# boolenum
`BoolEnum` is a derive macro to create ergonomic boolean enums with less boilerplate.
It generates `From<bool>`, `Into<bool>` and `Not` impls for your enum.
```rust
use boolenum::BoolEnum;
// Variant names can be Yes and No (in any order) ...
#[derive(BoolEnum)]
enum UseColors {
No,
Yes,
}
// or True and False
#[derive(BoolEnum)]
enum ShowExpired {
True,
False,
}
fn print_things(use_colors: UseColors, show_expired: ShowExpired) {
if use_colors.into() { // Into<bool>
// ...
}
}
fn main() {
print_things(UseColors::Yes, ShowExpired::False)
}
```
Boolean enums are useful for differentiating between boolean arguments to a function,
so you can write something like `encode(&bytes, Encrypt::Yes, Compress::No)` instead of `encode(&bytes, true, false)`.
Goes well with [structopt](https://crates.io/crates/structopt), for type-safe handling of command-line flags:
```rust
use boolenum::BoolEnum;
use structopt::StructOpt;
#[derive(BoolEnum)]
enum Verbose { No, Yes }
#[derive(BoolEnum)]
enum Colors { No, Yes }
#[derive(StructOpt)]
struct Opt {
#[structopt(short, long, parse(from_flag))]
verbose: Verbose, // works because Verbose implements From<bool>
#[structopt(short, long, parse(from_flag))]
colors: Colors,
}
fn main() {
let opt = Opt::from_args();
do_thing(opt.verbose, opt.colors);
}
fn do_thing(verbose: Verbose, colors: Colors) {
if verbose.into() { }
if colors.into() { }
}
```
`BoolEnum` works on enums with two unit variants, named either Yes and No, or True and False. The order of the variants in the enum doesn't matter.
License: MIT OR Apache-2.0