I thought awaits were syntactic sugar for future.then() or something
I mean, the caller of tcp_reader() will get a future and either do .get() or chain a continuation through .then(). What is the difference if tcp_reader() blocks after the first await?
Why not? The call to tcp_reader will return immediately and provide a future
The computation will run asynchronously from the caller
@StackedCrooked Yes, that's the one which puzzles me: since there is already an await before, the function will return a future and it should not matter if the loop blocks - at least in my current (mis)understanding
@CatPlusPlus But is that a regular yield? I mean, clients of tcp_reader() aren't going to call tcp_reader() several times and expect it to resume from the last await point.
Because a temporary is not const and the deduction gives you a non-const object.
<Griwes> { foo(1); } template<typename T> void foo(T &) { BARK; }
<geordi> error: invalid initialization of non-const reference of type 'int&' from an rvalue of type 'int'
<Griwes> { const int i = 1; foo(i); } template<typename T> void foo(T &) { BARK; }
<geordi> foo(const int&)
having template deduction fail in a case where it's very clear what the language should do and non-template code behaves in that exact way is pretty pointless.
@Puppy I think this is a different situation. Deducing const in order to bind to a different value category is not the same thing as deducing const because the argument is const.
It deduces const when the thing being pattern matched is const, not when the programmer wants it to deduce const. If it did that, we wouldn't need the language, because the compilers would already be able to read your fucking mind.
The point is that deduction of const currently works based on whether the argument is const, not whether the argument can be bound to a const&. It's just a different logic.
If your function doesn't take sinks, then const T & to grab everything you need (for the sheer easiness of passing those around) is perfectly reasonable.
since the result of all(int32) is a variant of types, then I intend that the compiler will stamp out an overload for each type in the variant, effectively.
