# How do I match enum values with an integer?

I can get an integer value of an enums like this:

``````enum MyEnum {
A = 1,
B,
C,
}

let x = MyEnum::C as i32;
``````

but I can't seem to do this:

``````match x {
MyEnum::A => {}
MyEnum::B => {}
MyEnum::C => {}
_ => {}
}
``````

How can I either match against the values of the enum or try to convert `x` back to a `MyEnum`?

I can see a function like this being useful for enums, but it probably doesn't exist:

``````impl MyEnum {
fn from<T>(val: &T) -> Option<MyEnum>;
}
``````
• You may also want to explain why you want to do this. I'd suggest that you keep things as a enum throughout, and maybe have a parse step that converts back if if really need it. – Shepmaster Jan 19 '15 at 16:19
• C error codes: I'm calling a C function which may return an error as an integer. I want my error codes to be compatible. I could of course use an enum handling each specifically, but that's extra code. – dhardy Jan 20 '15 at 9:26
• On second thoughts, adapting `MyEnum` to `enum MyEnum { A = 1, B, C, Other(i32) }` is probably a better solution for my problem. I'll leave the original question up for other users, however (I have certainly wanted to do this before, whether out of bad habits or lack of good alternatives I do not know). – dhardy Jan 20 '15 at 11:26
• Make that something like `enum Codes { A = 1, B, C }; enum MyEnum { Code(Codes), Other(i32) };`. – dhardy Jan 20 '15 at 11:34

You can derive `FromPrimitive`. Using Rust 2018 simplified imports syntax:

``````use num_derive::FromPrimitive;
use num_traits::FromPrimitive;

#[derive(FromPrimitive)]
enum MyEnum {
A = 1,
B,
C,
}

fn main() {
let x = 2;

match FromPrimitive::from_i32(x) {
Some(MyEnum::A) => println!("Got A"),
Some(MyEnum::B) => println!("Got B"),
Some(MyEnum::C) => println!("Got C"),
None            => println!("Couldn't convert {}", x),
}
}
``````

In your `Cargo.toml`:

``````[dependencies]
num-traits = "0.2"
num-derive = "0.2"
``````

More details in num-derive crate, see esp. sample uses in tests.

You can take advantage of match guards to write an equivalent, but clunkier, construction:

``````match x {
x if x == MyEnum::A as i32 => ...,
x if x == MyEnum::B as i32 => ...,
x if x == MyEnum::C as i32 => ...,
_ => ...
}
``````

`std::mem::transmute` can also be used:

``````let y: MyEnum = unsafe { transmute(x as i8) };
``````

But this requires that you know the size of the enum, so you can cast to an appropriate scalar first, and will also produce undefined behavior if `x` is not a valid value for the enum.

• Match-guards is a good last-resort idea. Assuming a representation of the enum in memory is however something I really don't want to do — it could well break with some new Rust version. Avoiding unsafe code is the biggest reason for using Rust in the first place! – dhardy Jan 20 '15 at 9:29
• I'd probably do this and wrap it up as a method on `MyEnum`. Then you can call `MyEnum::from_integer` or whatever. – Shepmaster Feb 20 '15 at 22:13

`std::num::FromPrimitive` is marked as unstable and will not be included in Rust 1.0. As a workaround, I wrote the `enum_primitive` crate, which exports a macro `enum_from_primitive!` that wraps an `enum` declaration and automatically adds an implementation of `num::FromPrimitive` (from the `num` crate). Example:

``````#[macro_use]
extern crate enum_primitive;
extern crate num;

use num::FromPrimitive;

enum_from_primitive! {
#[derive(Debug, PartialEq)]
enum FooBar {
Foo = 17,
Bar = 42,
Baz,
}
}

fn main() {
assert_eq!(FooBar::from_i32(17), Some(FooBar::Foo));
assert_eq!(FooBar::from_i32(42), Some(FooBar::Bar));
assert_eq!(FooBar::from_i32(43), Some(FooBar::Baz));
assert_eq!(FooBar::from_i32(91), None);
}
``````

If you're sure the values of the integer are included in the enum, you can use `std::mem::transmute`.

This should be used with `#[repr(..)]` to control the underlying type.

Complete Example:

``````#[repr(i32)]
enum MyEnum {
A = 1, B, C
}

fn main() {
let x = MyEnum::C;
let y = x as i32;
let z: MyEnum = unsafe { ::std::mem::transmute(y) };

// match the enum that came from an int
match z {
MyEnum::A => { println!("Found A"); }
MyEnum::B => { println!("Found B"); }
MyEnum::C => { println!("Found C"); }
}
}
``````

Note that unlike some of the other answers, this only requires Rust's standard library.

• This answer already mentions `transmute` and only requires the standard library. Seems like this answer should just be a comment on that answer to recommend using `repr`. – Shepmaster Feb 22 '17 at 3:33
• @Shepmaster, I considered editing or suggesting edits to the other answer. But think it would have made it into a different answer. Whatever the case, I don't mind if this answer is copy-pasted into another, it just seems a bit odd to do so. – ideasman42 Feb 22 '17 at 3:58
• Using an unsafe function to do something as simple as this seems like a very bad practice... – Sean Burton Aug 19 '17 at 12:18
• @sean-burton - agree you wouldn't want your code riddled with unsafe transmute, OTOH - if your interfacing a C library, you don't always have an option besides writing some lookup table which is tedious, needs to be kept in sync and possibly introduces human error. So AFAICS this is the lesser of two evils. – ideasman42 Aug 19 '17 at 13:35

Since Rust 1.34, I recommend implementing `TryFrom`:

``````use std::convert::TryFrom;

impl TryFrom<i32> for MyEnum {
type Error = ();

fn try_from(v: i32) -> Result<Self, Self::Error> {
match v {
x if x == MyEnum::A as i32 => Ok(MyEnum::A),
x if x == MyEnum::B as i32 => Ok(MyEnum::B),
x if x == MyEnum::C as i32 => Ok(MyEnum::C),
_ => Err(()),
}
}
}
``````

Then you can use `TryInto` and handle the possible error:

``````use std::convert::TryInto;

fn main() {
let x = MyEnum::C as i32;

match x.try_into() {
Ok(MyEnum::A) => println!("a"),
Ok(MyEnum::B) => println!("b"),
Ok(MyEnum::C) => println!("c"),
Err(_) => eprintln!("unknown number"),
}
}
``````

I wrote a simple macro which converts the numerical value back to the enum:

``````macro_rules! num_to_enum {
(\$num:expr => \$enm:ident<\$tpe:ty>{ \$(\$fld:ident),+ }; \$err:expr) => ({
match \$num {
\$(_ if \$num == \$enm::\$fld as \$tpe => { \$enm::\$fld })+
_ => \$err
}
});
}
``````

You can use it like this:

``````#[repr(u8)] #[derive(Debug, PartialEq)]
enum MyEnum {
Value1 = 1,
Value2 = 2
}

fn main() {
let num = 1u8;
let enm: MyEnum = num_to_enum!(
num => MyEnum<u8>{ Value1, Value2 };
panic!("Cannot convert number to `MyEnum`")
);
println!("`enm`: {:?}", enm);
}
``````

If the integer you are matching on is based on the order of the variants of the enum, you can use strum to generate an iterator of the enum variants and take the correct one:

``````#[macro_use]
extern crate strum_macros; // 0.9.0
extern crate strum;        // 0.9.0

use strum::IntoEnumIterator;

#[derive(Debug, PartialEq, EnumIter)]
enum MyEnum {
A = 1,
B,
C,
}

fn main() {
let e = MyEnum::iter().nth(2);
assert_eq!(e, Some(MyEnum::C));
}
``````