yew-interop

Crates.ioyew-interop
lib.rsyew-interop
version0.3.0
sourcesrc
created_at2021-12-22 07:51:29.621179
updated_at2022-01-08 08:14:15.344856
descriptionuse javascript and css asynchrously in yew
homepagehttps://github.com/Madoshakalaka/yew-interop
repositoryhttps://github.com/Madoshakalaka/yew-interop
max_upload_size
id501533
size22,916
Matt (Madoshakalaka)

documentation

README

Yew Interop

Load JavaScript and CSS asynchronously in Yew

Crates.io demo badge released demo badge master docs.rs docs master minimal rustc

Load On Demand

With yew-interop, each resource is requested on demand when a consuming component requests it.

If you include your libraries using the JS-snippet method with wasm-bindgen or insert them as <script/> or <link/> directly in the index.html, the resources will load for every request, even if there is no consuming component. This can cause congestion and wasted data.

Load Once, Use Everywhere

Each resource is strictly requested once. If a resource has been requested in one component, other consuming components won't trigger a reload. Other requests to the same resource will either wait for the load to complete, or return ready immediately if the resource is loaded.

Demo

The example folder has a demo website built withyew-interop

The gif below shows the first two use cases, loading speed is throttled for demo purposes.

yew interop demo gif

Check out the full online demo

Install

The master branch has the the lastest in-development code.

yew-interop = {git="https://github.com/Madoshakalaka/yew-interop.git", branch="master", features=["yew-stable"]}

The yew-stable feature works with the latest release of yew on crates.io, currently 0.19. If you are using yew-next (yew's master branch), change the yew-stable feature to yew-next.

Or you can install the latest version published on crates.io, which uses yew 0.19.

yew-interop = "0.2"

Note the yew-next/yew-stable features only exist in the master branch since published crates can't have git dependencies.

API

Asynchronously Load CSS or Javascript Libraries

If your javascript library exposes functions or objects you want to use in Rust, then yew_interop::declare_resources! is the right choice.

First you want to create a separate module interop and declare your dependencies there.

// alternatively, create a separate file `interop.rs`,
// and add `mod interop;` to `main.rs` to have tidier code.
mod interop{
    use yew_interop::declare_resources;

    declare_resources!(
        library_a
        "https://my-cdn.com/library-a.min.js"
        library_b
        "https://my-cdn.com/library-b.min.js"
        "https://my-cdn.com/library-b.min.css"
        library_c
        "/static/library-c.min.js"
        "/static/library-c.min.css"
    );
}

This macro expands into a <ResourceProvider/> component. you want to wrap the root of your application in the provider:

use yew::prelude::*;
use interop::ResourceProvider;

#[function_component(App)]
pub fn app() -> Html {
    html! {
        <ResourceProvider>
            // the rest of your app
        </ResourceProvider>
    }
}

The macro will also expand into hooks by prepending your resource names with "use_", in this case, the macro will expand into pub fn use_library_a() -> bool and pub fn use_library_b() -> bool

At your consuming component, you can use these hooks to asynchronously wait for libraries to be loaded:


use yew::prelude::*;
use interop::use_library_a;

#[function_component(Consumer)]
pub fn consumer() -> Html {
    let library_a_ready = use_library_a(); // <-- generated hook

    html! {
        if library_a_ready{
            // use library a here
        }else{
            <p>{"please wait..."}</p>
        }
    }
}

For javascript libraries, you will also need to write some stubs using wasm-bindgen and js-sys before using the library in Rust. The wasm-bindgen book has a good chapter on that. You can also check out our demo website and have a look how it's done there

Explicit Resource Type

The declare_resources! macro needs to know whether a url is JavaScript or CSS. When you provide a string literal as in the examples above, the macro derives the information from the suffix of the last path segment. It expects .js or .css and is smart enough to exclude the query params or the fragment.

When the path segment doesn't end with .js or .css, or when you provide other expressions like a macro call or an identifier, you need to manually specify the URL type by prepending the custom keyword js/css before the url.

declare_resources! will accept any expression with a return type that implements Into<Cow<'static, str>>, so &'static str, String, Cow<'static, str> are all fine.

here's a more complex example:

use yew_interop::declare_resources;

const MY_LIB_JS: &str = "https://cdn.com/my_lib.js";

declare_resources!(
        my_lib
        js MY_LIB_JS
        "https://cdn.com/my_lic_b.css" // <-- when a string literal is provided, script type is determined from the suffix
        "/static/snippet.js"
        js concat!("https://a.com/", "b.js")
        my_lib_b
        css "/somehow/ends/with/.js" // <-- explicit type css overrides the suffix
        my_lib_c
        js String::from("https://a.com/test.js")
    );

Side Effect Javascript

Here, side effect scripts refers to the JavaScript that run something onload, as opposed to a library that exposes functions and classes.

If your javascript is a side effect script, you want to enable the script feature.

# change yew-stable to yew-next if you use yew's master branch
yew-interop = {git="https://github.com/Madoshakalaka/yew-interop.git",  features=["yew-stable", "script"]}

or

yew-interop = {version = "0.2", features = ["script"]}

You will need to prepend the identifier of a script with an exclamation mark (!). And only one script url for each identifier, here's an example:

use yew_interop::declare_resources;
    
declare_resources!(
   lib // <- normal library
   "https://cdn.com/lib.js"
   "/static/lib.css"
   ! my_script // <- exclamation mark for side effect scripts
   "https://cdn.com/script.js"
);

You never need to specify the resource type explicitly, since only JavaScript is allowed.

Same as previous examples, this will expand into a use_<identifier> hook. What's different is that instead of a bool, the hook returns an Option<Script>, it is None when the script is loading.

To run the script, you will need to render a <ScriptEffect/> component and pass the script object to the component. This allows you to freely control whether and when the script should be run. The <ScriptEffect/> component is a portal to the <head/> element of the document, so it won't render anything in its place, it will only run the script on render.

mod interop{
   use yew_interop::declare_resources;
   declare_resources!(
       ! my_script
       "https://cdn.com/script.js"
   );
}

use yew::prelude::*;
use yew_interop::ScriptEffect;
use interop::use_my_script; // <-- generated hook

/// this example simply runs the script on every re-render, if the script is ready.
#[function_component(MyComp)]
pub fn my_comp() -> Html {
    let script = use_my_script(); // <-- returns Option<Script>

    // ...snip

    html! {
        if let Some(script) = script{
           <ScriptEffect {script}/>
        }else{
           <p>{"Please wait..."}</p>
        }
    }
}

If your script depends on other components being rendered, such as the fourth example in the demo, where the script adds onclick handlers to the rendered elements, you will need to guarantee the script is rendered after all the dependees.

Yew renders descendents in a breadth-first order from bottom to top, which is not the most intuitive rendering order.

One way to guarantee the correct rendering order is to place the <ScriptEffect/> component as a sibling on top of the deepest dependees,

For example, let's say your script depends on two components <ComponentA/> and <ComponentB/>.

The case below shows a correct placement where A and B has the same depth,

   html!{
       <>
       <ScriptEffect {script}/>
       <ComponentA/>
       <ComponentB/>
       // <ScriptEffect {script}/> !!! do not place here, otherwise it would render first
       </>
   }

the rendering order here is B -> A -> ScriptEffect.

Here's trickier one, where B is deeper, so we place our component on top of B:

#[derive(Properties, PartialEq)]
pub struct ContainerProps {
   children: Children
}

#[function_component(Container)]
pub fn container(props: &ContainerProps) -> Html {
   // --snip--
   html! {
       {for props.children.iter()}
   }
}

html!{
    <>
    <ComponentA/>
    <Container>
        <ScriptEffect {script}/>
        <ComponentB/>
    </Container>
    <ComponentC/>
    </>
}

The rendering order is C -> Container -> A -> B -> ScriptEffect.

Contributing

Your pull request is welcome! There is extensive testing in CI. Be sure to check out our development guide.

Commit count: 230

cargo fmt