use std::sync::Arc;
use dioxus_core::{prelude::spawn, use_hook, AttributeValue};
use dioxus_signals::{Readable, Signal, Writable};
use freya_common::NodeReferenceLayout;
use freya_node_state::{CustomAttributeValues, NodeReference};
use tokio::sync::watch::channel;
pub fn use_node() -> (AttributeValue, NodeReferenceLayout) {
let (tx, signal) = use_hook(|| {
let (tx, mut rx) = channel::<NodeReferenceLayout>(NodeReferenceLayout::default());
let mut signal = Signal::new(NodeReferenceLayout::default());
spawn(async move {
while rx.changed().await.is_ok() {
if *signal.peek() != *rx.borrow() {
signal.set(rx.borrow().clone());
}
}
});
(Arc::new(tx), signal)
});
(
AttributeValue::any_value(CustomAttributeValues::Reference(NodeReference(tx))),
signal.read_unchecked().clone(),
)
}
pub fn use_node_signal() -> (AttributeValue, Signal<NodeReferenceLayout>) {
let (tx, signal) = use_hook(|| {
let (tx, mut rx) = channel::<NodeReferenceLayout>(NodeReferenceLayout::default());
let mut signal = Signal::new(NodeReferenceLayout::default());
spawn(async move {
while rx.changed().await.is_ok() {
if *signal.peek() != *rx.borrow() {
signal.set(rx.borrow().clone());
}
}
});
(Arc::new(tx), signal)
});
(
AttributeValue::any_value(CustomAttributeValues::Reference(NodeReference(tx))),
signal,
)
}
#[cfg(test)]
mod test {
use crate::use_node;
use freya::prelude::*;
use freya_testing::{launch_test_with_config, TestingConfig};
#[tokio::test]
pub async fn track_size() {
fn use_node_app() -> Element {
let (reference, size) = use_node();
rsx!(
rect {
reference: reference,
width: "50%",
height: "25%",
label {
"{size.area.width()}"
}
}
)
}
let mut utils = launch_test_with_config(
use_node_app,
TestingConfig {
size: (500.0, 800.0).into(),
..TestingConfig::default()
},
);
utils.wait_for_update().await;
let root = utils.root().get(0);
assert_eq!(
root.get(0).get(0).text().unwrap().parse::<f32>(),
Ok(500.0 * 0.5)
);
utils.config().size = (300.0, 800.0).into();
utils.wait_for_update().await;
let root = utils.root().get(0);
assert_eq!(
root.get(0).get(0).text().unwrap().parse::<f32>(),
Ok(300.0 * 0.5)
);
}
}