pub fn use_websocket<Tx, Rx, C>(
url: &str,
) -> UseWebSocketReturn<Tx, Rx, impl Fn() + Clone + 'static, impl Fn() + Clone + 'static, impl Fn(&Tx) + Clone + 'static>Expand description
Creating and managing a Websocket connection.
§Demo
§Usage
Values are (en)decoded via the given codec. You can use any of the codecs, string or binary.
Please check the codec chapter to see what codecs are available and what feature flags they require.
let UseWebSocketReturn {
ready_state,
message,
send,
open,
close,
..
} = use_websocket::<String, String, FromToStringCodec>("wss://echo.websocket.events/");
let send_message = move |_| {
send(&"Hello, world!".to_string());
};
let status = move || ready_state.get().to_string();
let connected = move || ready_state.get() == ConnectionReadyState::Open;
let open_connection = move |_| {
open();
};
let close_connection = move |_| {
close();
};
view! {
<div>
<p>"status: " {status}</p>
<button on:click=send_message disabled=move || !connected()>"Send"</button>
<button on:click=open_connection disabled=connected>"Open"</button>
<button on:click=close_connection disabled=move || !connected()>"Close"</button>
<p>"Receive message: " {move || format!("{:?}", message.get())}</p>
</div>
}Here is another example using msgpack for encoding and decoding. This means that only binary
messages can be sent or received. For this to work you have to enable the msgpack_serde feature flag.
#[derive(Serialize, Deserialize)]
struct SomeData {
name: String,
count: i32,
}
let UseWebSocketReturn {
message,
send,
..
} = use_websocket::<SomeData, SomeData, MsgpackSerdeCodec>("wss://some.websocket.server/");
let send_data = move || {
send(&SomeData {
name: "John Doe".to_string(),
count: 42,
});
};
}§Relative Paths
If the provided url is relative, it will be resolved relative to the current page.
Urls will be resolved like this the following. Please note that the protocol (http vs https) will
be taken into account as well.
| Current Page | Relative Url | Resolved Url |
|---|---|---|
| http://example.com/some/where | /api/ws | ws://example.com/api/ws |
| https://example.com/some/where | /api/ws | wss://example.com/api/ws |
| https://example.com/some/where | api/ws | wss://example.com/some/where/api/ws |
| https://example.com/some/where | //otherdomain.com/api/ws | wss://otherdomain.com/api/ws |
§Usage with provide_context
The return value of use_websocket utilizes several type parameters which can make it
cumbersome to use with provide_context + expect_context.
The following example shows how to avoid type parameters with dynamic dispatch.
This sacrifices a little bit of performance for the sake of ergonomics. However,
compared to network transmission speeds this loss of performance is negligible.
First we define the struct that is going to be passed around as context.
use std::rc::Rc;
#[derive(Clone)]
pub struct WebsocketContext {
pub message: Signal<Option<String>>,
send: Rc<dyn Fn(&String)>, // use Rc to make it easily cloneable
}
impl WebsocketContext {
pub fn new(message: Signal<Option<String>>, send: Rc<dyn Fn(&String)>) -> Self {
Self {
message,
send,
}
}
// create a method to avoid having to use parantheses around the field
#[inline(always)]
pub fn send(&self, message: &str) {
(self.send)(&message.to_string())
}
}Now you can provide the context like the following.
let UseWebSocketReturn {
message,
send,
..
} = use_websocket::<String, String, FromToStringCodec>("ws:://some.websocket.io");
provide_context(WebsocketContext::new(message, Rc::new(send.clone())));Finally let’s use the context:
let websocket = expect_context::<WebsocketContext>();
websocket.send("Hello World!");§Server-Side Rendering
On the server the returned functions amount to no-ops.