How to map a parametrized enum from a generic type to another?

Question

If I have a type like MyEnum<T>, how can I map it in cases where not every variant is parameterized?

For example, I'd like to convert from MyEnum<u32> to MyEnum<String>:

enum MyEnum<T> {
    B,
    C,
    D(T),
}

fn trans(a: MyEnum<u32>) -> MyEnum<String> {
    match a {
        MyEnum::D(i) => MyEnum::D(i.to_string()),
        other_cases => other_cases,
    }
}

fn main() {}

This fails with:

error[E0308]: match arms have incompatible types
  --> src/main.rs:8:9
   |
8  |         match a {
   |         ^ expected struct `std::string::String`, found u32
   |
   = note: expected type `MyEnum<std::string::String>`
   = note:    found type `MyEnum<u32>`
note: match arm with an incompatible type
  --> src/main.rs:10:28
   |
10 |             other_cases => other_cases,
   |                            ^^^^^^^^^^^

Instead of the other_cases => other_cases line, I tried this, also without success:

other_cases => {
    let o: MyEnum<String> = other_cases;
    o
}

Answer 1

I'd create a map method on your enum:

#[derive(Debug)]
enum MyEnum<T> {
    B,
    C,
    D(T),
}

impl<T> MyEnum<T> {
    fn map<U>(self, f: impl FnOnce(T) -> U) -> MyEnum<U> {
        use MyEnum::*;

        match self {
            B => B,
            C => C,
            D(x) => D(f(x)),
        }
    }
}

fn main() {
    let answer = MyEnum::D(42);
    let answer2 = answer.map(|x| x.to_string());
    println!("{:?}", answer2);
}

This is similar to existing map methods, such as Option::map.

Answer 2

Well, this is actually an answer:

enum MyEnum<T> {
    B,
    C,
    D(T),
}

fn trans(a: MyEnum<u32>) -> MyEnum<String> {
    match a {
        MyEnum::D(i) => MyEnum::D(i.to_string()),
        MyEnum::B => MyEnum::B,
        MyEnum::C => MyEnum::C
    }
}

fn main() {
}

But repeating all variants isn't acceptable when there's a lot of them..

Answer 3

Some languages (like C++), use Duck Typing: if it quacks like a duck, it must be a duck, and therefore names matter. Rust does not.

In Rust, names are just some display utility for us mere humans, the B in MyEnum<u32> and MyEnum<String> may happen to have the same visual representation, but they are completely different syntactic entities as far as the language is concerned.

---

There are multiple ways to alleviate your pain, though:

• a code generation plugin or build.rs script can be used as well
• a macro can be used to automate the mapping
• a manual mapping can be done, it's a one shot effort after all
• the code can be restructured to separate type-dependent from type-independent variants

I'll show-case the latter:

enum MyEnumImpl {
    A,
    B,
    C,
}

enum MyEnum<T> {
    Independent(MyEnumImpl),
    Dependent(T),
}

Obviously, the latter makes it much easier to manually map things.

Answer 4

macro_rules! partial_enum {
    ($name: ident, $some: ident, $($none: ident),+) => {
        #[derive(Debug)]
        enum $name<T> {
            $some(T),
            $($none),+
        }
        impl<T> $name<T> {
            fn convert<U>(self) -> Result<$name<U>, T> {
                match self {
                    $name::$some(x) => Err(x),
                    $($name::$none => Ok($name::$none)),+
                }
            }
        }
    }
}
partial_enum!(MyEnum, D, B, C);
fn trans(a: MyEnum<u32>) -> MyEnum<String> {
    let a_split: Result<MyEnum<String>, u32> = a.convert();
    match a_split {
        Ok(is_none) => is_none,
        Err(not_none) => MyEnum::D(not_none.to_string()),
    }
}
fn main() {
    println!("{:?}", trans(MyEnum::D(13)));
}