I completely agree, but that's not always true and it depends on a whole host of factors, including what's inside the function
it's one of those things you need to profile to evaluate in most cases
also, bear in mind that not every environment has this tradeoff balance. some environments would take a penalty in performance if it means smaller compiled size because that's their real constraint
Let's not underestimate the compiler, though. Making functions generic with parameter types rather than trait objects is a good default until it starts adding up in complexity or bloat.
I'm not arguing with you here, we are on the same page, all I'm saying is, instead of blindly believe/assume what the compiler would do for you -- just make sure it does.
Start implementing your stuff in a way that would be the most idiomatic way
and when you realise the compiler is not capable of doing what you thought it would be
then, and only then, introduce your manual optimisation
I think we are on the same page on this, aren't we?
I have created an enum in which there is a variant of tuple named v4, in main function I need to access all the elements of that tuple one by one.
I have tried to use unwrap function but it gives error that "no method named unwrap found for type Ipaddr in the current scope".
#[derive(Debug)]
en...
@DenysSéguret Extensions to standard mechanisms of the language are not unheard of, though. itertools for extra methods in Iterator, clippy for extra lints, etc.
And if they become mature enough and an RFC is established, they can become part of the language. Having an implementation at hand helps.
Why there is a & symbol before self in the full_name() function but there isn't any in the to_tuple() function? When I look at them, the usage of self is similar in both function, but why use &. Also when I change anything it would throw an error. Can someone explain it?
fn full_name(&self) -> S...