C++ check if statement can be evaluated constexprWhat are the differences between a pointer variable and a...

Why do ¬, ∀ and ∃ have the same precedence?

What's the name of the logical fallacy where a debater extends a statement far beyond the original statement to make it true?

What does "Scientists rise up against statistical significance" mean? (Comment in Nature)

How to make money from a browser who sees 5 seconds into the future of any web page?

Which Article Helped Get Rid of Technobabble in RPGs?

What is the highest possible scrabble score for placing a single tile

Mimic lecturing on blackboard, facing audience

Is this part of the description of the Archfey warlock's Misty Escape feature redundant?

Why can't the Brexit deadlock in the UK parliament be solved with a plurality vote?

Why does Carol not get rid of the Kree symbol on her suit when she changes its colours?

Creating two special characters

What is the difference between lands and mana?

Quoting Keynes in a lecture

The Digit Triangles

Is it allowed to activate the ability of multiple planeswalkers in a single turn?

Why do Radio Buttons not fill the entire outer circle?

Can I turn my anal-retentiveness into a career?

How much theory knowledge is actually used while playing?

A variation to the phrase "hanging over my shoulders"

How would you translate "more" for use as an interface button?

What kind of floor tile is this?

Does the Linux kernel need a file system to run?

What is Cash Advance APR?

What is the English pronunciation of "pain au chocolat"?



C++ check if statement can be evaluated constexpr


What are the differences between a pointer variable and a reference variable in C++?Is it possible to write a template to check for a function's existence?How can I profile C++ code running on Linux?The Definitive C++ Book Guide and ListWhy can templates only be implemented in the header file?What is the effect of extern “C” in C++?What is the “-->” operator in C++?Easiest way to convert int to string in C++Why is reading lines from stdin much slower in C++ than Python?Difference between `constexpr` and `const`













8















Is there a method to decide whether something can be constexpr evaluated, and use the result as a constexpr boolean? My simplified use case is as follows:



template <typename base>
class derived
{
template<size_t size>
void do_stuff() { (...) }

void do_stuff(size_t size) { (...) }
public:
void execute()
{
if constexpr(is_constexpr(base::get_data())
{
do_stuff<base::get_data()>();
}
else
{
do_stuff(base::get_data());
}
}
}


My target is C++2a.



I found the following reddit thread, but I'm not a big fan of the macros. https://www.reddit.com/r/cpp/comments/7c208c/is_constexpr_a_macro_that_check_if_an_expression/










share|improve this question

























  • Hmm, the body of a if constexpr will only be evaluated if the expression in the if constexpr is true at compile time. Is that what you are looking for?

    – Jesper Juhl
    4 hours ago











  • But what if the test in the if constexpr([test]) is not evaluatable at compile time?

    – Aart Stuurman
    4 hours ago






  • 3





    Maybe you can do something with std::is_constant_evaluated?

    – 0x5453
    4 hours ago











  • en.cppreference.com/w/cpp/language/if

    – Jesper Juhl
    4 hours ago






  • 1





    @AartStuurman: What is do_stuff that it can run at compile time or runtime, but itself should not be constexpr? Wouldn't it make more sense to just make it a constexpr function, and pass it the value of get_data as a parameter?

    – Nicol Bolas
    4 hours ago
















8















Is there a method to decide whether something can be constexpr evaluated, and use the result as a constexpr boolean? My simplified use case is as follows:



template <typename base>
class derived
{
template<size_t size>
void do_stuff() { (...) }

void do_stuff(size_t size) { (...) }
public:
void execute()
{
if constexpr(is_constexpr(base::get_data())
{
do_stuff<base::get_data()>();
}
else
{
do_stuff(base::get_data());
}
}
}


My target is C++2a.



I found the following reddit thread, but I'm not a big fan of the macros. https://www.reddit.com/r/cpp/comments/7c208c/is_constexpr_a_macro_that_check_if_an_expression/










share|improve this question

























  • Hmm, the body of a if constexpr will only be evaluated if the expression in the if constexpr is true at compile time. Is that what you are looking for?

    – Jesper Juhl
    4 hours ago











  • But what if the test in the if constexpr([test]) is not evaluatable at compile time?

    – Aart Stuurman
    4 hours ago






  • 3





    Maybe you can do something with std::is_constant_evaluated?

    – 0x5453
    4 hours ago











  • en.cppreference.com/w/cpp/language/if

    – Jesper Juhl
    4 hours ago






  • 1





    @AartStuurman: What is do_stuff that it can run at compile time or runtime, but itself should not be constexpr? Wouldn't it make more sense to just make it a constexpr function, and pass it the value of get_data as a parameter?

    – Nicol Bolas
    4 hours ago














8












8








8


4






Is there a method to decide whether something can be constexpr evaluated, and use the result as a constexpr boolean? My simplified use case is as follows:



template <typename base>
class derived
{
template<size_t size>
void do_stuff() { (...) }

void do_stuff(size_t size) { (...) }
public:
void execute()
{
if constexpr(is_constexpr(base::get_data())
{
do_stuff<base::get_data()>();
}
else
{
do_stuff(base::get_data());
}
}
}


My target is C++2a.



I found the following reddit thread, but I'm not a big fan of the macros. https://www.reddit.com/r/cpp/comments/7c208c/is_constexpr_a_macro_that_check_if_an_expression/










share|improve this question
















Is there a method to decide whether something can be constexpr evaluated, and use the result as a constexpr boolean? My simplified use case is as follows:



template <typename base>
class derived
{
template<size_t size>
void do_stuff() { (...) }

void do_stuff(size_t size) { (...) }
public:
void execute()
{
if constexpr(is_constexpr(base::get_data())
{
do_stuff<base::get_data()>();
}
else
{
do_stuff(base::get_data());
}
}
}


My target is C++2a.



I found the following reddit thread, but I'm not a big fan of the macros. https://www.reddit.com/r/cpp/comments/7c208c/is_constexpr_a_macro_that_check_if_an_expression/







c++ templates template-meta-programming constexpr c++20






share|improve this question















share|improve this question













share|improve this question




share|improve this question








edited 3 hours ago









max66

38.1k74471




38.1k74471










asked 4 hours ago









Aart StuurmanAart Stuurman

920726




920726













  • Hmm, the body of a if constexpr will only be evaluated if the expression in the if constexpr is true at compile time. Is that what you are looking for?

    – Jesper Juhl
    4 hours ago











  • But what if the test in the if constexpr([test]) is not evaluatable at compile time?

    – Aart Stuurman
    4 hours ago






  • 3





    Maybe you can do something with std::is_constant_evaluated?

    – 0x5453
    4 hours ago











  • en.cppreference.com/w/cpp/language/if

    – Jesper Juhl
    4 hours ago






  • 1





    @AartStuurman: What is do_stuff that it can run at compile time or runtime, but itself should not be constexpr? Wouldn't it make more sense to just make it a constexpr function, and pass it the value of get_data as a parameter?

    – Nicol Bolas
    4 hours ago



















  • Hmm, the body of a if constexpr will only be evaluated if the expression in the if constexpr is true at compile time. Is that what you are looking for?

    – Jesper Juhl
    4 hours ago











  • But what if the test in the if constexpr([test]) is not evaluatable at compile time?

    – Aart Stuurman
    4 hours ago






  • 3





    Maybe you can do something with std::is_constant_evaluated?

    – 0x5453
    4 hours ago











  • en.cppreference.com/w/cpp/language/if

    – Jesper Juhl
    4 hours ago






  • 1





    @AartStuurman: What is do_stuff that it can run at compile time or runtime, but itself should not be constexpr? Wouldn't it make more sense to just make it a constexpr function, and pass it the value of get_data as a parameter?

    – Nicol Bolas
    4 hours ago

















Hmm, the body of a if constexpr will only be evaluated if the expression in the if constexpr is true at compile time. Is that what you are looking for?

– Jesper Juhl
4 hours ago





Hmm, the body of a if constexpr will only be evaluated if the expression in the if constexpr is true at compile time. Is that what you are looking for?

– Jesper Juhl
4 hours ago













But what if the test in the if constexpr([test]) is not evaluatable at compile time?

– Aart Stuurman
4 hours ago





But what if the test in the if constexpr([test]) is not evaluatable at compile time?

– Aart Stuurman
4 hours ago




3




3





Maybe you can do something with std::is_constant_evaluated?

– 0x5453
4 hours ago





Maybe you can do something with std::is_constant_evaluated?

– 0x5453
4 hours ago













en.cppreference.com/w/cpp/language/if

– Jesper Juhl
4 hours ago





en.cppreference.com/w/cpp/language/if

– Jesper Juhl
4 hours ago




1




1





@AartStuurman: What is do_stuff that it can run at compile time or runtime, but itself should not be constexpr? Wouldn't it make more sense to just make it a constexpr function, and pass it the value of get_data as a parameter?

– Nicol Bolas
4 hours ago





@AartStuurman: What is do_stuff that it can run at compile time or runtime, but itself should not be constexpr? Wouldn't it make more sense to just make it a constexpr function, and pass it the value of get_data as a parameter?

– Nicol Bolas
4 hours ago












3 Answers
3






active

oldest

votes


















5














Not exactly what you asked (I've developer a custom type trait specific for a get_value() static method... maybe it's possible to generalize it but, at the moment, I don't know how) but I suppose you can use SFINAE and make something as follows



#include <iostream>
#include <type_traits>

template <typename T>
constexpr auto icee_helper (int)
-> decltype( std::integral_constant<decltype(T::get_data()), T::get_data()>{},
std::true_type{} );

template <typename>
constexpr auto icee_helper (long)
-> std::false_type;

template <typename T>
using isConstExprEval = decltype(icee_helper<T>(0));

template <typename base>
struct derived
{
template <std::size_t I>
void do_stuff()
{ std::cout << "constexpr case (" << I << ')' << std::endl; }

void do_stuff (std::size_t i)
{ std::cout << "not constexpr case (" << i << ')' << std::endl; }

void execute ()
{
if constexpr ( isConstExprEval<base>::value )
do_stuff<base::get_data()>();
else
do_stuff(base::get_data());
}
};

struct foo
{ static constexpr std::size_t get_data () { return 1u; } };

struct bar
{ static std::size_t get_data () { return 2u; } };

int main ()
{
derived<foo>{}.execute(); // print "constexpr case (1)"
derived<bar>{}.execute(); // print "not constexpr case (2)"
}





share|improve this answer


























  • This is madness, this use of the comma operator, the long/int overload... Have an upvote. :/

    – matovitch
    3 hours ago











  • @matovitch - never underestimate the power of the comma operator }:‑)

    – max66
    3 hours ago



















4














Here's another solution, which is more generic (applicable to any expression, without defining a separate template each time).



This solution leverages that (1) lambda expressions can be constexpr as of C++17 (2) the type of a captureless lambda is default constructible as of C++20.



The idea is, the overload that returns true is selected when and only when Lambda{}() can appear within a template argument, which effectively requires the lambda invocation to be a constant expression.



template<class Lambda, int=(Lambda{}(), 0)>
constexpr bool is_constexpr(Lambda) { return true; }
constexpr bool is_constexpr(...) { return false; }

template <typename base>
class derived
{
// ...

void execute()
{
if constexpr(is_constexpr([]{ base::get_data(); }))
do_stuff<base::get_data()>();
else
do_stuff(base::get_data());
}
}





share|improve this answer


























  • Intriguing solution... this way you get the same result of my custom type traits but more synthetically and, above all, the exact expression verified (base::get_data()) is embedded in the argument and not hard-coded as in my solution. Very nice. I have to remember it.

    – max66
    39 mins ago





















2














template<auto> struct require_constant;
template<class T>
concept has_constexpr_data = requires { typename require_constant<T::get_data()>; };


This is basically what's used by std::ranges::split_view.






share|improve this answer























    Your Answer






    StackExchange.ifUsing("editor", function () {
    StackExchange.using("externalEditor", function () {
    StackExchange.using("snippets", function () {
    StackExchange.snippets.init();
    });
    });
    }, "code-snippets");

    StackExchange.ready(function() {
    var channelOptions = {
    tags: "".split(" "),
    id: "1"
    };
    initTagRenderer("".split(" "), "".split(" "), channelOptions);

    StackExchange.using("externalEditor", function() {
    // Have to fire editor after snippets, if snippets enabled
    if (StackExchange.settings.snippets.snippetsEnabled) {
    StackExchange.using("snippets", function() {
    createEditor();
    });
    }
    else {
    createEditor();
    }
    });

    function createEditor() {
    StackExchange.prepareEditor({
    heartbeatType: 'answer',
    autoActivateHeartbeat: false,
    convertImagesToLinks: true,
    noModals: true,
    showLowRepImageUploadWarning: true,
    reputationToPostImages: 10,
    bindNavPrevention: true,
    postfix: "",
    imageUploader: {
    brandingHtml: "Powered by u003ca class="icon-imgur-white" href="https://imgur.com/"u003eu003c/au003e",
    contentPolicyHtml: "User contributions licensed under u003ca href="https://creativecommons.org/licenses/by-sa/3.0/"u003ecc by-sa 3.0 with attribution requiredu003c/au003e u003ca href="https://stackoverflow.com/legal/content-policy"u003e(content policy)u003c/au003e",
    allowUrls: true
    },
    onDemand: true,
    discardSelector: ".discard-answer"
    ,immediatelyShowMarkdownHelp:true
    });


    }
    });














    draft saved

    draft discarded


















    StackExchange.ready(
    function () {
    StackExchange.openid.initPostLogin('.new-post-login', 'https%3a%2f%2fstackoverflow.com%2fquestions%2f55288555%2fc-check-if-statement-can-be-evaluated-constexpr%23new-answer', 'question_page');
    }
    );

    Post as a guest















    Required, but never shown

























    3 Answers
    3






    active

    oldest

    votes








    3 Answers
    3






    active

    oldest

    votes









    active

    oldest

    votes






    active

    oldest

    votes









    5














    Not exactly what you asked (I've developer a custom type trait specific for a get_value() static method... maybe it's possible to generalize it but, at the moment, I don't know how) but I suppose you can use SFINAE and make something as follows



    #include <iostream>
    #include <type_traits>

    template <typename T>
    constexpr auto icee_helper (int)
    -> decltype( std::integral_constant<decltype(T::get_data()), T::get_data()>{},
    std::true_type{} );

    template <typename>
    constexpr auto icee_helper (long)
    -> std::false_type;

    template <typename T>
    using isConstExprEval = decltype(icee_helper<T>(0));

    template <typename base>
    struct derived
    {
    template <std::size_t I>
    void do_stuff()
    { std::cout << "constexpr case (" << I << ')' << std::endl; }

    void do_stuff (std::size_t i)
    { std::cout << "not constexpr case (" << i << ')' << std::endl; }

    void execute ()
    {
    if constexpr ( isConstExprEval<base>::value )
    do_stuff<base::get_data()>();
    else
    do_stuff(base::get_data());
    }
    };

    struct foo
    { static constexpr std::size_t get_data () { return 1u; } };

    struct bar
    { static std::size_t get_data () { return 2u; } };

    int main ()
    {
    derived<foo>{}.execute(); // print "constexpr case (1)"
    derived<bar>{}.execute(); // print "not constexpr case (2)"
    }





    share|improve this answer


























    • This is madness, this use of the comma operator, the long/int overload... Have an upvote. :/

      – matovitch
      3 hours ago











    • @matovitch - never underestimate the power of the comma operator }:‑)

      – max66
      3 hours ago
















    5














    Not exactly what you asked (I've developer a custom type trait specific for a get_value() static method... maybe it's possible to generalize it but, at the moment, I don't know how) but I suppose you can use SFINAE and make something as follows



    #include <iostream>
    #include <type_traits>

    template <typename T>
    constexpr auto icee_helper (int)
    -> decltype( std::integral_constant<decltype(T::get_data()), T::get_data()>{},
    std::true_type{} );

    template <typename>
    constexpr auto icee_helper (long)
    -> std::false_type;

    template <typename T>
    using isConstExprEval = decltype(icee_helper<T>(0));

    template <typename base>
    struct derived
    {
    template <std::size_t I>
    void do_stuff()
    { std::cout << "constexpr case (" << I << ')' << std::endl; }

    void do_stuff (std::size_t i)
    { std::cout << "not constexpr case (" << i << ')' << std::endl; }

    void execute ()
    {
    if constexpr ( isConstExprEval<base>::value )
    do_stuff<base::get_data()>();
    else
    do_stuff(base::get_data());
    }
    };

    struct foo
    { static constexpr std::size_t get_data () { return 1u; } };

    struct bar
    { static std::size_t get_data () { return 2u; } };

    int main ()
    {
    derived<foo>{}.execute(); // print "constexpr case (1)"
    derived<bar>{}.execute(); // print "not constexpr case (2)"
    }





    share|improve this answer


























    • This is madness, this use of the comma operator, the long/int overload... Have an upvote. :/

      – matovitch
      3 hours ago











    • @matovitch - never underestimate the power of the comma operator }:‑)

      – max66
      3 hours ago














    5












    5








    5







    Not exactly what you asked (I've developer a custom type trait specific for a get_value() static method... maybe it's possible to generalize it but, at the moment, I don't know how) but I suppose you can use SFINAE and make something as follows



    #include <iostream>
    #include <type_traits>

    template <typename T>
    constexpr auto icee_helper (int)
    -> decltype( std::integral_constant<decltype(T::get_data()), T::get_data()>{},
    std::true_type{} );

    template <typename>
    constexpr auto icee_helper (long)
    -> std::false_type;

    template <typename T>
    using isConstExprEval = decltype(icee_helper<T>(0));

    template <typename base>
    struct derived
    {
    template <std::size_t I>
    void do_stuff()
    { std::cout << "constexpr case (" << I << ')' << std::endl; }

    void do_stuff (std::size_t i)
    { std::cout << "not constexpr case (" << i << ')' << std::endl; }

    void execute ()
    {
    if constexpr ( isConstExprEval<base>::value )
    do_stuff<base::get_data()>();
    else
    do_stuff(base::get_data());
    }
    };

    struct foo
    { static constexpr std::size_t get_data () { return 1u; } };

    struct bar
    { static std::size_t get_data () { return 2u; } };

    int main ()
    {
    derived<foo>{}.execute(); // print "constexpr case (1)"
    derived<bar>{}.execute(); // print "not constexpr case (2)"
    }





    share|improve this answer















    Not exactly what you asked (I've developer a custom type trait specific for a get_value() static method... maybe it's possible to generalize it but, at the moment, I don't know how) but I suppose you can use SFINAE and make something as follows



    #include <iostream>
    #include <type_traits>

    template <typename T>
    constexpr auto icee_helper (int)
    -> decltype( std::integral_constant<decltype(T::get_data()), T::get_data()>{},
    std::true_type{} );

    template <typename>
    constexpr auto icee_helper (long)
    -> std::false_type;

    template <typename T>
    using isConstExprEval = decltype(icee_helper<T>(0));

    template <typename base>
    struct derived
    {
    template <std::size_t I>
    void do_stuff()
    { std::cout << "constexpr case (" << I << ')' << std::endl; }

    void do_stuff (std::size_t i)
    { std::cout << "not constexpr case (" << i << ')' << std::endl; }

    void execute ()
    {
    if constexpr ( isConstExprEval<base>::value )
    do_stuff<base::get_data()>();
    else
    do_stuff(base::get_data());
    }
    };

    struct foo
    { static constexpr std::size_t get_data () { return 1u; } };

    struct bar
    { static std::size_t get_data () { return 2u; } };

    int main ()
    {
    derived<foo>{}.execute(); // print "constexpr case (1)"
    derived<bar>{}.execute(); // print "not constexpr case (2)"
    }






    share|improve this answer














    share|improve this answer



    share|improve this answer








    edited 3 hours ago

























    answered 4 hours ago









    max66max66

    38.1k74471




    38.1k74471













    • This is madness, this use of the comma operator, the long/int overload... Have an upvote. :/

      – matovitch
      3 hours ago











    • @matovitch - never underestimate the power of the comma operator }:‑)

      – max66
      3 hours ago



















    • This is madness, this use of the comma operator, the long/int overload... Have an upvote. :/

      – matovitch
      3 hours ago











    • @matovitch - never underestimate the power of the comma operator }:‑)

      – max66
      3 hours ago

















    This is madness, this use of the comma operator, the long/int overload... Have an upvote. :/

    – matovitch
    3 hours ago





    This is madness, this use of the comma operator, the long/int overload... Have an upvote. :/

    – matovitch
    3 hours ago













    @matovitch - never underestimate the power of the comma operator }:‑)

    – max66
    3 hours ago





    @matovitch - never underestimate the power of the comma operator }:‑)

    – max66
    3 hours ago













    4














    Here's another solution, which is more generic (applicable to any expression, without defining a separate template each time).



    This solution leverages that (1) lambda expressions can be constexpr as of C++17 (2) the type of a captureless lambda is default constructible as of C++20.



    The idea is, the overload that returns true is selected when and only when Lambda{}() can appear within a template argument, which effectively requires the lambda invocation to be a constant expression.



    template<class Lambda, int=(Lambda{}(), 0)>
    constexpr bool is_constexpr(Lambda) { return true; }
    constexpr bool is_constexpr(...) { return false; }

    template <typename base>
    class derived
    {
    // ...

    void execute()
    {
    if constexpr(is_constexpr([]{ base::get_data(); }))
    do_stuff<base::get_data()>();
    else
    do_stuff(base::get_data());
    }
    }





    share|improve this answer


























    • Intriguing solution... this way you get the same result of my custom type traits but more synthetically and, above all, the exact expression verified (base::get_data()) is embedded in the argument and not hard-coded as in my solution. Very nice. I have to remember it.

      – max66
      39 mins ago


















    4














    Here's another solution, which is more generic (applicable to any expression, without defining a separate template each time).



    This solution leverages that (1) lambda expressions can be constexpr as of C++17 (2) the type of a captureless lambda is default constructible as of C++20.



    The idea is, the overload that returns true is selected when and only when Lambda{}() can appear within a template argument, which effectively requires the lambda invocation to be a constant expression.



    template<class Lambda, int=(Lambda{}(), 0)>
    constexpr bool is_constexpr(Lambda) { return true; }
    constexpr bool is_constexpr(...) { return false; }

    template <typename base>
    class derived
    {
    // ...

    void execute()
    {
    if constexpr(is_constexpr([]{ base::get_data(); }))
    do_stuff<base::get_data()>();
    else
    do_stuff(base::get_data());
    }
    }





    share|improve this answer


























    • Intriguing solution... this way you get the same result of my custom type traits but more synthetically and, above all, the exact expression verified (base::get_data()) is embedded in the argument and not hard-coded as in my solution. Very nice. I have to remember it.

      – max66
      39 mins ago
















    4












    4








    4







    Here's another solution, which is more generic (applicable to any expression, without defining a separate template each time).



    This solution leverages that (1) lambda expressions can be constexpr as of C++17 (2) the type of a captureless lambda is default constructible as of C++20.



    The idea is, the overload that returns true is selected when and only when Lambda{}() can appear within a template argument, which effectively requires the lambda invocation to be a constant expression.



    template<class Lambda, int=(Lambda{}(), 0)>
    constexpr bool is_constexpr(Lambda) { return true; }
    constexpr bool is_constexpr(...) { return false; }

    template <typename base>
    class derived
    {
    // ...

    void execute()
    {
    if constexpr(is_constexpr([]{ base::get_data(); }))
    do_stuff<base::get_data()>();
    else
    do_stuff(base::get_data());
    }
    }





    share|improve this answer















    Here's another solution, which is more generic (applicable to any expression, without defining a separate template each time).



    This solution leverages that (1) lambda expressions can be constexpr as of C++17 (2) the type of a captureless lambda is default constructible as of C++20.



    The idea is, the overload that returns true is selected when and only when Lambda{}() can appear within a template argument, which effectively requires the lambda invocation to be a constant expression.



    template<class Lambda, int=(Lambda{}(), 0)>
    constexpr bool is_constexpr(Lambda) { return true; }
    constexpr bool is_constexpr(...) { return false; }

    template <typename base>
    class derived
    {
    // ...

    void execute()
    {
    if constexpr(is_constexpr([]{ base::get_data(); }))
    do_stuff<base::get_data()>();
    else
    do_stuff(base::get_data());
    }
    }






    share|improve this answer














    share|improve this answer



    share|improve this answer








    edited 1 hour ago

























    answered 2 hours ago









    cpplearnercpplearner

    5,39722341




    5,39722341













    • Intriguing solution... this way you get the same result of my custom type traits but more synthetically and, above all, the exact expression verified (base::get_data()) is embedded in the argument and not hard-coded as in my solution. Very nice. I have to remember it.

      – max66
      39 mins ago





















    • Intriguing solution... this way you get the same result of my custom type traits but more synthetically and, above all, the exact expression verified (base::get_data()) is embedded in the argument and not hard-coded as in my solution. Very nice. I have to remember it.

      – max66
      39 mins ago



















    Intriguing solution... this way you get the same result of my custom type traits but more synthetically and, above all, the exact expression verified (base::get_data()) is embedded in the argument and not hard-coded as in my solution. Very nice. I have to remember it.

    – max66
    39 mins ago







    Intriguing solution... this way you get the same result of my custom type traits but more synthetically and, above all, the exact expression verified (base::get_data()) is embedded in the argument and not hard-coded as in my solution. Very nice. I have to remember it.

    – max66
    39 mins ago













    2














    template<auto> struct require_constant;
    template<class T>
    concept has_constexpr_data = requires { typename require_constant<T::get_data()>; };


    This is basically what's used by std::ranges::split_view.






    share|improve this answer




























      2














      template<auto> struct require_constant;
      template<class T>
      concept has_constexpr_data = requires { typename require_constant<T::get_data()>; };


      This is basically what's used by std::ranges::split_view.






      share|improve this answer


























        2












        2








        2







        template<auto> struct require_constant;
        template<class T>
        concept has_constexpr_data = requires { typename require_constant<T::get_data()>; };


        This is basically what's used by std::ranges::split_view.






        share|improve this answer













        template<auto> struct require_constant;
        template<class T>
        concept has_constexpr_data = requires { typename require_constant<T::get_data()>; };


        This is basically what's used by std::ranges::split_view.







        share|improve this answer












        share|improve this answer



        share|improve this answer










        answered 3 hours ago









        cpplearnercpplearner

        5,39722341




        5,39722341






























            draft saved

            draft discarded




















































            Thanks for contributing an answer to Stack Overflow!


            • Please be sure to answer the question. Provide details and share your research!

            But avoid



            • Asking for help, clarification, or responding to other answers.

            • Making statements based on opinion; back them up with references or personal experience.


            To learn more, see our tips on writing great answers.




            draft saved


            draft discarded














            StackExchange.ready(
            function () {
            StackExchange.openid.initPostLogin('.new-post-login', 'https%3a%2f%2fstackoverflow.com%2fquestions%2f55288555%2fc-check-if-statement-can-be-evaluated-constexpr%23new-answer', 'question_page');
            }
            );

            Post as a guest















            Required, but never shown





















































            Required, but never shown














            Required, but never shown












            Required, but never shown







            Required, but never shown

































            Required, but never shown














            Required, but never shown












            Required, but never shown







            Required, but never shown







            Popular posts from this blog

            Anexo:Material bélico de la Fuerza Aérea de Chile Índice Aeronaves Defensa...

            Always On Availability groups resolving state after failover - Remote harden of transaction...

            update json value to null Announcing the arrival of Valued Associate #679: Cesar Manara ...