I would like to use the name of a type at compile time. For example, suppose I've written:

constexpr size_t my_strlen(const char* s)
        const char* cp = s;
        while(*cp != '\0') { cp++; };
        return cp - s;

and now I want to have:

template <typename T>
constexpr auto type_name_length = my_strlen(typeid(T).name());

But alas, typeid(T).name() is just const char*, not constexpr... is there some other, constexpr way to get a type's name?

  • What do you intend to do with type_name_length<T> that you need it at compile time? Compilers are pretty good about just evaluating strlen() and giving you a constant if that's possible. – Barry Mar 11 '16 at 14:13
  • @Barry: I just wanted an MCVE here, so I made up a synthetic use. – einpoklum - reinstate Monica Mar 11 '16 at 14:19
  • @einpoklum That is good; but adding a comment saying that in the question (this is merely a MCVE, I am really trying to X) is also good. – Yakk - Adam Nevraumont Mar 11 '16 at 19:25
  • @Yakk: I did say "for example" and "suppose"... – einpoklum - reinstate Monica Mar 11 '16 at 19:30
  • 1
    @Yakk: It was for some CUDA device-side debugging code which prints type names but also needs to align the output, and I wanted to fit everything in a printf statement without loops to calculate lengths. – einpoklum - reinstate Monica Sep 12 '16 at 6:48

Well, you could, sort of, but probably not quite portable:

struct string_view
    char const* data;
    std::size_t size;

inline std::ostream& operator<<(std::ostream& o, string_view const& s)
    return o.write(s.data, s.size);

template<class T>
constexpr string_view get_name()
    char const* p = __PRETTY_FUNCTION__;
    while (*p++ != '=');
    for (; *p == ' '; ++p);
    char const* p2 = p;
    int count = 1;
    for (;;++p2)
        switch (*p2)
        case '[':
        case ']':
            if (!count)
                return {p, std::size_t(p2 - p)};
    return {};

And you can define your desired type_name_length as:

template <typename T>
constexpr auto type_name_length = get_name<T>().size;

DEMO (works for clang & g++)

  • 2
    Something similar could be implemented on MSVC with __FUNCSIG__. – melak47 Mar 11 '16 at 15:18
  • I found this site and tested out __FUNCSIG__. It appears to emit the fully-substituted/bound types, as though the function were explicitly instantiated, as opposed to GCC's hybrid output. For example: void __cdecl foo<double>(const double &), which looks less helpful to me at a glance. (GCC still makes some strange distinction between dependent vs. free types, or maybe deduced vs. computed types, when performing substitutions.) I think reflection is highly underrated and under-supported, esp. with Concepts so far over the horizon... – John P Dec 26 '17 at 15:21
  • @JohnP: Do you think you could edit that into the proposed solution? – einpoklum - reinstate Monica Feb 10 '18 at 19:01
  • I don't think I know enough about the way it generates/computes the signature to make any kind of a guarantee about parsing it - this would be a better job for someone more familiar with MSVC. If you can't find anyone more suitable, I'll make an attempt. With the way it appears to work, you would expect foo followed by equally many opening and closing <> pairs - but a type could be T (W<X>::*operator<)(Y<Z>), etc. - I'm sure there are other caveats (my syntax highlighter has 'experimental' template highlighting with lots of issues, hence the hesitation.) – John P Feb 13 '18 at 5:10
  • In general I believe I would have to take a good look at the specs - obviously compilers manage somehow, and the few cases with ambiguity have special syntax to resolve it, e.g. the most vexing parse. I'd like to do it right instead of leaving an incorrect answer standing. As an aside, if there is a case for __PRETTY_FUNCTION__ and so on, there should be a case for a __PRETTY_THIS__ or something, right? What we're doing is 'Wrong' IMHO. – John P Feb 13 '18 at 5:17

(Based on @melak47's gist and using C++17):

#using <string_view>
// and if it's not C++17, take the GSL implementation or just roll your own struct - 
// you only need to implement 3 or 4 methods here.

namespace detail {

template<typename T>
constexpr const char* templated_function_name_getter() {
#if defined(__GNUC__) || defined(__clang__)
    return __PRETTY_FUNCTION__;
#elif defined(_MSC_VER)
    return __FUNCSIG__;
#error unsupported compiler (only GCC, clang and MSVC are supported)

} // namespace detail

template<typename T>
constexpr std::string_view type_name() {

    constexpr std::string_view funcsig =  detail::templated_function_name_getter<T>();

    // Note: The "magic numbers" below 

    #if defined(__GNUC__) || defined(__clang__)
    constexpr auto start_bit = std::string_view{"T = "};
    constexpr auto end_bit = std::string_view{"]"};
    #elif defined(_MSC_VER)
    constexpr auto start_bit = std::string_view{"detail::templated_function_name_getter<"};
    constexpr auto end_bit = std::string_view{">("};
    #error unsupported compiler (only GCC, clang and MSVC are supported)

    constexpr auto start = funcsig.find(start_bit);
    constexpr auto end = funcsig.rfind(end_bit);
        start != funcsig.npos and end != funcsig.npos and end > start, 
        "Failed parsing the __PRETTY_FUNCTION__/__FUNCSIG__ string");
    return funcsig.substr(start + start_bit.size(), end - start - start_bit.size());

Note: There's now a nicer version of this approach implemented here.

  • You renamed templated_function_name_getter but didn't replace the detail::type_name< string it searches for :) – melak47 Jun 14 at 16:42
  • @melak47: Thanks. Fixed. Also using the CharT*-only constructors that std::string_view has but the poor man's string_view didn't. – einpoklum - reinstate Monica Jun 14 at 20:58

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