In https://github.com/stlab/libraries/blob/main/stlab/concurrency/main_executor.hpp, I read

struct main_executor_type {
    using result_type = void;

    template <typename F>
    void operator()(F f) const {
        using f_t = decltype(f);

        dispatch_async_f(dispatch_get_main_queue(), new f_t(std::move(f)), [](void* f_) {
            auto f = static_cast<f_t*>(f_);
            delete f;

What is the point of the decltype(f), why no simply use F?


2 Answers 2


It depends, since there're some cases leading to different effect between F and decltype(f).

For example, F could be specified explicitly as array or function type, and the type of function parameter will be adjusted to pointer. Then F and decltype(f) give different result.

template <typename F> // suppose F is specified as array of T or function type F
void operator()(F f) const {
    using f_t = decltype(f); // f_t will be pointer to T or pointer to F
  • So why not std::decay?
    – iBug
    Jun 23 at 17:52
  • @iBug std::decay removes cv-qualifiers then leads to another different effect. Jun 24 at 1:17

I cannot see any useful scenario for this particular code example (please correct me if I'm wrong), but it would look differently if the parameter would have been declared as cv-qualified, e.g. const F f. Then, using f_t = decltype(f); would evaluate to const F, while using f_t = F; would remove cv qualifiers and evaluate to F.

Consider the following minimalistic example for better understanding:

#include <type_traits>

template <typename T>
void foo(const T t) {
    using X = decltype(t);
    static_assert(std::is_const_v<X>); // will fail if using X = T;

int main() {
    const int a = 123;
    foo(a); // T will be deduced to int, i.e. cv qualifiers are removed

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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