I noticed today that boost::optional::is_initialized() is marked as deprecated in the Boost 1.64.0 reference. My projects are liberally sprinkled with is_initialized() to check if the boost::optional contains a value.

I don't see any other way to properly test if a boost::optional is initialized, am I missing something?

The boost::optional has a explicit operator bool(), meaning that I can do if(foo){...} if foo is a boost::optional. However, this would give wrong results if foo is a boost::optional<bool> or some other boost::optional<T> where T is convertible to bool.

What does Boost expect users to do?

  • 3
    How about comparing it to boost::none? As is done in quite a few places in the Boost optional manual? May 23, 2017 at 6:54
  • 1
    Why should it give wrong results for the boost::optional<bool>? For the boost::optional<bool> a if(a) gives an initialization status. *a - a value if initialized
    – Ari0nhh
    May 23, 2017 at 6:55
  • 1
    Comparison with boost::none is advices according to their documentation. May 23, 2017 at 6:57
  • @user2525536 It doesn't seem to advise comparison to boost::none.
    – Bernard
    May 23, 2017 at 7:10
  • an answer is marked correct, but "why" is never answered.
    – Catskul
    Apr 5, 2019 at 19:44

3 Answers 3


However, this would give wrong results if foo is a boost::optional or some other boost::optional where T is convertible to bool.

No, because there is no implicit conversion to the underlying type. The "truthiness"¹ of an optional always refers to its initialized state.

The only time you may have gotten the impression that implicit conversions happen is in relational operators. However, that's not doing implicit conversion to the underlying type, instead does lifting of the operators, explicitly.

¹ by which I mean contextual (explicit) boolean conversion


Indeed for boost::optional<bool> there's the caveat in pre-c++11 mode:

Second, although optional<> provides a contextual conversion to bool in C++11, this falls back to an implicit conversion on older compilers

In that case it is clearly better to explicitly compare to boost::none.

  • TL;DR to that: isTrue -> o && *o; isFalse -> o && !*o; isUndef -> !o
    – Arne Vogel
    May 23, 2017 at 11:54
  • 1
    Except, it's really just isTrue -> o == true;, isFalse -> o == false;. All of which is equivalent, due to lifted/mixed operators
    – sehe
    May 23, 2017 at 12:11

As of this writing, Boost 1.72 supports a "has_value" method, which is not deprecated.

Under the hood, it just calls "is_initialized" though. See the code:

bool has_value() const BOOST_NOEXCEPT { return this->is_initialized() ; }

That aside, another convenient trick I've seen is the !! idiom. Eg:

boost::optional<Foo> x = ...
MY_ASSERT(!!x, "x must be set");

It's essentially the same as writing (bool)x or the even more prohibitively verbose static_cast<bool>(x).

Aside: it is a bit odd that is_initialized was deprecated, then an exactly equivalent function with a different name got added later. I suspect it was for compatibility with C++17's std::optional.


For future references, as stated on boost documentation, you can compare like this from now on:

boost::optional<int> oN = boost::none;
boost::optional<int> o0 = 0;
boost::optional<int> o1 = 1;

assert(oN != o0);
assert(o1 != oN);
assert(o0 != o1);
assert(oN == oN);
assert(o0 == o0);

You could even do:

if(oN != 2){}

or simply to check if the value is set:


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