/spec_expr_9.f90
b/gcc/testsuite/gfortran.dg/spec_expr_9.f90
new file mode 100644
index 00000000000..9024909b4e9
--- /dev/null
+++ b/gcc/testsuite/gfortran.dg/spec_expr_9.f90
@@ -0,0 +1,19 @@
+! { dg-do compile }
+!
+! PR fortran/111781
+! Used to fail with Error: Variable ānā cannot appear in the
+! expression at (1) for line 16.
+!
+program is_it_valid
+ dimension y(3)
+ integer :: n = 3
+ interface
+ function func(x)
+ import
+ dimension func(n)
+ end function
+ end interface
+ y=func(1.0)
+ print *, y
+ stop
+end
