As I understand, std::invoke allows me to do something like:

std::invoke(f, arg1, arg2, ...);

Is there a scenario when it's more advantageous than simply doing:

f(arg1, arg2, ...);

If the invocable is a pointer to a member function, then you need to do one of these:


Depending on what arg1 is.

INVOKE (and its official library counterpart std::invoke) was pretty much designed to simplify such messes.

You'd use std::invoke to support the caller of your code passing any callable, and not having to adapt their call site with a lambda or a call to std::bind.

  • Nice, I see. I guess that also mean that without invoke I will need different code for a member function and a free function. Is that right? – Elad Weiss Sep 24 '17 at 9:27
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    @EladWeiss - Yup. We either had to write a bunch of specializations or re-implement INVOKE ourselves (and imagine supporting smart pointers as well, yikes). The new utility is a library writers tool. – StoryTeller - Unslander Monica Sep 24 '17 at 9:29
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    @EladWeiss Have a look at a sample implementation of std::invoke and then be grateful that you don't have to write that yourself :P – Rakete1111 Sep 24 '17 at 9:30
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    @Rakete1111 now imagine how would that look if if constexpr was not avaliable. – Revolver_Ocelot Sep 24 '17 at 9:53
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    @Rakete1111 Note that we cheated with that implementation by assuming the availability of invoke_result_t and is_nothrow_invocable; the former is particular crucial for making invoke SFINAE-friendly. In practice, these would likely be powered by the same underlying machinery, which would need to be more complex. @StoryTeller correct. – T.C. Sep 24 '17 at 10:28

std::invoke can be useful when you create a lambda and need to call it immediately. It the lambda is big, parentheses after it can be hard to observe:

[] (/* args */) {
    // many lines here
    // ...
} (/* args */)


    [] (/* args */) {
        // many lines here
        // ...
    /* args */);
#include <iostream>
#include <functional>
template< class Callable, typename ... Args>{}

    //f(args...);   // if arg1 is a class object pointer 
                    // we should use it like this(arg1.*f)(args...); 

    std::invoke(f, args...); //  now  every thing is ok

void foo(char c) {
    std::cout << "foo called\n";

int main()
    struct S {
        int f1(char c) {
            std::cout << "S::f1 called\n";
        void operator()(char c) {
            std::cout << "S::operator() called\n";
    int (S:: * fptr)(char c) = &S::f1;
    S  obj;

    dosomething(fptr, obj, 'a');
    return 0;

  • 2
    Please explain your answer – MrMaavin Oct 28 '20 at 10:02

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