Using C++11, Ubuntu 14.04, GCC default toolchain.

This code fails:

constexpr std::string constString = "constString";

error: the type ‘const string {aka const std::basic_string}’ of constexpr variable ‘constString’ is not literal... because... ‘std::basic_string’ has a non-trivial destructor

Is it possible to use std::string in aconstexpr? (apparently not...) If so, how? Is there an alternative way to use a character string in a constexpr?

  • 2
    std::string is not a literal type – Piotr Skotnicki Nov 25 '14 at 9:47
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    @PiotrS - the question says that... – Vector Nov 25 '14 at 9:48
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    @Vector did I ask you what the constexpr is for or why do you want std::string to be constexpr? there are several compile-time string implementations on SO. what is the point in asking if you can make a non-literal type constexpr if you understand error message and know only literal types can be made constexpr? as well there are several reasons why one may want to have a constexpr instance, so I suggest you clarify your question – Piotr Skotnicki Nov 25 '14 at 10:25
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    Yes as @PiotrS. said, there are constexpr string implementations out there. std::string is not one of them. – tenfour Nov 25 '14 at 11:12
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    @PiotrS - there are several compile-time string implementations on SO - OK, thanks, understood. That's not an option for me but it answers my question: no way std::string will work. As I remarked to tenfour, I was wondering if there was a way to use std::string in way that would work. There are many tricks that I certainly am not aware of. – Vector Nov 25 '14 at 11:17

No, and your compiler already gave you a comprehensive explanation.

But you could do this:

constexpr char constString[] = "constString";

At runtime, this can be used to construct a std::string when needed.

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  • 76
    Why not constexpr auto constString = "constString";? No need to use that ugly array syntax ;-) – stefan Nov 25 '14 at 10:19
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    In the context of this question, it's clearer. My point is about which string types you can choose from. char[] is more verbose / clear than auto when I'm trying to emphasize the data type to use. – tenfour Nov 25 '14 at 11:07
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    @tenfour Right, that's a good point. I guess I'm sometimes a bit too focused on using auto ;-) – stefan Nov 25 '14 at 12:15
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    @FelixDombek no, but with c++17 you could use constexpr auto s = "c"sv; due to the introduction of string_view – wich May 11 '17 at 13:55
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    Does it make sense to constexpr a char array in that context? If you use it to construct a string, it's going to be copied anyway. What's the difference between passing literal to the string's constructor and passing such a constexpr array to it? – KjMag Jul 21 '17 at 22:31

As of C++20, yes.

As of C++17, you can use string_view:

constexpr std::string_view sv = "hello, world";

A string_view is a string-like object that acts as an immutable, non-owning reference to any sequence of char objects.

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  • 6
    Be aware that whenever you pass this constant to a function taking a const std::string& a new std::string has to be constructed. That is usually the opposite of what one had in mind when creating a constant. Therefore, I tend to say that this is not a good idea. At least you have to be careful. – Rambo Ramon Apr 4 '18 at 10:17
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    @RamboRamon string_view is not implicitly convertible to string, so there is little danger of accidentally constructing a string from a string_view. Conversely, char const* is implicitly convertible to string, so using string_view is actually safer in this sense. – Joseph Thomson Apr 4 '18 at 13:08
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    Thanks for the clarification. I totally agree and indeed forgot that string_view is not implicitly convertible to string. IMO the problem I brought up is still valid but does not apply to string_view specifically. In fact, as you mentioned, it is even safer in that regard. – Rambo Ramon Apr 4 '18 at 16:25
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    It would be great if this answer said more about what string_view is, instead of just a link. – eric Apr 25 '18 at 13:47

C++20 will add constexpr strings and vectors

The following proposal has been accepted apparently: http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2018/p0980r0.pdf and it adds constructors such as:

//, construct/copy/destroy
basic_string() noexcept(noexcept(Allocator())) : basic_string(Allocator()) { }
explicit basic_string(const Allocator& a) noexcept;
basic_string(const basic_string& str);
basic_string(basic_string&& str) noexcept;

in addition to constexpr versions of all / most methods.

There is no support as of GCC 9.1.0, the following fails to compile:

#include <string>

int main() {
    constexpr std::string s("abc");


g++-9 -std=c++2a main.cpp

with error:

error: the type ‘const string’ {aka ‘const std::__cxx11::basic_string<char>’} of ‘constexpr’ variable ‘s’ is not literal

std::vector discussed at: Cannot create constexpr std::vector

Tested in Ubuntu 19.04.

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Since the problem is the non-trivial destructor so if the destructor is removed from the std::string, it's possible to define a constexpr instance of that type. Like this

struct constexpr_str {
    char const* str;
    std::size_t size;

    // can only construct from a char[] literal
    template <std::size_t N>
    constexpr constexpr_str(char const (&s)[N])
        : str(s)
        , size(N - 1) // not count the trailing nul

int main()
    constexpr constexpr_str s("constString");

    // its .size is a constexpr
    std::array<int, s.size> a;
    return 0;
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  • 18
    This is basically what c++17 string_view is, except that string_view gives you most of the functionality that you know from std::string – wich May 11 '17 at 13:54

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