I have code similar to the following:

#include <boost/optional.hpp>

::boost::optional<int> getitem();

int go(int nr)
  boost::optional<int> a = getitem();
  boost::optional<int> b;

  if (nr > 0)
    b = nr;

  if (a != b)
    return 1;

  return 0;

When compiling with GCC 4.7.2 with Boost 1.53, using the following command:

g++ -c -O2 -Wall -DNDEBUG

The following warning is issued:

13:3: warning: ‘((void)& b +4)’ may be used uninitialized in this function [-Wmaybe-uninitialized]

Apparently, the root problem lies with GCC. See GCC Bugzilla Does anyone know a workaround?

  • If the constructor of b doesn't initialize all that is inside of it, then by all means, b in the expression a != b may be uninitialized. What if you actually initialize b? Do you still get a warning? – Shahbaz Feb 13 '14 at 13:15
  • @Shahbaz: The constructor of 'b' creates an optional where the value doesn't exist. This is valid behavior for an optional. 'a != b' Should be true if both optionals are uninitialized. So this should be valid code. Initializing 'b' with a value does eliminate the warning, but that's not an option since it changes the behavior of the code. What 'getitem()' returns may be an uninitialized optional. – Paul Omta Feb 19 '14 at 7:18

There are two levels of uninitialized analysis in gcc:

  • -Wuninitialized: flags variables that are certainly used uninitialized
  • -Wmaybe-uninitialized: flags variables that are potentially used uninitialized

In gcc (*), -Wall turns on both levels even though the latter has spurious warnings because the analysis is imperfect. Spurious warnings are a plague, so the simplest way to avoid them is to pass -Wno-maybe-uninitialized (after -Wall).

If you still want the warnings, but not have them cause build failure (through -Werror) you can white list them using -Wno-error=maybe-uninitialized.

(*) Clang does not activate -Wmaybe-uninitialized by default precisely because it's very imprecise and has a good number of false positives; I wish gcc followed this guideline too.


I have found that changing the construction of b into the following (effectively equal) code:

auto b = boost::make_optional(false,0);

eliminates the warning. However, the following code (which is also effectively equal):

boost::optional<int> b(false,0);

does not eliminate the warning. It's still a little unsatisfactory...

  • how about auto b = boost::make_optional<int>(false, 0);? – rubenvb Feb 13 '14 at 13:12
  • @rubenvb: using auto, I consider that to be better style. I'll change the answer. – Paul Omta Feb 19 '14 at 7:20
  • I had the exact same warning, but this solution didn't help me. I had to get rid of the optional altogether (which I fortunately could in my situation). – Angew is no longer proud of SO Oct 6 '16 at 16:22
  • Somehow this causes gcc to set the TREE_NO_WARNING internal flag on this variable. The warning is not unlikely to come back in a future version, this is more fragile than the pragma. – Marc Glisse Jun 5 '18 at 22:04

Had the same issue with this piece of code:

void MyClass::func( bool repaint, bool cond )
    boost::optional<int> old = m_sizeLimit; // m_sizeLimit is a boost::optional<int> class attribute

    if ( cond )
        m_sizeLimit = 60;

    if ( repaint )
        if ( old != m_sizeLimit ) // warning here

Could not get rid of the warning with Paul Omta answer, tried to write:

boost::optional<int> old;
if ( m_sizeLimit )
    old = boost::make_optional<int>(true, m_sizeLimit.value());
    old = boost::make_optional<int>(false, 0);

...with no success.

Did not want to completely disable the warning from my code, so I found an alternative solution I would recommend: disable the warning locally:

        #ifdef SDE_MOBILE
        #pragma GCC diagnostic push
        #pragma GCC diagnostic ignored "-Wmaybe-uninitialized"

        if ( old != m_sizeLimit ) // warning here

        #ifdef SDE_MOBILE
        #pragma GCC diagnostic pop
  • 1
    Thanks for the solution. Ran into the problem with gcc 4.9.2, and your #pragma-based solution worked and was the best option for me. – mindriot May 12 '17 at 20:48

I had a type which wasn't easily constructed so didn't want to go the boost::make_optional route. Assigning an auto variable using the return from a function got around this problem for me. So you can do:

boost::optional<Foo> Default()
    return boost::none;

auto var(Default());

This will also work as a one line lambda so you can just do:

auto var([]()->boost::optional<Foo> { return boost::none; }());

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.