Crate enum_ordinalize

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§Enum Ordinalize

This library enables enums to not only obtain the ordinal values of their variants but also allows for the construction of enums from an ordinal value.

§Usage

Use #[derive(Ordinalize)] to have an enum (which must only has unit variants) implement the Ordinalize trait.

use enum_ordinalize::Ordinalize;

#[derive(Debug, PartialEq, Eq, Ordinalize)]
enum MyEnum {
    Zero,
    One,
    Two,
}

assert_eq!(3, MyEnum::VARIANT_COUNT);
assert_eq!([MyEnum::Zero, MyEnum::One, MyEnum::Two], MyEnum::VARIANTS);
assert_eq!([0i8, 1i8, 2i8], MyEnum::VALUES);

assert_eq!(0i8, MyEnum::Zero.ordinal());
assert_eq!(1i8, MyEnum::One.ordinal());
assert_eq!(2i8, MyEnum::Two.ordinal());

assert_eq!(Some(MyEnum::Zero), MyEnum::from_ordinal(0i8));
assert_eq!(Some(MyEnum::One), MyEnum::from_ordinal(1i8));
assert_eq!(Some(MyEnum::Two), MyEnum::from_ordinal(2i8));

assert_eq!(MyEnum::Zero, unsafe { MyEnum::from_ordinal_unsafe(0i8) });
assert_eq!(MyEnum::One, unsafe { MyEnum::from_ordinal_unsafe(1i8) });
assert_eq!(MyEnum::Two, unsafe { MyEnum::from_ordinal_unsafe(2i8) });
§The (Ordinal) Size of an Enum

The ordinal value is an integer whose size is determined by the enum itself. The size of the enum increases with the magnitude of the variants’ values, whether larger (or smaller if negative).

For example,

use enum_ordinalize::Ordinalize;

#[derive(Debug, PartialEq, Eq, Ordinalize)]
enum MyEnum {
    Zero,
    One,
    Two,
    Thousand = 1000,
}

assert_eq!(4, MyEnum::VARIANT_COUNT);
assert_eq!([MyEnum::Zero, MyEnum::One, MyEnum::Two, MyEnum::Thousand], MyEnum::VARIANTS);
assert_eq!([0i16, 1i16, 2i16, 1000i16], MyEnum::VALUES);

assert_eq!(0i16, MyEnum::Zero.ordinal());
assert_eq!(1i16, MyEnum::One.ordinal());
assert_eq!(2i16, MyEnum::Two.ordinal());

assert_eq!(Some(MyEnum::Zero), MyEnum::from_ordinal(0i16));
assert_eq!(Some(MyEnum::One), MyEnum::from_ordinal(1i16));
assert_eq!(Some(MyEnum::Two), MyEnum::from_ordinal(2i16));

assert_eq!(MyEnum::Zero, unsafe { MyEnum::from_ordinal_unsafe(0i16) });
assert_eq!(MyEnum::One, unsafe { MyEnum::from_ordinal_unsafe(1i16) });
assert_eq!(MyEnum::Two, unsafe { MyEnum::from_ordinal_unsafe(2i16) });

In order to accommodate the value 1000, the size of MyEnum increases. Consequently, the ordinal is represented in i16 instead of i8.

You can utilize the #[repr(type)] attribute to explicitly control the size. For instance,

use enum_ordinalize::Ordinalize;

#[derive(Debug, PartialEq, Eq, Ordinalize)]
#[repr(usize)]
enum MyEnum {
    Zero,
    One,
    Two,
    Thousand = 1000,
}

assert_eq!(4, MyEnum::VARIANT_COUNT);
assert_eq!([MyEnum::Zero, MyEnum::One, MyEnum::Two, MyEnum::Thousand], MyEnum::VARIANTS);
assert_eq!([0usize, 1usize, 2usize, 1000usize], MyEnum::VALUES);

assert_eq!(0usize, MyEnum::Zero.ordinal());
assert_eq!(1usize, MyEnum::One.ordinal());
assert_eq!(2usize, MyEnum::Two.ordinal());

assert_eq!(Some(MyEnum::Zero), MyEnum::from_ordinal(0usize));
assert_eq!(Some(MyEnum::One), MyEnum::from_ordinal(1usize));
assert_eq!(Some(MyEnum::Two), MyEnum::from_ordinal(2usize));

assert_eq!(MyEnum::Zero, unsafe { MyEnum::from_ordinal_unsafe(0usize) });
assert_eq!(MyEnum::One, unsafe { MyEnum::from_ordinal_unsafe(1usize) });
assert_eq!(MyEnum::Two, unsafe { MyEnum::from_ordinal_unsafe(2usize) });
§Useful Increment

The integers represented by variants can be extended in successive increments and set explicitly from any value.

use enum_ordinalize::Ordinalize;

#[derive(Debug, PartialEq, Eq, Ordinalize)]
enum MyEnum {
    Two   = 2,
    Three,
    Four,
    Eight = 8,
    Nine,
    NegativeTen = -10,
    NegativeNine,
}

assert_eq!(7, MyEnum::VARIANT_COUNT);
assert_eq!([MyEnum::Two, MyEnum::Three, MyEnum::Four, MyEnum::Eight, MyEnum::Nine, MyEnum::NegativeTen, MyEnum::NegativeNine], MyEnum::VARIANTS);
assert_eq!([2i8, 3i8, 4i8, 8i8, 9i8, -10i8, -9i8], MyEnum::VALUES);

assert_eq!(4i8, MyEnum::Four.ordinal());
assert_eq!(9i8, MyEnum::Nine.ordinal());
assert_eq!(-9i8, MyEnum::NegativeNine.ordinal());

assert_eq!(Some(MyEnum::Four), MyEnum::from_ordinal(4i8));
assert_eq!(Some(MyEnum::Nine), MyEnum::from_ordinal(9i8));
assert_eq!(Some(MyEnum::NegativeNine), MyEnum::from_ordinal(-9i8));

assert_eq!(MyEnum::Four, unsafe { MyEnum::from_ordinal_unsafe(4i8) });
assert_eq!(MyEnum::Nine, unsafe { MyEnum::from_ordinal_unsafe(9i8) });
assert_eq!(MyEnum::NegativeNine, unsafe { MyEnum::from_ordinal_unsafe(-9i8) });
§Implement Functionality for an enum on Itself

For some reason, if you don’t want to implement the Ordinalize trait for your enum, you can choose to disable the trait implementation and enable the constants/functions one by one. Functions are const fn. Names and visibility can also be defined by you.

use enum_ordinalize::Ordinalize;

#[derive(Debug, PartialEq, Eq, Ordinalize)]
#[ordinalize(impl_trait = false)]
#[ordinalize(variant_count(pub const VARIANT_COUNT, doc = "The count of variants."))]
#[ordinalize(variants(pub const VARIANTS, doc = "List of this enum's variants."))]
#[ordinalize(values(pub const VALUES, doc = "List of values for all variants of this enum."))]
#[ordinalize(ordinal(pub const fn ordinal, doc = "Retrieve the integer number of this variant."))]
#[ordinalize(from_ordinal(pub const fn from_ordinal, doc = "Obtain a variant based on an integer number."))]
#[ordinalize(from_ordinal_unsafe(
    pub const fn from_ordinal_unsafe,
    doc = "Obtain a variant based on an integer number.",
    doc = "# Safety",
    doc = "You have to ensure that the input integer number can correspond to a variant on your own.",
))]
enum MyEnum {
    A,
    B,
}

assert_eq!(2, MyEnum::VARIANT_COUNT);
assert_eq!([MyEnum::A, MyEnum::B], MyEnum::VARIANTS);
assert_eq!([0i8, 1i8], MyEnum::VALUES);

assert_eq!(0i8, MyEnum::A.ordinal());
assert_eq!(1i8, MyEnum::B.ordinal());

assert_eq!(Some(MyEnum::A), MyEnum::from_ordinal(0i8));
assert_eq!(Some(MyEnum::B), MyEnum::from_ordinal(1i8));

assert_eq!(MyEnum::A, unsafe { MyEnum::from_ordinal_unsafe(0i8) });
assert_eq!(MyEnum::B, unsafe { MyEnum::from_ordinal_unsafe(1i8) });

Derive Macros§