| commit | 653dee90032273a68657d28b7e3057cb1bffc37f | [log] [tgz] |
|---|---|---|
| author | Jeff Vander Stoep <jeffv@google.com> | Mon Jan 30 11:22:03 2023 +0100 |
| committer | Jeff Vander Stoep <jeffv@google.com> | Mon Jan 30 11:22:03 2023 +0100 |
| tree | 40546d683ff7046ec9c7b520dc502d70426fd684 | |
| parent | 844b809b54f5c90bf640665914d7bf480c522eed [diff] |
Update TEST_MAPPING Test: atest Change-Id: I571f95cf60d02ba7ef6dbb708cd7d746ad202585
This crate provides a derive macro to generate a function for converting a primitive integer into the corresponding variant of an enum.
The generated function is named n and has the following signature:
impl YourEnum { pub fn n(value: Repr) -> Option<Self>; }
where Repr is an integer type of the right size as described in more detail below.
use enumn::N; #[derive(PartialEq, Debug, N)] enum Status { LegendaryTriumph, QualifiedSuccess, FortuitousRevival, IndeterminateStalemate, RecoverableSetback, DireMisadventure, AbjectFailure, } fn main() { let s = Status::n(1); assert_eq!(s, Some(Status::QualifiedSuccess)); let s = Status::n(9); assert_eq!(s, None); }
The generated signature depends on whether the enum has a #[repr(..)] attribute. If a repr is specified, the input to n will be required to be of that type.
#[derive(enumn::N)] #[repr(u8)] enum E { /* ... */ } // expands to: impl E { pub fn n(value: u8) -> Option<Self> { /* ... */ } }
On the other hand if no repr is specified then we get a signature that is generic over a variety of possible types.
impl E { pub fn n<REPR: Into<i64>>(value: REPR) -> Option<Self> { /* ... */ } }
The conversion respects explictly specified enum discriminants. Consider this enum:
#[derive(enumn::N)] enum Letter { A = 65, B = 66, }
Here Letter::n(65) would return Some(Letter::A).