13

I ran into a problem trying to create a generic vector for a struct. This was my first attempt:

#[derive(Serialize)]
struct Card {
    sections: Vec<Section<WidgetTrait>>
}

#[derive(Serialize)]
struct Section<T: WidgetTrait> {
    header: String,
    widgets: Vec<T>
}

This has brought me to an error that Sized is not implemented and WidgetTrait size is not known at compile time.

My next attempt was to use Box<WidgetTrait> like so:

#[derive(Serialize)]
struct Section {
    header: String,
    widgets: Vec<Box<WidgetTrait>>
}

Playground

This has led me to an error:

error[E0277]: the trait bound `WidgetTrait: serde::Serialize` is not satisfied
  --> src/main.rs:11:10
   |
11 | #[derive(Serialize)]
   |          ^^^^^^^^^ the trait `serde::Serialize` is not implemented for `WidgetTrait`
   |
   = note: required because of the requirements on the impl of `serde::Serialize` for `std::boxed::Box<WidgetTrait>`
   = note: required because of the requirements on the impl of `serde::Serialize` for `std::vec::Vec<std::boxed::Box<WidgetTrait>>`
   = note: required by `serde::ser::SerializeStruct::serialize_field`

My goal is for the widgets vector in Section struct to be able to accept different types of widgets that implement WidgetTrait trait, just like you would with an interface.

9
  • 4
    Please, can you provide a minimal reproducible example? Ideally, your code could be copy/pasted into the playground and compile or give the expected error.
    – Boiethios
    Apr 25, 2018 at 12:10
  • Using generics as you have in the Section struct will not allow you to store different Widgets which implement WidgetTrait, because Rust monomorphises generics during compilation. Just FYI, the boxed trait is generally good way to go, or an Rc, depending on your use case
    – jonny
    Apr 25, 2018 at 12:22
  • Added playground link
    – snowbane
    Apr 25, 2018 at 12:25
  • You will need to implement Serialize manually for Section. Even if every WidgetTrait type implements Serialize, that doesn't mean that the type WidgeTrait itself does. In fact there's no way to automatically implement that.
    – Shum
    Apr 25, 2018 at 12:28
  • 1
    Your latest edit does not solve your Problem, it's a complete different approach. Apr 25, 2018 at 15:22

2 Answers 2

9

For serializing Serde trait objects you should use erased-serde.

#[macro_use]
extern crate serde_derive;

#[macro_use]
extern crate erased_serde;

extern crate serde;
extern crate serde_json;

#[derive(Serialize)]
struct Card {
    sections: Vec<Section>,
}

#[derive(Serialize)]
struct Section {
    header: String,
    widgets: Vec<Box<WidgetTrait>>,
}

#[derive(Serialize)]
struct Image {
    image_url: String,
}

#[derive(Serialize)]
struct KeyValue {
    top_label: String,
    content: String,
}

trait WidgetTrait: erased_serde::Serialize {}
impl WidgetTrait for Image {}
impl WidgetTrait for KeyValue {}

serialize_trait_object!(WidgetTrait);

fn main() {
    let card = Card {
        sections: vec![
            Section {
                header: "text".to_owned(),
                widgets: vec![
                    Box::new(Image {
                        image_url: "img".to_owned(),
                    }),
                    Box::new(KeyValue {
                        top_label: "text".to_owned(),
                        content: "text".to_owned(),
                    }),
                ],
            },
        ],
    };

    println!("{}", serde_json::to_string_pretty(&card).unwrap());
}
2

I got around the compiler errors:

#[macro_use]
extern crate serde_derive;
extern crate serde_json;
extern crate serde;

use serde::ser::{Serialize, Serializer, SerializeStruct};

#[derive(Serialize)]
struct Card {
    sections: Vec<Section>
}

#[derive(Serialize)]
struct Section {
    header: String,
    widgets: Vec<Box<WidgetTrait>>
}

#[derive(Serialize)]
struct Image {
    #[serde(rename = "imageUrl")]
    image_url: String
}

#[derive(Serialize)]
struct KeyValue {
    #[serde(rename = "topLabel")]
    top_label: String,

    content: String
}

trait WidgetTrait {}

impl Serialize for WidgetTrait {
    fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
        where S: Serializer {
            let s = serializer.serialize_struct("???", 3)?;

            s.end()
        }
}

impl WidgetTrait for Image {}
impl WidgetTrait for KeyValue {}

fn main() {
    // let test = ResponseMessage { 
    //         text: None, 
    //         cards: Some(
    //             vec![Card { sections: vec![
    //                 Section { header: format!("text"), widgets: vec![ 
    //                     Box::new(Image { image_url: format!("img") }) 
    //                     ]},
    //                 Section { header: format!("text"), widgets: vec![
    //                      Box::new(KeyValue { top_label: format!("text"), content: format!("text") }),
    //                      Box::new(KeyValue { top_label: format!("text"), content: format!("text") })
    //                      ]}
    //                 ]}])
    //         }
}

Playground


Steps for a working solution.

  1. Write as_any() implementations for your structs that implement WidgetTrait as per How to get a struct reference from a boxed trait?.
  2. Add implementation for trait Serialize of type Box<WidgetTrait>
  3. Downcast Box<Widget> to the struct so we know the type using as_any() and downcast_ref()
  4. Use documentation on how to serialize a strongly typed struct
#[macro_use]
extern crate serde_derive;
extern crate serde_json;
extern crate serde;

use serde::ser::{Serialize, Serializer, SerializeStruct};
use std::any::Any;

#[derive(Serialize)]
struct Card {
    sections: Vec<Section>
}

#[derive(Serialize)]
struct Section {
    header: String,
    widgets: Vec<Box<WidgetTrait>>
}

#[derive(Serialize)]
struct Image {
    #[serde(rename = "imageUrl")]
    image_url: String
}

#[derive(Serialize)]
struct KeyValue {
    #[serde(rename = "topLabel")]
    top_label: String,

    content: String
}

trait WidgetTrait {
    fn as_any(&self) -> &Any;
}

impl Serialize for Box<WidgetTrait> {
    fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error> 
        where S: Serializer {
            return match self.as_any().downcast_ref::<Image>() {
                Some(img) => {
                        let mut widget_serializer = serializer.serialize_struct("Image", 1)?;
                        widget_serializer.serialize_field("imageUrl", &img.image_url)?;

                        widget_serializer.end()  
                    },
                None => {
                    let key_value: &KeyValue = match self.as_any().downcast_ref::<KeyValue>() {
                        Some(k) => k,
                        None => panic!("Unknown type!")
                    };

                    let mut widget_serializer = serializer.serialize_struct("KeyValue", 2)?;
                    widget_serializer.serialize_field("topLabel", &key_value.top_label)?;
                    widget_serializer.serialize_field("content", &key_value.content)?;

                    widget_serializer.end()  
                }
            };                
        }
}

impl WidgetTrait for Image {
    fn as_any(&self) -> &Any {
        self
    }
}

impl WidgetTrait for KeyValue {
    fn as_any(&self) -> &Any {
        self
    }
}

fn main() {
    // let test = ResponseMessage { 
    //         text: None, 
    //         cards: Some(
    //             vec![Card { sections: vec![
    //                 Section { header: format!("text"), widgets: vec![ 
    //                     Box::new(Image { image_url: format!("img") }) 
    //                     ]},
    //                 Section { header: format!("text"), widgets: vec![
    //                      Box::new(KeyValue { top_label: format!("text"), content: format!("text") }),
    //                      Box::new(KeyValue { top_label: format!("text"), content: format!("text") })
    //                      ]}
    //                 ]}])
    //         }
}

Playground

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