Macro that wraps an arbitrary number of types

Question

Is it possible to write a macro that defines an enum which wraps an arbitrary number of (distinct) input types? I'd like to do a kind of type-level match.

type_switch!(i32 => println!("integer"), f32 => println!("float"), Foo => println!("foo"))

This would expand to:

{
    enum Wrapper {
        Variant1(i32),
        Variant2(f32),
        Variant3(Foo),
    }

    // impl From<i32>, From<f32>, From<Foo> for Wrapper

    |x: Wrapper| match x {
        Wrapper::Variant1(x) => println!("integer"),
        Wrapper::Variant2(x) => println!("float"),
        Wrapper::Variant3(x) => println!("foo"),
    }
}

so that I can write like

let switch = type_switch!(i32 => println!("integer"), f32 => println!("float"), Foo => println!("foo"));
switch(32.into()); // prints "integer"
switch(24.0.into()); // prints "float"

Answer 1

Define a trait within your macro and implement it for each type:

macro_rules! type_switch {
    ($($ty: ty => $expr: expr),+) => {{
        trait TypeMatch {
            fn type_match(self);
        }
        $(
            impl TypeMatch for $ty {
                fn type_match(self) {
                    $expr
                }
            }
        )+
        TypeMatch::type_match
    }}
}

Notice that the first time you call the function the compiler will bind the type so that subsequent calls must be the same type:

struct Foo;

fn main() {
    let s = type_switch! {
        i32 => { println!("i32"); },
        f32 => { println!("f32"); },
        Foo => { println!("Foo"); }
    };

    s(0);
    s(Foo); // Error!
}

If you need to be able to call it with different types, this can be fixed (at a small cost) by using a trait object for dynamic dispatch:

macro_rules! type_switch {
    ($($ty: ty => $expr: expr),+) => {{
        trait TypeMatch {
            fn type_match(&self);
        }
        $(
            impl TypeMatch for $ty {
                fn type_match(&self) {
                    $expr
                }
            }
        )+
        |value: &dyn TypeMatch| {
            value.type_match()
        }
    }}
}

struct Foo;

fn main() {
    let s = type_switch! {
        i32 => { println!("i32"); },
        f32 => { println!("f32"); },
        Foo => { println!("Foo"); }
    };

    s(&0);
    s(&Foo);
}

Also notice that you have to pass references instead of values.

Answer 2

It can make sense to write wrapper types as you have proposed, but only if the type is needed in larger parts of your code.

Your specific example would define a new enum every time you use the macro, move the value into the new enum and then immediately throw it away.

That's not a idiomatic approach and if that is indeed your imagined use I'd recommend looking for different options.

That said, I have used wrapper types on a number of occasions.

Something like this will work for declaring a wrapper:

macro_rules! declare_wrapper {
  (
    $enum_name:ident {
      $( $variant_name:ident( $typ:ty : $description:expr ) ),*
    }
  )=> {
    pub enum $enum_name {
      $(
        $variant_name($typ),
      )*
    }

    $(
      impl From<$typ> for $enum_name {
        fn from(value: $typ) -> Self {
          $enum_name::$variant_name(value)
        }
      }
    )*

    impl $enum_name {
      fn describe(&self) -> &'static str {
        match self {
          $(
            &$enum_name::$variant_name(_) => $description,
          )*
        }
      }
    }
  };
}

declare_wrapper!( MyWrapper {
  MyInt(i64 : "int"),
  MyString(String : "string")
});

fn main() {
  let value = MyWrapper::from(22);
  println!("{}", value.describe());
}

You can also extend this to add additional methods or trait impls that you need. I've done similar things quite often.