After commit:
commit
8c2e4e0689ea244d0ed979171a3d09c9176b8175
Date: Sun Jul 12 22:58:51 2020 -0400
gdb: add accessors to struct dynamic_prop
An existing bug was exposed in the Fortran type printing code. When
GDB is asked to print the type of a function that takes a dynamic
string argument GDB will try to read the upper bound of the string.
The read of the upper bound is written as:
if (type->bounds ()->high.kind () == PROP_UNDEFINED)
// Treat the upper bound as unknown.
else
// Treat the upper bound as known and constant.
However, this is not good enough. When printing a function type the
dynamic argument types will not have been resolved. As a result the
dynamic property is not PROP_UNDEFINED, but nor is it constant.
By rewriting this code to specifically check for the PROP_CONST case,
and treating all other cases as the upper bound being unknown we avoid
incorrectly treating the dynamic property as being constant.
gdb/ChangeLog:
* f-typeprint.c (f_type_print_base): Allow for dynamic types not
being resolved.
gdb/testsuite/ChangeLog:
* gdb.fortran/ptype-on-functions.exp: Add more tests.
* gdb.fortran/ptype-on-functions.f90: Likewise.
+2020-07-15 Andrew Burgess <andrew.burgess@embecosm.com>
+
+ * f-typeprint.c (f_type_print_base): Allow for dynamic types not
+ being resolved.
+
2020-07-14 Andrew Burgess <andrew.burgess@embecosm.com>
* arch-utils.c (show_architecture): Update formatting of messages.
break;
case TYPE_CODE_STRING:
- /* Strings may have dynamic upperbounds (lengths) like arrays. */
+ /* Strings may have dynamic upperbounds (lengths) like arrays. We
+ check specifically for the PROP_CONST case to indicate that the
+ dynamic type has been resolved. If we arrive here having been
+ asked to print the type of a value with a dynamic type then the
+ bounds will not have been resolved. */
- if (type->bounds ()->high.kind () == PROP_UNDEFINED)
- fprintfi_filtered (level, stream, "character*(*)");
- else
+ if (type->bounds ()->high.kind () == PROP_CONST)
{
LONGEST upper_bound = f77_get_upperbound (type);
fprintf_filtered (stream, "character*%s", pulongest (upper_bound));
}
+ else
+ fprintfi_filtered (level, stream, "character*(*)");
break;
case TYPE_CODE_STRUCT:
+2020-07-15 Andrew Burgess <andrew.burgess@embecosm.com>
+
+ * gdb.fortran/ptype-on-functions.exp: Add more tests.
+ * gdb.fortran/ptype-on-functions.f90: Likewise.
+
2020-07-14 Simon Marchi <simon.marchi@polymtl.ca>
* lib/dwarf.exp (Dwarf::cu, Dwarf::tu, Dwarf::lines): Change valid
gdb_test "ptype fun_ptr" \
"type = PTR TO -> \\( integer\\(kind=4\\) \\(\\) \\(REF TO -> \\( integer\\(kind=4\\) \\)\\) \\)"
+
+gdb_test "ptype say_string" \
+ "type = void \\(character\\*\\(\\*\\), integer\\(kind=8\\)\\)"
+
+gdb_test "ptype say_array" \
+ "type = void \\(integer\\(kind=4\\) \\(:,:\\)\\)"
integer function fun2 (x)
integer :: x
end function fun2
+
+ subroutine say_array (arr)
+ integer, dimension (:,:) :: arr
+ end subroutine say_array
end interface
type (Number) :: n1
procedure(fun1), pointer:: fun_ptr => NULL()
+ integer, dimension (5,5) :: array
+ array = 0
+
call say_numbers (1,2,3) ! stop here
+ call say_string ('hello world')
+ call say_array (array (2:3, 2:4))
print *, fun_ptr (3)
end program test
fun2 = x + 2
end function fun2
+subroutine say_string (str)
+ character(len=*) :: str
+ print *, str
+end subroutine say_string
+
+subroutine say_array (arr)
+ integer, dimension (:,:) :: arr
+ do i=LBOUND (arr, 2), UBOUND (arr, 2), 1
+ do j=LBOUND (arr, 1), UBOUND (arr, 1), 1
+ write(*, fmt="(i4)", advance="no") arr (j, i)
+ end do
+ print *, ""
+ end do
+end subroutine say_array
projects / binutils-gdb.git / commitdiff