Crate named_func_args

Crate named_func_args 

Source
Expand description

Proc macro to create boilerplate to simulate function with named arguments

Since we cannot have proper functional calls, we might as well use macro to implement it

§Limitations

  • References without lifetime parameter will have explicit lifetime with name 'implicit_lifetime
  • Generics may require explicit ?Sized as struct’s generic parameters always Sized
  • Const generics are attached to actual function struct, even when not used by arguments

§Why?

Just because language lacks basic UX feature, doesn’t mean we should have it.

Even if you have tool X to substitute lack of this feature, it doesn’t mean language has to suck.

Named arguments are important to avoid writing boilerplate code by hand

§Usage

 use named_func_args::named_args;

 #[named_args]
 fn my_func<'a, T, T2: Copy + 'a, T3>(arg: T, arg2: T2, arg3: T3, text: &'a str,) -> &'a str where T3: 'a + Copy {
     text
 }

 let result = my_func {
     arg: true,
     arg2: false,
     arg3: 10u8,
     text: "my_func_call"
 }.call();

 assert_eq!(result, "my_func_call");

§Examples

§Plain function

Just because why not

 use named_func_args::named_args;

 #[named_args]
 fn my_func() {
 }

 my_func.call();

§Multiple arguments of the same type

 use named_func_args::named_args;

 #[named_args]
 fn my_func<'a>(arg1: &'a str, arg2: &str) -> String {
     format!("{arg1}+{arg2}")
 }

 let result = my_func { arg1: "1", arg2: "2" }.call();
 assert_eq!(result, "1+2");

§Multiple generics of the same type

 use named_func_args::named_args;

 use core::fmt;

 #[named_args]
 fn my_func<'a, T: ?Sized + fmt::Display>(arg1: &'a T, arg2: &T) -> String {
     format!("{arg1}+{arg2}")
 }

 let result = my_func { arg1: "1", arg2: "2" }.call();
 assert_eq!(result, "1+2");

§Const generics

 use named_func_args::named_args;

 use core::fmt;

 #[named_args]
 fn my_func<'a, T: ?Sized + fmt::Display + fmt::Debug, const N: usize>(arg1: &'a T, arg2: &[&'a T; N]) -> String {
     format!("{arg1}+{:?}", arg2)
 }

 let result = my_func { arg1: "1", arg2: &["2"] }.call();
 assert_eq!(result, "1+[\"2\"]");

Attribute Macros§

named_args
Creates function wrapper struct that takes arguments with the same name as in function definition and implements method call(self)