dioxus/examples/core_reference/antipatterns.rs

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//! Example: Antipatterns
//! ---------------------
//!
//! This example shows what *not* to do and provides a reason why a given pattern is considered an "AntiPattern". Most
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//! anti-patterns are considered wrong due performance reasons or violate the "rules" of Dioxus. These rules are
//! borrowed from other successful UI frameworks, and Dioxus is more focused on providing a familiar, ergonomic interface
//! rather than building new harder-to-misuse patterns.
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//!
//! In this list we showcase:
//! - Not adding keys for iterators
//! - Heavily nested fragments
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//! - Understanding ordering of set_state
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//! - Naming conventions
//! - Rules of hooks
//!
//! Feel free to file a PR or Issue if you run into another antipattern that you think users of Dioxus should know about.
use dioxus::prelude::*;
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/// Antipattern: Iterators without keys
/// -----------------------------------
///
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/// This is considered an anti-pattern for performance reasons. Dioxus will diff your current and old layout and must
/// take a slower path if it can't correlate old elements with new elements. Lists are particularly susceptible to the
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/// "slow" path, so you're strongly encouraged to provide a unique, stable ID between renders. Additionally, providing
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/// the *wrong* keys is even worse - props might be assigned to the wrong components! Keys should be:
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/// - Unique
/// - Stable
/// - Predictable
///
/// Dioxus will log an error in the console if it detects that your iterator does not properly generate keys
#[derive(PartialEq, Props)]
struct NoKeysProps {
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data: std::collections::HashMap<u32, String>,
}
fn AntipatternNoKeys(cx: Scope<NoKeysProps>) -> Element {
// WRONG: Make sure to add keys!
cx.render(rsx! {
ul {
cx.props.data.iter().map(|(k, v)| rsx!(li { "List item: {v}" }))
}
});
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// RIGHT: Like this:
cx.render(rsx! {
ul {
cx.props.data.iter().map(|(k, v)| rsx!(li { key: "{k}", "List item: {v}" }))
}
})
}
/// Antipattern: Deeply nested fragments
/// ------------------------------------
///
/// This particular antipattern is not necessarily an antipattern in other frameworks but does has a performance impact
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/// in Dioxus apps. Fragments don't mount a physical element to the DOM immediately, so Dioxus must recurse into its
/// children to find a physical DOM node. This process is called "normalization". Other frameworks perform an agressive
/// mutative normalization while Dioxus keeps your VNodes immutable. This means that deeply nested fragments make Dioxus
/// perform unnecessary work. Prefer one or two levels of fragments / nested components until presenting a true DOM element.
///
/// Only Component and Fragment nodes are susceptible to this issue. Dioxus mitigates this with components by providing
/// an API for registering shared state without the ContextProvider pattern.
fn AntipatternNestedFragments(cx: Scope<()>) -> Element {
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// Try to avoid heavily nesting fragments
cx.render(rsx!(
Fragment {
Fragment {
Fragment {
Fragment {
Fragment {
div { "Finally have a real node!" }
}
}
}
}
}
))
}
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/// Antipattern: Using state after it's been updated
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/// -----------------------------------------------
///
/// This is an antipattern in other frameworks, but less so in Dioxus. However, it's important to highlight that use_state
/// does *not* work the same way as it does in React. Rust provides explicit guards against mutating shared data - a huge
/// problem in JavaScript land. With Rust and Dioxus, it's nearly impossible to misuse `use_state` - you simply can't
/// accidentally modify the state you've received!
///
/// However, calling set_state will *not* update the current version of state in the component. This should be easy to
/// recognize from the function signature, but Dioxus will not update the "live" version of state. Calling `set_state`
/// merely places a new value in the queue and schedules the component for a future update.
fn AntipatternRelyingOnSetState(cx: Scope) -> Element {
let (state, set_state) = use_state(&cx, || "Hello world").classic();
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set_state("New state");
// This will return false! `state` will *still* be "Hello world"
assert!(state == &"New state");
todo!()
}
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/// Antipattern: Capitalization
/// ---------------------------
///
/// This antipattern is enforced to retain parity with other frameworks and provide useful IDE feedback, but is less
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/// critical than other potential misuses. In short:
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/// - Only raw elements may start with a lowercase character
/// - All components must start with an uppercase character
///
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/// i.e.: the following component will be rejected when attempted to be used in the rsx! macro
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static antipattern_component: Component = |cx| todo!();
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/// Antipattern: Misusing hooks
/// ---------------------------
///
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/// This pattern is an unfortunate one where Dioxus replicates the same behavior as other frameworks. Dioxus supports
/// "hooks" - i.e. "memory cells" that allow a value to be stored between renders. This allows other hooks to tap into
/// a component's "memory" without explicitly adding all of its data to a struct definition. In Dioxus, hooks are allocated
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/// with a bump arena and then immediately sealed.
///
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/// This means that hooks may not be misused:
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/// - Called out of order
/// - Called in a conditional
/// - Called in loops or callbacks
///
/// For the most part, Rust helps with rule #3 but does not save you from misusing rule #1 or #2. Dioxus will panic
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/// if hooks do not downcast to the same data between renders. This is validated by TypeId and, eventually, a custom key.
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#[derive(PartialEq, Props)]
struct MisuedHooksProps {
should_render_state: bool,
}
fn AntipatternMisusedHooks(cx: Scope<MisuedHooksProps>) -> Element {
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if props.should_render_state {
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// do not place a hook in the conditional!
// prefer to move it out of the conditional
let (state, set_state) = use_state(&cx, || "hello world").classic();
cx.render(rsx!(div { "{state}" }))
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} else {
cx.render(rsx!(div { "Not rendering state" }))
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}
}
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/// Antipattern: Downcasting refs and panicking
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/// ------------------------------------------
///
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/// Occasionally it's useful to get the ref of an element to handle it directly. Elements support downcasting to
/// Dioxus' virtual element types as well as their true native counterparts. Downcasting to Dioxus' virtual elements
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/// will never panic, but downcasting to native elements will fail if on an unsupported platform. We recommend avoiding
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/// publishing hooks and components that deeply rely on controlling elements using their native `ref`, preferring to
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/// use their Dioxus Virtual Element counterpart instead.
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/// This particular code *will panic* due to the unwrap. Try to avoid these types of patterns.
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/// ---------------------------------
/// TODO: Get this to compile properly
/// let div_ref = use_node_ref(&cx);
///
/// cx.render(rsx!{
/// div { ref: div_ref, class: "custom class",
/// button { "click me to see my parent's class"
/// onclick: move |_| if let Some(div_ref) = div_ref {
/// panic!("Div class is {}", div_ref.to_native::<web_sys::Element>().unwrap().class())
/// }
/// }
/// }
/// })
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static _example: Component = |cx| todo!();
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/// Antipattern: publishing components and hooks with all features enabled
/// ----------------------------------------------------------------------
///
/// The `dioxus` crate combines a bunch of useful utilities together (like the rsx! and html! macros, hooks, and more).
/// However, when publishing your custom hook or component, we highly advise using only the `core` feature on the dioxus
/// crate. This makes your crate compile faster, makes it more stable, and avoids bringing in incompatible libraries that
/// might make it not compile on unsupported platforms.
///
/// We don't have a code snippet for this, but just prefer to use this line:
/// dioxus = { version = "*", features = ["core"]}
/// instead of this one:
/// dioxus = { version = "*", features = ["web", "desktop", "full"]}
/// in your Cargo.toml
///
/// This will only include the `core` dioxus crate which is relatively slim and fast to compile and avoids target-specific
/// libraries.
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static __example: Component = |cx| todo!();
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fn Example(cx: Scope) -> Element {
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cx.render(rsx! {
AntipatternNoKeys { data: std::collections::HashMap::new() }
AntipatternNestedFragments {}
})
}