4

I've recently had some trouble with C++'s implicit casting, so I'm looking for a way to warn people if somebody attempts to assign an int32_t to a uint64_t or whatever. BOOST_STATIC_ASSERT would work wonders for this, except that the code base I'm working with is quite large and relies on a lot of implicit casting, so immediately breaking everything with assertions is unrealistic.

It looks like BOOST_STATIC_WARNING would be ideal for me, however, I cannot get it to actually emit a warning. Something like this won't do anything:

    typedef boost::is_same<int64_t, int32_t> same_type;
    BOOST_STATIC_WARNING(same_type::value);

My compiler is g++ 4.4.3 with --std=c++0x -Wall -Wextra. My Boost is 1.46.1.


The problem I'm trying to solve here is that we have a buffer type which has methods like uint8_t GetUInt8(size_type index), void SetUInt32(size_type index, uint32_t value), etc. So, you see usage like this:

x = buffer.GetUInt16(96);

The problem is that there is no guarantee that, while you are reading a 16-bit unsigned integer, that x is actually 16-bits. While the person who originally wrote that line did it properly (hopefully), if the type of x changes, this line will break silently.

My solution is to create a safe_convertable<T> type like so:

template <typename T>
struct safe_convertable
{
public:
    template <typename TSource>
    safe_convertable(const TSource& val)
    {
        typedef boost::is_same<T, TSource> same_type;
        BOOST_STATIC_WARNING(same_type::value);

        _val = val;
    }

    template <typename TDestination>
    operator TDestination ()
    {
        typedef boost::is_same<T, TDestination> same_type;
        BOOST_STATIC_WARNING(same_type::value);

        return _val;
    }
private:
    T _val;
};

and change the methods to return and accept these safe references: safe_reference<uint8_t> GetUInt8(size_type index), void SetUInt32(size_type index, safe_reference<uint32_t> value) (that's the short version, there are other operators and whatnot you can do to references).

Anyway, this works great with BOOST_STATIC_ASSERT, save for the fact that I want warnings and not errors.


For the curious, I've implemented the warning thing myself, which works fine, but I'd prefer the Boost variety so that I get all the other Boost features (this only works inside a function).

namespace detail
{
    template <typename TIntegralContant>
    inline void test_warning(const TIntegralContant&)
    {
        static_cast<void>(1 / TIntegralContant::value);
    }
}

#define MY_STATIC_WARNING(value_) \
    ::detail::test_warning(::boost::integral_constant<bool, value_ >())
11
  • 1
    "I cannot get it to actually emit a warning. Something like this won't do anything:" Commented May 25, 2011 at 17:19
  • 3
    @Nawaz: He wrote "I cannot get it to actually emit a warning".
    – EboMike
    Commented May 25, 2011 at 17:20
  • 1
    @Travis: It is giving warning with g++ 4.3.4 : ideone.com/68yOM ... since ideone doesn't have boost for c++0x, so I cannot compile it with --std=c++0x option. Commented May 25, 2011 at 17:28
  • Why do you want a warning, if you are not going to fix the problem? That's just added noice.
    – Bo Persson
    Commented May 25, 2011 at 17:48
  • 2
    @Bo: I will fix the problem, I just don't want to break the builds in the mean time. They are problems that need to be fixed, just not immediately. Commented May 25, 2011 at 17:51

1 Answer 1

1

What version of Boost are you using? This comment may be the reason why your own warning works, but the boost version does not:

// 6. replaced implementation with one which depends solely on
//    mpl::print<>.  The previous one was found to fail for functions
//    under recent versions of gcc and intel compilers - Robert Ramey

I'm guessing if you upgraded to a recent version of Boost (e.g. 1.46.1), you'd be good to go. crosses fingers

1
  • Doh! So much for that idea. Mind filing a bug?
    – Sean
    Commented May 26, 2011 at 17:58

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

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