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Taking Rust for a Test Drive. Fun so far, but I'm uncertain how to set up trait bounds in this instance to do something useful.

Failed to find an implementation of trait serialize::serialize::Encodable,std::io::IoError> for T

It seems to me that I need to set up a bound on the enumeration List<T: Encodable>. However, the compiler gets a bit upset when I try this.

error: trait bounds are not allowed in enumeration definitions

So I assumed that I would have to put the bounds on the implementation impl<T:Encodable>, but got this...

error: wrong number of type arguments: expected 2 but found 0

If that's the case, how would I do something like this in Rust?

extern crate serialize;
use serialize::{ json, Encodable };

#[deriving(Decodable, Encodable)] 
pub enum List<T> {
    Node(T, Box<List<T>>),
    Nil
}

impl<T> List<T> {
fn to_json(&self) -> String {
    json::Encoder::str_encode(self)
}
}

Seems to work fine when I work don't try to encapsulate the encoding, since it knows that int is encodable...

let mut list: List<int> = Nil;
...
let encoded_string = json::Encoder::str_encode(&list);
println!("{}", encoded_string);
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1 Answer 1

up vote 3 down vote accepted

At present, bounds cannot be placed on structs and enums. This may change, but until then, the impl is the place you define those constraints.

Let’s look at the definition of the trait: Encodable<S: Encoder<E>, E>. S and E are the things it is complaining about, wanting you to define them.

Now let’s take a look at what #[deriving(Encodable)] does, by compiling the code with rustc --pretty expanded, which expands that attribute.

#![feature(phase)]
#![no_std]
#![feature(globs)]
#[phase(plugin, link)]
extern crate std = "std#0.11.0-pre";
extern crate native = "native#0.11.0-pre";
extern crate serialize;
use std::prelude::*;
use serialize::{json, Encodable};

pub enum List<T> { Node(T, Box<List<T>>), Nil, }
#[automatically_derived]
impl <__S: ::serialize::Encoder<__E>, __E,
      T: ::serialize::Encodable<__S, __E>> ::serialize::Encodable<__S, __E>
     for List<T> {
    fn encode(&self, __arg_0: &mut __S) -> ::std::result::Result<(), __E> {
        match *self {
            Node(ref __self_0, ref __self_1) => {
                let _e = __arg_0;
                _e.emit_enum("List",
                             |_e|
                                 _e.emit_enum_variant("Node", 0u, 2u, |_e| {
                                                      match _e.emit_enum_variant_arg(0u,
                                                                                     |_e|
                                                                                         (*__self_0).encode(_e))
                                                          {
                                                          Ok(__try_var) =>
                                                          __try_var,
                                                          Err(__try_var) =>
                                                          return Err(__try_var)
                                                      };
                                                      return _e.emit_enum_variant_arg(1u,
                                                                                      |_e|
                                                                                          (*__self_1).encode(_e));
                                                  }))
            },
            Nil => {
                let _e = __arg_0;
                _e.emit_enum("List",
                             |_e|
                                 _e.emit_enum_variant("Nil", 1u, 0u, |_e| {
                                                      return ::std::result::Ok(());
                                                  }))
            }
        }
    }
}
#[automatically_derived]
impl <__D: ::serialize::Decoder<__E>, __E,
      T: ::serialize::Decodable<__D, __E>> ::serialize::Decodable<__D, __E>
     for List<T> {
    fn decode(__arg_0: &mut __D) -> ::std::result::Result<List<T>, __E> {
        __arg_0.read_enum("List",
                          |_d|
                              _d.read_enum_variant(["Node", "Nil"],
                                                   |_d, i|
                                                       ::std::result::Ok(match i
                                                                             {
                                                                             0u
                                                                             =>
                                                                             Node(match _d.read_enum_variant_arg(0u,
                                                                                                                 |_d|
                                                                                                                     ::serialize::Decodable::decode(_d))
                                                                                      {
                                                                                      Ok(__try_var)
                                                                                      =>
                                                                                      __try_var,
                                                                                      Err(__try_var)
                                                                                      =>
                                                                                      return Err(__try_var)
                                                                                  },
                                                                                  match _d.read_enum_variant_arg(1u,
                                                                                                                 |_d|
                                                                                                                     ::serialize::Decodable::decode(_d))
                                                                                      {
                                                                                      Ok(__try_var)
                                                                                      =>
                                                                                      __try_var,
                                                                                      Err(__try_var)
                                                                                      =>
                                                                                      return Err(__try_var)
                                                                                  }),
                                                                             1u
                                                                             =>
                                                                             Nil,
                                                                             _
                                                                             =>
                                                                             ::std::rt::begin_unwind("internal error: entered unreachable code",
                                                                                                     "s.rs",
                                                                                                     4u)
                                                                         })))
    }
}

impl <T> List<T> {
    fn to_json(&self) -> String { json::Encoder::str_encode(self) }
}

Yes, this is messy. But it shows the Encodable implementation and the bounds that are being written. Basically, the constraints are expected to be written by you in the same way: you don’t care about any specific types, just that you have an encoder. This, then, is what it boils down to:

impl<S: Encoder<E>, E, T: Encodable<S, E>> Encodable<S, E> for List<T> {
    fn encode(&self, encoder: &mut S) -> Result<(), E> {
        …
    }
}
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