dioxus/packages/core/src/nodes.rs

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//! Virtual Node Support
//!
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//! VNodes represent lazily-constructed VDom trees that support diffing and event handlers. These VNodes should be *very*
//! cheap and *very* fast to construct - building a full tree should be quick.
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use crate::{
innerlude::{empty_cell, Context, Element, ElementId, Properties, Scope, ScopeId},
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lazynodes::LazyNodes,
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};
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use bumpalo::{boxed::Box as BumpBox, Bump};
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use std::{
any::Any,
cell::{Cell, RefCell},
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fmt::{Arguments, Debug, Formatter},
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};
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/// A cached node is a "pointer" to a "rendered" node in a particular scope
///
/// It does not provide direct access to the node, so it doesn't carry any lifetime information with it
///
/// It is used during the diffing/rendering process as a runtime key into an existing set of nodes. The "render" key
/// is essentially a unique key to guarantee safe usage of the Node.
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pub struct NodeLink {
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pub(crate) gen_id: u32,
pub(crate) scope_id: ScopeId,
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}
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/// A composable "VirtualNode" to declare a User Interface in the Dioxus VirtualDOM.
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///
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/// VNodes are designed to be lightweight and used with with a bump allocator. To create a VNode, you can use either of:
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/// - the [`rsx`] macro
/// - the [`html`] macro
/// - the [`NodeFactory`] API
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pub enum VNode<'src> {
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/// Text VNodes simply bump-allocated (or static) string slices
///
/// # Example
///
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/// ```
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/// let node = cx.render(rsx!{ "hello" }).unwrap();
///
/// if let VNode::Text(vtext) = node {
/// assert_eq!(vtext.text, "hello");
/// assert_eq!(vtext.dom_id.get(), None);
/// assert_eq!(vtext.is_static, true);
/// }
/// ```
Text(&'src VText<'src>),
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/// Element VNodes are VNodes that may contain attributes, listeners, a key, a tag, and children.
///
/// # Example
///
/// ```rust
/// let node = cx.render(rsx!{
/// div {
/// key: "a",
/// onclick: |e| log::info!("clicked"),
/// hidden: "true",
/// style: { background_color: "red" }
/// "hello"
/// }
/// }).unwrap();
/// if let VNode::Element(velement) = node {
/// assert_eq!(velement.tag_name, "div");
/// assert_eq!(velement.namespace, None);
/// assert_eq!(velement.key, Some("a));
/// }
/// ```
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Element(&'src VElement<'src>),
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/// Fragment nodes may contain many VNodes without a single root.
///
/// # Example
///
/// ```rust
/// rsx!{
/// a {}
/// link {}
/// style {}
/// "asd"
/// Example {}
/// }
/// ```
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Fragment(VFragment<'src>),
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/// Component nodes represent a mounted component with props, children, and a key.
///
/// # Example
///
/// ```rust
/// fn Example(cx: Context<()>) -> DomTree {
/// todo!()
/// }
///
/// let node = cx.render(rsx!{
/// Example {}
/// }).unwrap();
///
/// if let VNode::Component(vcomp) = node {
/// assert_eq!(vcomp.user_fc, Example as *const ());
/// }
/// ```
Component(&'src VComponent<'src>),
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/// Suspended VNodes represent chunks of the UI tree that are not yet ready to be displayed.
///
/// These nodes currently can only be constructed via the [`use_suspense`] hook.
///
/// # Example
///
/// ```rust
/// rsx!{
/// }
/// ```
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Suspended(&'src VSuspended<'src>),
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/// Anchors are a type of placeholder VNode used when fragments don't contain any children.
///
/// Anchors cannot be directly constructed via public APIs.
///
/// # Example
///
/// ```rust
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/// let node = cx.render(rsx! ( Fragment {} )).unwrap();
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/// if let VNode::Fragment(frag) = node {
/// let root = &frag.children[0];
/// assert_eq!(root, VNode::Anchor);
/// }
/// ```
Anchor(&'src VAnchor),
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/// A type of node that links this node to another scope or render cycle
///
/// Is essentially a "pointer" to a "rendered" node in a particular scope
///
/// Used in portals
Linked(NodeLink),
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}
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impl<'src> VNode<'src> {
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/// Get the VNode's "key" used in the keyed diffing algorithm.
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pub fn key(&self) -> Option<&'src str> {
match &self {
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VNode::Element(el) => el.key,
VNode::Component(c) => c.key,
VNode::Fragment(f) => f.key,
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VNode::Text(_t) => None,
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VNode::Suspended(_s) => None,
VNode::Anchor(_f) => None,
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VNode::Linked(_c) => None,
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}
}
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/// Get the ElementID of the mounted VNode.
///
/// Panics if the mounted ID is None or if the VNode is not represented by a single Element.
pub fn mounted_id(&self) -> ElementId {
self.try_mounted_id().unwrap()
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}
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/// Try to get the ElementID of the mounted VNode.
///
/// Returns None if the VNode is not mounted, or if the VNode cannot be presented by a mounted ID (Fragment/Component)
pub fn try_mounted_id(&self) -> Option<ElementId> {
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match &self {
VNode::Text(el) => el.dom_id.get(),
VNode::Element(el) => el.dom_id.get(),
VNode::Anchor(el) => el.dom_id.get(),
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VNode::Suspended(el) => el.dom_id.get(),
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VNode::Linked(_) => None,
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VNode::Fragment(_) => None,
VNode::Component(_) => None,
}
}
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pub fn children(&self) -> &[VNode<'src>] {
match &self {
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VNode::Fragment(f) => f.children,
VNode::Component(c) => todo!("children are not accessible through this"),
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_ => &[],
}
}
// Create an "owned" version of the vnode.
pub fn decouple(&self) -> VNode<'src> {
match self {
VNode::Text(t) => VNode::Text(*t),
VNode::Element(e) => VNode::Element(*e),
VNode::Component(c) => VNode::Component(*c),
VNode::Suspended(s) => VNode::Suspended(*s),
VNode::Anchor(a) => VNode::Anchor(*a),
VNode::Fragment(f) => VNode::Fragment(VFragment {
children: f.children,
key: f.key,
}),
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VNode::Linked(c) => VNode::Linked(NodeLink {
gen_id: c.gen_id,
scope_id: c.scope_id,
}),
}
}
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}
impl Debug for VNode<'_> {
fn fmt(&self, s: &mut Formatter<'_>) -> std::result::Result<(), std::fmt::Error> {
match &self {
VNode::Element(el) => s
.debug_struct("VElement")
.field("name", &el.tag_name)
.field("key", &el.key)
.finish(),
VNode::Text(t) => write!(s, "VText {{ text: {} }}", t.text),
VNode::Anchor(_) => write!(s, "VAnchor"),
VNode::Fragment(frag) => write!(s, "VFragment {{ children: {:?} }}", frag.children),
VNode::Suspended { .. } => write!(s, "VSuspended"),
VNode::Component(comp) => write!(s, "VComponent {{ fc: {:?}}}", comp.user_fc),
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VNode::Linked(c) => write!(
s,
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"VCached {{ gen_id: {}, scope_id: {:?} }}",
c.gen_id, c.scope_id
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),
}
}
}
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/// A placeholder node only generated when Fragments don't have any children.
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pub struct VAnchor {
pub dom_id: Cell<Option<ElementId>>,
}
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/// A bump-allocated string slice and metadata.
pub struct VText<'src> {
pub text: &'src str,
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pub dom_id: Cell<Option<ElementId>>,
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pub is_static: bool,
}
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/// A list of VNodes with no single root.
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pub struct VFragment<'src> {
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pub key: Option<&'src str>,
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pub children: &'src [VNode<'src>],
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}
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/// An element like a "div" with children, listeners, and attributes.
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pub struct VElement<'a> {
pub tag_name: &'static str,
pub namespace: Option<&'static str>,
pub key: Option<&'a str>,
pub dom_id: Cell<Option<ElementId>>,
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pub parent_id: Cell<Option<ElementId>>,
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pub listeners: &'a [Listener<'a>],
pub attributes: &'a [Attribute<'a>],
pub children: &'a [VNode<'a>],
}
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impl Debug for VElement<'_> {
fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result {
f.debug_struct("VElement")
.field("tag_name", &self.tag_name)
.field("namespace", &self.namespace)
.field("key", &self.key)
.field("dom_id", &self.dom_id)
.field("parent_id", &self.parent_id)
.field("listeners", &self.listeners.len())
.field("attributes", &self.attributes)
.field("children", &self.children)
.finish()
}
}
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/// A trait for any generic Dioxus Element.
///
/// This trait provides the ability to use custom elements in the `rsx!` macro.
///
/// ```rust
/// struct my_element;
///
/// impl DioxusElement for my_element {
/// const TAG_NAME: "my_element";
/// const NAME_SPACE: None;
/// }
///
/// let _ = rsx!{
/// my_element {}
/// };
/// ```
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pub trait DioxusElement {
const TAG_NAME: &'static str;
const NAME_SPACE: Option<&'static str>;
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#[inline]
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fn tag_name(&self) -> &'static str {
Self::TAG_NAME
}
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#[inline]
fn namespace(&self) -> Option<&'static str> {
Self::NAME_SPACE
}
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}
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/// An attribute on a DOM node, such as `id="my-thing"` or
/// `href="https://example.com"`.
#[derive(Clone, Debug)]
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pub struct Attribute<'a> {
pub name: &'static str,
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pub value: &'a str,
pub is_static: bool,
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pub is_volatile: bool,
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// Doesn't exist in the html spec.
// Used in Dioxus to denote "style" tags.
pub namespace: Option<&'static str>,
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}
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/// An event listener.
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/// IE onclick, onkeydown, etc
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pub struct Listener<'bump> {
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/// The ID of the node that this listener is mounted to
/// Used to generate the event listener's ID on the DOM
pub mounted_node: Cell<Option<ElementId>>,
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/// The type of event to listen for.
///
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/// IE "click" - whatever the renderer needs to attach the listener by name.
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pub event: &'static str,
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/// The actual callback that the user specified
pub(crate) callback: RefCell<Option<BumpBox<'bump, dyn FnMut(Box<dyn Any + Send>) + 'bump>>>,
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}
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pub type VCompCaller<'src> = BumpBox<'src, dyn Fn(Context) -> Element + 'src>;
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/// Virtual Components for custom user-defined components
/// Only supports the functional syntax
pub struct VComponent<'src> {
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pub key: Option<&'src str>,
pub associated_scope: Cell<Option<ScopeId>>,
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// Function pointer to the FC that was used to generate this component
pub user_fc: *const (),
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pub(crate) can_memoize: bool,
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pub(crate) hard_allocation: Cell<Option<*const ()>>,
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// Raw pointer into the bump arena for the props of the component
pub(crate) bump_props: *const (),
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// during the "teardown" process we'll take the caller out so it can be dropped properly
pub(crate) caller: Option<VCompCaller<'src>>,
pub(crate) comparator: Option<BumpBox<'src, dyn Fn(&VComponent) -> bool + 'src>>,
}
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pub struct VSuspended<'a> {
pub task_id: u64,
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pub dom_id: Cell<Option<ElementId>>,
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#[allow(clippy::type_complexity)]
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pub callback: RefCell<Option<BumpBox<'a, dyn FnMut() -> Element + 'a>>>,
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}
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/// This struct provides an ergonomic API to quickly build VNodes.
///
/// NodeFactory is used to build VNodes in the component's memory space.
/// This struct adds metadata to the final VNode about listeners, attributes, and children
#[derive(Copy, Clone)]
pub struct NodeFactory<'a> {
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pub(crate) bump: &'a Bump,
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}
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impl<'a> NodeFactory<'a> {
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pub fn new(bump: &'a Bump) -> NodeFactory<'a> {
NodeFactory { bump }
}
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#[inline]
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pub fn bump(&self) -> &'a bumpalo::Bump {
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self.bump
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}
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/// Directly pass in text blocks without the need to use the format_args macro.
pub fn static_text(&self, text: &'static str) -> VNode<'a> {
VNode::Text(self.bump.alloc(VText {
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dom_id: empty_cell(),
text,
is_static: true,
}))
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}
/// Parses a lazy text Arguments and returns a string and a flag indicating if the text is 'static
///
/// Text that's static may be pointer compared, making it cheaper to diff
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pub fn raw_text(&self, args: Arguments) -> (&'a str, bool) {
match args.as_str() {
Some(static_str) => (static_str, true),
None => {
use bumpalo::core_alloc::fmt::Write;
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let mut str_buf = bumpalo::collections::String::new_in(self.bump());
str_buf.write_fmt(args).unwrap();
(str_buf.into_bump_str(), false)
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}
}
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}
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/// Create some text that's allocated along with the other vnodes
///
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pub fn text(&self, args: Arguments) -> VNode<'a> {
let (text, is_static) = self.raw_text(args);
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VNode::Text(self.bump.alloc(VText {
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text,
is_static,
dom_id: empty_cell(),
}))
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}
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pub fn element<L, A, V>(
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&self,
el: impl DioxusElement,
listeners: L,
attributes: A,
children: V,
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key: Option<Arguments>,
) -> VNode<'a>
where
L: 'a + AsRef<[Listener<'a>]>,
A: 'a + AsRef<[Attribute<'a>]>,
V: 'a + AsRef<[VNode<'a>]>,
{
self.raw_element(
el.tag_name(),
el.namespace(),
listeners,
attributes,
children,
key,
)
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}
pub fn raw_element<L, A, V>(
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&self,
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tag_name: &'static str,
namespace: Option<&'static str>,
listeners: L,
attributes: A,
children: V,
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key: Option<Arguments>,
) -> VNode<'a>
where
L: 'a + AsRef<[Listener<'a>]>,
A: 'a + AsRef<[Attribute<'a>]>,
V: 'a + AsRef<[VNode<'a>]>,
{
let listeners: &'a L = self.bump().alloc(listeners);
let listeners = listeners.as_ref();
let attributes: &'a A = self.bump().alloc(attributes);
let attributes = attributes.as_ref();
let children: &'a V = self.bump().alloc(children);
let children = children.as_ref();
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let key = key.map(|f| self.raw_text(f).0);
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VNode::Element(self.bump().alloc(VElement {
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tag_name,
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key,
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namespace,
listeners,
attributes,
children,
dom_id: empty_cell(),
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parent_id: empty_cell(),
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}))
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}
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pub fn attr(
&self,
name: &'static str,
val: Arguments,
namespace: Option<&'static str>,
is_volatile: bool,
) -> Attribute<'a> {
let (value, is_static) = self.raw_text(val);
Attribute {
name,
value,
is_static,
namespace,
is_volatile,
}
}
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pub fn component<P>(
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&self,
component: fn(Context<'a>, &'a P) -> Element,
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props: P,
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key: Option<Arguments>,
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) -> VNode<'a>
where
P: Properties + 'a,
{
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/*
our strategy:
- unsafe hackery
- lol
- we don't want to hit the global allocator
- allocate into our bump arena
- if the props aren't static, then we convert them into a box which we pass off between renders
*/
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let bump = self.bump();
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// later, we'll do a hard allocation
let raw_ptr = bump.alloc(props);
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// let caller = Box::new(|f: &ScopeInner| -> Element {
// //
// component((f, &props))
// });
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let user_fc = component as *const ();
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// let comparator: &mut dyn Fn(&VComponent) -> bool = bump.alloc_with(|| {
// move |other: &VComponent| {
// if user_fc == other.user_fc {
// // Safety
// // - We guarantee that FC<P> is the same by function pointer
// // - Because FC<P> is the same, then P must be the same (even with generics)
// // - Non-static P are autoderived to memoize as false
// // - This comparator is only called on a corresponding set of bumpframes
// let props_memoized = unsafe {
// let real_other: &P = &*(other.raw_props as *const _ as *const P);
// props.memoize(real_other)
// };
// // It's only okay to memoize if there are no children and the props can be memoized
// // Implementing memoize is unsafe and done automatically with the props trait
// props_memoized
// } else {
// false
// }
// }
// });
// let comparator = Some(unsafe { BumpBox::from_raw(comparator) });
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let key = key.map(|f| self.raw_text(f).0);
// let caller = match P::IS_STATIC {
// true => {
// // it just makes sense to box the props
// let boxed_props: Box<P> = Box::new(props);
// let props_we_know_are_static = todo!();
// VCompCaller::Owned(Box::new(|f| {
// //
// let p = todo!();
// todo!()
// }))
// }
// false => VCompCaller::Borrowed({
// //
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// todo!()
// // let caller = bump.alloc()
// }),
// };
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todo!()
// let caller: &'a mut dyn for<'b> Fn(&'b ScopeInner) -> Element<'b> =
// bump.alloc(move |scope: &ScopeInner| -> Element {
// log::debug!("calling component renderr {:?}", scope.our_arena_idx);
// let props: &'_ P = unsafe { &*(raw_props as *const P) };
// let scp: &'a ScopeInner = unsafe { std::mem::transmute(scope) };
// let s: Scope<'a, P> = (scp, props);
// let res: Element = component(s);
// unsafe { std::mem::transmute(res) }
// });
// let caller = unsafe { BumpBox::from_raw(caller) };
// VNode::Component(bump.alloc(VComponent {
// user_fc,
// comparator,
// raw_props,
// caller,
// is_static: P::IS_STATIC,
// key,
// can_memoize: P::IS_STATIC,
// drop_props,
// associated_scope: Cell::new(None),
// }))
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}
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pub fn listener(
self,
event: &'static str,
callback: BumpBox<'a, dyn FnMut(Box<dyn Any + Send>) + 'a>,
) -> Listener<'a> {
Listener {
mounted_node: Cell::new(None),
event,
callback: RefCell::new(Some(callback)),
}
}
pub fn fragment_from_iter(
self,
node_iter: impl IntoIterator<Item = impl IntoVNode<'a>>,
) -> VNode<'a> {
let bump = self.bump();
let mut nodes = bumpalo::collections::Vec::new_in(bump);
for node in node_iter {
nodes.push(node.into_vnode(self));
}
if nodes.is_empty() {
nodes.push(VNode::Anchor(bump.alloc(VAnchor {
dom_id: empty_cell(),
})));
}
let children = nodes.into_bump_slice();
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// TODO
// We need a dedicated path in the rsx! macro that will trigger the "you need keys" warning
//
// if cfg!(debug_assertions) {
// if children.len() > 1 {
// if children.last().unwrap().key().is_none() {
// log::error!(
// r#"
// Warning: Each child in an array or iterator should have a unique "key" prop.
// Not providing a key will lead to poor performance with lists.
// See docs.rs/dioxus for more information.
// ---
// To help you identify where this error is coming from, we've generated a backtrace.
// "#,
// );
// }
// }
// }
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VNode::Fragment(VFragment {
children,
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key: None,
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})
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}
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pub fn annotate_lazy<'z, 'b>(
f: impl FnOnce(NodeFactory<'z>) -> VNode<'z> + 'b,
) -> Option<LazyNodes<'z, 'b>> {
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Some(LazyNodes::new(f))
}
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}
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impl Debug for NodeFactory<'_> {
fn fmt(&self, _: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
Ok(())
}
}
/// Trait implementations for use in the rsx! and html! macros.
///
/// ## Details
///
/// This section provides convenience methods and trait implementations for converting common structs into a format accepted
/// by the macros.
///
/// All dynamic content in the macros must flow in through `fragment_from_iter`. Everything else must be statically layed out.
/// We pipe basically everything through `fragment_from_iter`, so we expect a very specific type:
/// ```
/// impl IntoIterator<Item = impl IntoVNode<'a>>
/// ```
///
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/// As such, all node creation must go through the factory, which is only available in the component context.
/// These strict requirements make it possible to manage lifetimes and state.
pub trait IntoVNode<'a> {
fn into_vnode(self, cx: NodeFactory<'a>) -> VNode<'a>;
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}
// For the case where a rendered VNode is passed into the rsx! macro through curly braces
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impl<'a> IntoIterator for VNode<'a> {
type Item = VNode<'a>;
type IntoIter = std::iter::Once<Self::Item>;
fn into_iter(self) -> Self::IntoIter {
std::iter::once(self)
}
}
// TODO: do we even need this? It almost seems better not to
// // For the case where a rendered VNode is passed into the rsx! macro through curly braces
impl<'a> IntoVNode<'a> for VNode<'a> {
fn into_vnode(self, _: NodeFactory<'a>) -> VNode<'a> {
self
}
}
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// Conveniently, we also support "null" (nothing) passed in
impl IntoVNode<'_> for () {
fn into_vnode(self, cx: NodeFactory) -> VNode {
cx.fragment_from_iter(None as Option<VNode>)
}
}
// Conveniently, we also support "None"
impl IntoVNode<'_> for Option<()> {
fn into_vnode(self, cx: NodeFactory) -> VNode {
cx.fragment_from_iter(None as Option<VNode>)
}
}
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// Conveniently, we also support "None"
impl IntoVNode<'_> for Option<NodeLink> {
fn into_vnode(self, cx: NodeFactory) -> VNode {
todo!()
// cx.fragment_from_iter(None as Option<VNode>)
}
}
// Conveniently, we also support "None"
impl IntoVNode<'_> for NodeLink {
fn into_vnode(self, cx: NodeFactory) -> VNode {
todo!()
// cx.fragment_from_iter(None as Option<VNode>)
}
}
impl<'a> IntoVNode<'a> for Option<VNode<'a>> {
fn into_vnode(self, cx: NodeFactory<'a>) -> VNode<'a> {
self.unwrap_or_else(|| cx.fragment_from_iter(None as Option<VNode>))
}
}
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impl<'a> IntoVNode<'a> for Option<LazyNodes<'a, '_>> {
fn into_vnode(self, cx: NodeFactory<'a>) -> VNode<'a> {
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match self {
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Some(lazy) => lazy.call(cx),
None => VNode::Fragment(VFragment {
children: &[],
key: None,
}),
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}
}
}
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impl<'a> IntoVNode<'a> for LazyNodes<'a, '_> {
fn into_vnode(self, cx: NodeFactory<'a>) -> VNode<'a> {
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self.call(cx)
}
}
impl IntoVNode<'_> for &'static str {
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fn into_vnode(self, cx: NodeFactory) -> VNode {
cx.static_text(self)
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}
}
impl IntoVNode<'_> for Arguments<'_> {
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fn into_vnode(self, cx: NodeFactory) -> VNode {
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cx.text(self)
}
}
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/// Access the children elements passed into the component
///
/// This enables patterns where a component is passed children from its parent.
///
/// ## Details
///
/// Unlike React, Dioxus allows *only* lists of children to be passed from parent to child - not arbitrary functions
/// or classes. If you want to generate nodes instead of accepting them as a list, consider declaring a closure
/// on the props that takes Context.
///
/// If a parent passes children into a component, the child will always re-render when the parent re-renders. In other
/// words, a component cannot be automatically memoized if it borrows nodes from its parent, even if the component's
/// props are valid for the static lifetime.
///
/// ## Example
///
/// ```rust
/// const App: FC<()> = |(cx, props)|{
/// cx.render(rsx!{
/// CustomCard {
/// h1 {}
/// p {}
/// }
/// })
/// }
///
/// const CustomCard: FC<()> = |(cx, props)|{
/// cx.render(rsx!{
/// div {
/// h1 {"Title card"}
/// {props.children}
/// }
/// })
/// }
/// ```
///
/// ## Notes:
///
/// This method returns a "ScopeChildren" object. This object is copy-able and preserve the correct lifetime.
pub struct ScopeChildren<'a> {
root: Option<VNode<'a>>,
}
impl Default for ScopeChildren<'_> {
fn default() -> Self {
Self { root: None }
}
}
impl<'a> ScopeChildren<'a> {
pub fn new(root: VNode<'a>) -> Self {
Self { root: Some(root) }
}
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pub fn new_option(root: Option<VNode<'a>>) -> Self {
Self { root }
}
}
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impl IntoIterator for &ScopeChildren<'_> {
type Item = Self;
type IntoIter = std::iter::Once<Self>;
fn into_iter(self) -> Self::IntoIter {
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std::iter::once(self)
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}
}
impl<'a> IntoVNode<'a> for &ScopeChildren<'a> {
fn into_vnode(self, cx: NodeFactory<'a>) -> VNode<'a> {
match &self.root {
Some(n) => n.decouple(),
None => cx.fragment_from_iter(None as Option<VNode>),
}
}
}