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In C++, is it possible to generate an integer from a string literal using only compile-time facilities ?

For instance, if all we have is the literal "6", is there some way to use it as a template argument, like std::array<GET_INTEGER("6")> a; ?

I know about constexpr-based techniques, such as :

template <int N> constexpr char get_char(const char s[N], int n) {
  return s[n];
}

However constexpr isn't ready yet on most compilers, so I'm looking for solutions using probably macros and TMP.

It's just for experimentation, so crazy ideas are welcome.

share|improve this question
    
What does "most compilers" mean? If "most compilers" includes what are probably the most widely used compilers (gcc and Visual C++) then the answer is that it cannot be done. –  James McNellis Jan 11 '12 at 18:29
4  
Why not just write 6, without the quotes? –  littleadv Jan 11 '12 at 18:30
    
It could work if you use character literals GET_INTEGER('6', '7', '8'), but I don't think string literals will work. –  KennyTM Jan 11 '12 at 18:31
    
@JamesMcNellis AFAIK, only gcc supports constexpr right now. (I could be wrong though) –  Mr. kbok Jan 11 '12 at 18:31

4 Answers 4

up vote 4 down vote accepted

Apparently gcc allows "abcd"[3] be interpreted as 'd', which allows this to work (at least on g++-4.6 and 4.7):

#include <boost/preprocessor/repetition/enum.hpp>

template <const char... characters>
struct GetIntegerTemplate;

template <const char head, const char... rest>
struct GetIntegerTemplate<head, rest...>
{
    typedef GetIntegerTemplate<rest...> Prev;
    enum
    {
        power = Prev::power * 10,
        value = (head - '0') * Prev::power + Prev::value
    };
};

template <>
struct GetIntegerTemplate<>
{
    enum
    {
        power = 1,
        value = 0
    };
};

#define GET_NTH_CHARACTER(z, n, data) data[n]
#define GET_INTEGER(length, the_string) GetIntegerTemplate<BOOST_PP_ENUM(length, GET_NTH_CHARACTER, the_string)>::value

int main()
{
    static_assert(GET_INTEGER(7, "1234567") == 1234567, "oops");
}

But it won't compile on clang, which says "non-type template argument of type 'const char' is not an integral constant expression".


What it really does is to break down the string literal "1234567" into a list of character literals '1', '2', '3', '4', '5', '6', '7'. The instantiation

GetIntegerTemplate<'1', '2', '3', '4', '5', '6', '7'>::value

is then invoked to turn the list into an integer 1234567. The string → char literal step may involve non-standard behavior which may not work outside of g++ (i.e. worse than constexpr ☺), but that GetIntegerTemplate<...>::value is portable.

share|improve this answer
    
Maybe by casting to int ? I don't have LLVM right now, but that could be worth testing. –  Mr. kbok Jan 11 '12 at 18:53
    
@kbok: The problem isn't the type, but that "1234567"[0] in clang is not considered a constant. This is liekly a gcc extension but I can't find anywhere mentioning this. –  KennyTM Jan 11 '12 at 18:58
    
I see, I thought the problem was that it wasn't integral. MSVC doesn't like that either ("invalid template argument for 'foo', expected compile-time constant expression"); it's a shame that only gcc supports it, while it's the only compiler which supports constexpr. –  Mr. kbok Jan 11 '12 at 19:01
    
As of the standard (5.19.1), "An integral constant-expression can involve only literals of arithmetic types (2.13, 3.9.1), enumerators, const variables or static data members of integral or enumeration types initialized with constant expressions (8.5), non-type template parameters of integral or enumeration types, and sizeof expressions." So, no string literals. I think that gcc supports it as a part of constexpr support. –  Mr. kbok Jan 13 '12 at 15:06

(Reposting from another answer of mine)

If you don't mind changing your conceptual definition of 'string literal' from e.g.
"425897" to '4258','97', then you can use Boost.MPL's boost::mpl::string<> to accomplish this:

#include <cstddef>
#include <boost/type_traits/is_integral.hpp>
#include <boost/type_traits/is_same.hpp>
#include <boost/type_traits/is_signed.hpp>
#include <boost/mpl/and.hpp>
#include <boost/mpl/assert.hpp>
#include <boost/mpl/char.hpp>
#include <boost/mpl/contains.hpp>
#include <boost/mpl/end.hpp>
#include <boost/mpl/eval_if.hpp>
#include <boost/mpl/find_if.hpp>
#include <boost/mpl/fold.hpp>
#include <boost/mpl/front.hpp>
#include <boost/mpl/identity.hpp>
#include <boost/mpl/integral_c.hpp>
#include <boost/mpl/minus.hpp>
#include <boost/mpl/negate.hpp>
#include <boost/mpl/next.hpp>
#include <boost/mpl/not.hpp>
#include <boost/mpl/pair.hpp>
#include <boost/mpl/placeholders.hpp>
#include <boost/mpl/plus.hpp>
#include <boost/mpl/pop_front.hpp>
#include <boost/mpl/push_back.hpp>
#include <boost/mpl/reverse_fold.hpp>
#include <boost/mpl/size_t.hpp>
#include <boost/mpl/string.hpp>
#include <boost/mpl/times.hpp>
#include <boost/mpl/vector.hpp>

namespace details
{
    namespace mpl = boost::mpl;

    typedef mpl::vector10<
        mpl::char_<'0'>, mpl::char_<'1'>, mpl::char_<'2'>, mpl::char_<'3'>,
        mpl::char_<'4'>, mpl::char_<'5'>, mpl::char_<'6'>, mpl::char_<'7'>,
        mpl::char_<'8'>, mpl::char_<'9'>
    > valid_chars_t;

    template<typename IntegralT, typename PowerT>
    struct power_of_10;

    template<typename IntegralT, std::size_t Power>
    struct power_of_10<IntegralT, mpl::size_t<Power> > : mpl::times<
        power_of_10<IntegralT, mpl::size_t<Power - 1u> >,
        mpl::integral_c<IntegralT, 10>
    > { };

    template<typename IntegralT>
    struct power_of_10<IntegralT, mpl::size_t<1u> >
        : mpl::integral_c<IntegralT, 10>
    { };

    template<typename IntegralT>
    struct power_of_10<IntegralT, mpl::size_t<0u> >
        : mpl::integral_c<IntegralT, 1>
    { };

    template<typename IntegralT, typename StringT>
    struct is_negative : mpl::and_<
        boost::is_signed<IntegralT>,
        boost::is_same<
            typename mpl::front<StringT>::type,
            mpl::char_<'-'>
        >
    > { };

    template<typename IntegralT, typename StringT>
    struct extract_actual_string : mpl::eval_if<
        is_negative<IntegralT, StringT>,
        mpl::pop_front<StringT>,
        mpl::identity<StringT>
    > { };

    template<typename ExtractedStringT>
    struct check_valid_characters : boost::is_same<
        typename mpl::find_if<
            ExtractedStringT,
            mpl::not_<mpl::contains<valid_chars_t, mpl::_> >
        >::type,
        typename mpl::end<ExtractedStringT>::type
    > { };

    template<typename ExtractedStringT>
    struct pair_digit_with_power : mpl::first<
        typename mpl::reverse_fold<
            ExtractedStringT,
            mpl::pair<mpl::vector0<>, mpl::size_t<0> >,
            mpl::pair<
                mpl::push_back<
                    mpl::first<mpl::_1>,
                    mpl::pair<mpl::_2, mpl::second<mpl::_1> >
                >,
                mpl::next<mpl::second<mpl::_1> >
            >
        >::type
    > { };

    template<typename IntegralT, typename ExtractedStringT>
    struct accumulate_digits : mpl::fold<
        typename pair_digit_with_power<ExtractedStringT>::type,
        mpl::integral_c<IntegralT, 0>,
        mpl::plus<
            mpl::_1,
            mpl::times<
                mpl::minus<mpl::first<mpl::_2>, mpl::char_<'0'> >,
                power_of_10<IntegralT, mpl::second<mpl::_2> >
            >
        >
    > { };

    template<typename IntegralT, typename StringT>
    class string_to_integral_impl
    {
        BOOST_MPL_ASSERT((boost::is_integral<IntegralT>));

        typedef typename extract_actual_string<
            IntegralT,
            StringT
        >::type ExtractedStringT;
        BOOST_MPL_ASSERT((check_valid_characters<ExtractedStringT>));

        typedef typename accumulate_digits<
            IntegralT,
            ExtractedStringT
        >::type ValueT;

    public:
        typedef typename mpl::eval_if<
            is_negative<IntegralT, StringT>,
            mpl::negate<ValueT>,
            mpl::identity<ValueT>
        >::type type;
    };
}

template<typename IntegralT, typename StringT>
struct string_to_integral2
    : details::string_to_integral_impl<IntegralT, StringT>::type
{ };

template<typename IntegralT, int C0, int C1 = 0, int C2 = 0,
    int C3 = 0, int C4 = 0, int C5 = 0, int C6 = 0, int C7 = 0>
struct string_to_integral : string_to_integral2<
    IntegralT,
    boost::mpl::string<C0, C1, C2, C3, C4, C5, C6, C7>
> { };

Usage would look like:

int i = string_to_integral<int, '4258','97'>::value
// or
typedef boost::mpl::string<'4258','97'> str_t;
unsigned j = string_to_integral2<unsigned, str_t>::value

Support for negative numbers is implemented, support for overflow detection is not (but your compiler will probably give a warning).

share|improve this answer
    
That's interesting, but what is '4258' ? –  Mr. kbok Jan 11 '12 at 18:37
    
@kbok : '4258','97' is the way of representing the string literal "425897" in a way that's usable with boost::mpl::string<>. –  ildjarn Jan 11 '12 at 18:39
    
@ildjarn: Are all those boost includes needed for that sample code? I think I remember why I hated using boost... –  That Chuck Guy Jan 11 '12 at 19:00
    
@kbok: '1234' is called a multicharacter literal. Their represantation as a char are basically implementation defined IIRC. –  Xeo Jan 11 '12 at 19:04
1  
@Chuck: Since some Boost libraries, MPL, Spirit and the likes, are particularly heavy on the compiler and preprocessor, you only want to include the absolute minimum necessary. This can result in such a long #include list, and MPL forces it by not providing a simple <mpl.hpp> header that includes all other stuff. If you value your compile-time however, you'll gladly overlook the inconvenience of the includes. –  Xeo Jan 11 '12 at 19:07

Maybe?

template<int C>
struct get_char
{
    static const int value = C - 48;
};

static_assert(get_char<'0'>::value == 0, "");
share|improve this answer

I am not sure if it is possible, but that is something you could try.

You can decrement the value of a character digit by '0' to obtain that value in numericals.

Like:

char a = '5';
int num =  a - '0';

That would solve your problem for one digit.

For you to solve a number with many digits (like "12345"), you would have to loop all the digits and sum the results (each one multiplied by 10^pos).

That would be easy to do in execution time, but in compile time it is not that simple.

"compile time recursion" may be your friend here. To be honest, I couldn't think in any solution using it, but you might find one.

Good luck!

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