Testing
Freya comes with a special testing renderer (freya-testing
) that let's you run your components in a headless environment.
This will let you easily write unit tests for your components.
Getting started
You can use the launch_test
function to run the tests of your component, it will return you a set of utilities for you to interact with the component.
For example, this will launch a state-less component and assert that it renders a label with the text "Hello World!"
.
#![allow(unused)] fn main() { #[tokio::test] async fn test() { fn our_component(cx: Scope) -> Element { render!( label { "Hello World!" } ) } let mut utils = launch_test(our_component); let root = utils.root(); let label = root.get(0); let label_text = label.get(0); assert_eq!(label_text.text(), Some("Hello World!")); } }
The root()
function will give you the Root node of your app, then, with the get
function you can retrieve a Node from it's parent given it's index position.
Dynamic components
If the component has logic that might execute asynchronously, you will need to wait for the component to update using the wait_for_update
function before asserting the result.
Here, the component has a state that is false
by default, but, once mounted it will update the state to true
.
#![allow(unused)] fn main() { #[tokio::test] async fn dynamic_test() { fn dynamic_component(cx: Scope) -> Element { let state = use_state(cx, || false); let state_setter = state.setter(); use_effect(cx, (), move |_| async move { state_setter(true); }); render!( label { "Is enabled? {state}" } ) } let mut utils = launch_test(dynamic_component); let root = utils.root(); let label = root.get(0); assert_eq!(label.get(0).text(), Some("Is enabled? false")); // This will run the `use_effect` and update the state. utils.wait_for_update().await; assert_eq!(label.get(0).text(), Some("Is enabled? true")); } }
Events
We can also simulate events on the component, for example, we can simulate a click event on a rect
and assert that the state has been updated.
#![allow(unused)] fn main() { #[tokio::test] async fn event_test() { fn event_component(cx: Scope) -> Element { let enabled = use_state(cx, || false); render!( rect { width: "100%", height: "100%", background: "red", direction: "both", onclick: |_| { enabled.set(true); }, label { "Is enabled? {enabled}" } } ) } let mut utils = launch_test(event_component); let rect = utils.root().get(0); let label = rect.get(0); utils.wait_for_update().await; let text = label.get(0); assert_eq!(text.text(), Some("Is enabled? false")); // Push a click event to the events queue utils.push_event(FreyaEvent::Mouse { name: "click", cursor: (5.0, 5.0).into(), button: Some(MouseButton::Left), }); // Run the queued events and update the state utils.wait_for_update().await; // Because the click event was executed and the state updated, now the text has changed too! let text = label.get(0); assert_eq!(text.text(), Some("Is enabled? true")); } }
Testing configuration
The launch_test
comes with a default configuration, but you can also pass your own with the launch_test_with_config
function.
Here is an example of how to can set our custom window size:
#![allow(unused)] fn main() { #[tokio::test] async fn test() { fn our_component(cx: Scope) -> Element { render!( label { "Hello World!" } ) } let mut utils = launch_test_with_config( our_component, TestingConfig::default().with_size((500.0, 800.0).into()), ); let root = utils.root(); let label = root.get(0); let label_text = label.get(0); assert_eq!(label_text.text(), Some("Hello World!")); } }