//! Virtual Node Support //! //! 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. use crate::{ dynamic_template_context::TemplateContext, innerlude::{ AttributeValue, ComponentPtr, Element, Properties, Scope, ScopeId, ScopeState, Template, TemplateId, }, lazynodes::LazyNodes, template::{TemplateNodeId, VTemplateRef}, AnyEvent, Component, }; use bumpalo::{boxed::Box as BumpBox, Bump}; use std::{ cell::{Cell, RefCell}, fmt::{Arguments, Debug, Formatter}, num::ParseIntError, rc::Rc, str::FromStr, }; /// The ID of a node in the vdom that is either standalone or in a template #[derive(Clone, Copy, Debug, PartialEq, Hash, Eq)] #[cfg_attr(feature = "serialize", derive(serde::Serialize, serde::Deserialize))] #[cfg_attr(feature = "serialize", serde(untagged))] pub enum GlobalNodeId { /// The ID of a node and the template that contains it TemplateId { /// The template that contains the node template_ref_id: ElementId, /// The ID of the node in the template template_node_id: TemplateNodeId, }, /// The ID of a regular node VNodeId(ElementId), } impl From for GlobalNodeId { fn from(id: ElementId) -> GlobalNodeId { GlobalNodeId::VNodeId(id) } } impl PartialEq for GlobalNodeId { fn eq(&self, other: &ElementId) -> bool { match self { GlobalNodeId::TemplateId { .. } => false, GlobalNodeId::VNodeId(id) => id == other, } } } impl FromStr for GlobalNodeId { type Err = ParseIntError; fn from_str(s: &str) -> Result { if let Some((tmpl_id, node_id)) = s.split_once(',') { Ok(GlobalNodeId::TemplateId { template_ref_id: ElementId(tmpl_id.parse()?), template_node_id: TemplateNodeId(node_id.parse()?), }) } else { Ok(GlobalNodeId::VNodeId(ElementId(s.parse()?))) } } } /// A composable "VirtualNode" to declare a User Interface in the Dioxus VirtualDOM. /// /// VNodes are designed to be lightweight and used with with a bump allocator. To create a VNode, you can use either of: /// /// - the `rsx!` macro /// - the [`NodeFactory`] API pub enum VNode<'src> { /// Text VNodes are simply bump-allocated (or static) string slices /// /// # Example /// /// ```rust, ignore /// let mut vdom = VirtualDom::new(); /// let node = vdom.render_vnode(rsx!( "hello" )); /// /// 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>), /// Element VNodes are VNodes that may contain attributes, listeners, a key, a tag, and children. /// /// # Example /// /// ```rust, ignore /// let mut vdom = VirtualDom::new(); /// /// let node = vdom.render_vnode(rsx!{ /// div { /// key: "a", /// onclick: |e| log::info!("clicked"), /// hidden: "true", /// style: { background_color: "red" }, /// "hello" /// } /// }); /// /// if let VNode::Element(velement) = node { /// assert_eq!(velement.tag_name, "div"); /// assert_eq!(velement.namespace, None); /// assert_eq!(velement.key, Some("a")); /// } /// ``` Element(&'src VElement<'src>), /// Fragment nodes may contain many VNodes without a single root. /// /// # Example /// /// ```rust, ignore /// rsx!{ /// a {} /// link {} /// style {} /// "asd" /// Example {} /// } /// ``` Fragment(&'src VFragment<'src>), /// Component nodes represent a mounted component with props, children, and a key. /// /// # Example /// /// ```rust, ignore /// fn Example(cx: Scope) -> Element { /// ... /// } /// /// let mut vdom = VirtualDom::new(); /// /// let node = vdom.render_vnode(rsx!( Example {} )); /// /// if let VNode::Component(vcomp) = node { /// assert_eq!(vcomp.user_fc, Example as *const ()); /// } /// ``` Component(&'src VComponent<'src>), /// Placeholders are a type of placeholder VNode used when fragments don't contain any children. /// /// Placeholders cannot be directly constructed via public APIs. /// /// # Example /// /// ```rust, ignore /// let mut vdom = VirtualDom::new(); /// /// let node = vdom.render_vnode(rsx!( Fragment {} )); /// /// if let VNode::Fragment(frag) = node { /// let root = &frag.children[0]; /// assert_eq!(root, VNode::Anchor); /// } /// ``` Placeholder(&'src VPlaceholder), /// Templetes ase generated by the rsx macro to eleminate diffing static nodes. TemplateRef(&'src VTemplateRef<'src>), } impl<'src> VNode<'src> { /// Get the VNode's "key" used in the keyed diffing algorithm. pub fn key(&self) -> Option<&'src str> { match &self { VNode::Element(el) => el.key, VNode::Component(c) => c.key, VNode::Fragment(f) => f.key, VNode::Text(_t) => None, VNode::Placeholder(_f) => None, VNode::TemplateRef(t) => t.dynamic_context.key, } } /// 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() } /// 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 { match &self { VNode::Text(el) => el.id.get(), VNode::Element(el) => el.id.get(), VNode::Placeholder(el) => el.id.get(), VNode::Fragment(_) => None, VNode::Component(_) => None, VNode::TemplateRef(t) => t.id.get(), } } // Create an "owned" version of the vnode. pub(crate) 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::Placeholder(a) => VNode::Placeholder(a), VNode::Fragment(f) => VNode::Fragment(f), VNode::TemplateRef(t) => VNode::TemplateRef(t), } } } impl Debug for VNode<'_> { fn fmt(&self, s: &mut Formatter<'_>) -> std::result::Result<(), std::fmt::Error> { match &self { VNode::Element(el) => s .debug_struct("VNode::Element") .field("name", &el.tag) .field("key", &el.key) .field("attrs", &el.attributes) .field("children", &el.children) .field("id", &el.id) .finish(), VNode::Text(t) => s .debug_struct("VNode::Text") .field("text", &t.text) .field("id", &t.id) .finish(), VNode::Placeholder(t) => s .debug_struct("VNode::Placholder") .field("id", &t.id) .finish(), VNode::Fragment(frag) => s .debug_struct("VNode::Fragment") .field("children", &frag.children) .finish(), VNode::Component(comp) => s .debug_struct("VNode::Component") .field("name", &comp.fn_name) .field("fnptr", &comp.user_fc) .field("key", &comp.key) .field("scope", &comp.scope) .finish(), VNode::TemplateRef(temp) => s .debug_struct("VNode::TemplateRef") .field("template_id", &temp.template_id) .field("id", &temp.id) .finish(), } } } /// An Element's unique identifier. /// /// `ElementId` is a `usize` that is unique across the entire VirtualDOM - but not unique across time. If a component is /// unmounted, then the `ElementId` will be reused for a new component. #[derive(Copy, Clone, PartialEq, Eq, Hash, Debug)] #[cfg_attr(feature = "serialize", derive(serde::Serialize, serde::Deserialize))] #[cfg_attr(feature = "serialize", serde(transparent))] pub struct ElementId(pub usize); impl std::fmt::Display for ElementId { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { write!(f, "{}", self.0) } } impl ElementId { /// Convert the ElementId to a `u64`. pub fn as_u64(&self) -> u64 { (*self).into() } } impl From for u64 { fn from(el: ElementId) -> u64 { el.0 as u64 } } fn empty_cell() -> Cell> { Cell::new(None) } /// A placeholder node only generated when Fragments don't have any children. pub struct VPlaceholder { /// The [`ElementId`] of the placeholder. pub id: Cell>, } /// A bump-allocated string slice and metadata. pub struct VText<'src> { /// The [`ElementId`] of the VText. pub id: Cell>, /// The text of the VText. pub text: &'src str, /// An indiciation if this VText can be ignored during diffing /// Is usually only when there are no strings to be formatted (so the text is &'static str) pub is_static: bool, } /// A list of VNodes with no single root. pub struct VFragment<'src> { /// The key of the fragment to be used during keyed diffing. pub key: Option<&'src str>, /// Fragments can never have zero children. Enforced by NodeFactory. /// /// You *can* make a fragment with no children, but it's not a valid fragment and your VDom will panic. pub children: &'src [VNode<'src>], } /// An element like a "div" with children, listeners, and attributes. pub struct VElement<'a> { /// The [`ElementId`] of the VText. pub id: Cell>, /// The key of the element to be used during keyed diffing. pub key: Option<&'a str>, /// The tag name of the element. /// /// IE "div" pub tag: &'static str, /// The namespace of the VElement /// /// IE "svg" pub namespace: Option<&'static str>, /// The parent of the Element (if any). /// /// Used when bubbling events pub parent: Cell>, /// The Listeners of the VElement. pub listeners: &'a [Listener<'a>], /// The attributes of the VElement. pub attributes: &'a [Attribute<'a>], /// The children of the VElement. pub children: &'a [VNode<'a>], } impl Debug for VElement<'_> { fn fmt(&self, f: &mut Formatter<'_>) -> std::fmt::Result { f.debug_struct("VElement") .field("tag_name", &self.tag) .field("namespace", &self.namespace) .field("key", &self.key) .field("id", &self.id) .field("parent", &self.parent) .field("listeners", &self.listeners.len()) .field("attributes", &self.attributes) .field("children", &self.children) .finish() } } /// A trait for any generic Dioxus Element. /// /// This trait provides the ability to use custom elements in the `rsx!` macro. /// /// ```rust, ignore /// struct my_element; /// /// impl DioxusElement for my_element { /// const TAG_NAME: "my_element"; /// const NAME_SPACE: None; /// } /// /// let _ = rsx!{ /// my_element {} /// }; /// ``` pub trait DioxusElement { /// The tag name of the element. const TAG_NAME: &'static str; /// The namespace of the element. const NAME_SPACE: Option<&'static str>; /// The tag name of the element. #[inline] fn tag_name(&self) -> &'static str { Self::TAG_NAME } /// The namespace of the element. #[inline] fn namespace(&self) -> Option<&'static str> { Self::NAME_SPACE } } type StaticStr = &'static str; /// A discription of the attribute #[derive(Clone, Copy, Debug, PartialEq, Hash, Eq)] #[cfg_attr(feature = "serialize", derive(serde::Serialize))] #[cfg_attr( all(feature = "serialize", any(feature = "hot-reload", debug_assertions)), derive(serde::Deserialize) )] pub struct AttributeDiscription { /// The name of the attribute. #[cfg_attr( all(feature = "serialize", any(feature = "hot-reload", debug_assertions)), serde(deserialize_with = "crate::util::deserialize_static_leaky") )] pub name: StaticStr, /// The namespace of the attribute. /// /// Doesn't exist in the html spec. /// Used in Dioxus to denote "style" tags and other attribute groups. #[cfg_attr( all(feature = "serialize", any(feature = "hot-reload", debug_assertions)), serde(deserialize_with = "crate::util::deserialize_static_leaky_ns") )] pub namespace: Option, /// An indication of we should always try and set the attribute. /// Used in controlled components to ensure changes are propagated. pub volatile: bool, } /// An attribute on a DOM node, such as `id="my-thing"` or /// `href="https://example.com"`. #[derive(Clone, Debug)] pub struct Attribute<'a> { /// The discription of the attribute. pub attribute: AttributeDiscription, /// An indication if this attribute can be ignored during diffing /// /// Usually only when there are no strings to be formatted (so the value is &'static str) pub is_static: bool, /// The value of the attribute. pub value: AttributeValue<'a>, } /// An event listener. /// IE onclick, onkeydown, etc pub struct Listener<'bump> { /// 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>, /// The type of event to listen for. /// /// IE "click" - whatever the renderer needs to attach the listener by name. pub event: &'static str, /// The actual callback that the user specified pub(crate) callback: InternalHandler<'bump>, } pub type InternalHandler<'bump> = &'bump RefCell>>; type InternalListenerCallback<'bump> = BumpBox<'bump, dyn FnMut(AnyEvent) + 'bump>; type ExternalListenerCallback<'bump, T> = BumpBox<'bump, dyn FnMut(T) + 'bump>; /// The callback type generated by the `rsx!` macro when an `on` field is specified for components. /// /// This makes it possible to pass `move |evt| {}` style closures into components as property fields. /// /// /// # Example /// /// ```rust, ignore /// /// rsx!{ /// MyComponent { onclick: move |evt| log::info!("clicked"), } /// } /// /// #[derive(Props)] /// struct MyProps<'a> { /// onclick: EventHandler<'a, MouseEvent>, /// } /// /// fn MyComponent(cx: Scope<'a, MyProps<'a>>) -> Element { /// cx.render(rsx!{ /// button { /// onclick: move |evt| cx.props.onclick.call(evt), /// } /// }) /// } /// /// ``` pub struct EventHandler<'bump, T = ()> { /// The (optional) callback that the user specified /// Uses a `RefCell` to allow for interior mutability, and FnMut closures. pub callback: RefCell>>, } impl<'a, T> Default for EventHandler<'a, T> { fn default() -> Self { Self { callback: RefCell::new(None), } } } impl EventHandler<'_, T> { /// Call this event handler with the appropriate event type pub fn call(&self, event: T) { if let Some(callback) = self.callback.borrow_mut().as_mut() { callback(event); } } /// Forcibly drop the internal handler callback, releasing memory pub fn release(&self) { self.callback.replace(None); } } /// Virtual Components for custom user-defined components /// Only supports the functional syntax pub struct VComponent<'src> { /// The key of the component to be used during keyed diffing. pub key: Option<&'src str>, /// The ID of the component. /// Will not be assigned until after the component has been initialized. pub scope: Cell>, /// An indication if the component is static (can be memozied) pub can_memoize: bool, /// The function pointer to the component's render function. pub user_fc: ComponentPtr, /// The actual name of the component. pub fn_name: &'static str, /// The props of the component. pub props: RefCell>>, } pub(crate) struct VComponentProps

{ pub render_fn: Component

, pub memo: unsafe fn(&P, &P) -> bool, pub props: P, } pub trait AnyProps { fn as_ptr(&self) -> *const (); fn render<'a>(&'a self, bump: &'a ScopeState) -> Element<'a>; unsafe fn memoize(&self, other: &dyn AnyProps) -> bool; } impl

AnyProps for VComponentProps

{ fn as_ptr(&self) -> *const () { &self.props as *const _ as *const () } // Safety: // this will downcast the other ptr as our swallowed type! // you *must* make this check *before* calling this method // if your functions are not the same, then you will downcast a pointer into a different type (UB) unsafe fn memoize(&self, other: &dyn AnyProps) -> bool { let real_other: &P = &*(other.as_ptr() as *const _ as *const P); let real_us: &P = &*(self.as_ptr() as *const _ as *const P); (self.memo)(real_us, real_other) } fn render<'a>(&'a self, scope: &'a ScopeState) -> Element<'a> { let props = unsafe { std::mem::transmute::<&P, &P>(&self.props) }; (self.render_fn)(Scope { scope, props }) } } /// 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> { pub(crate) scope: &'a ScopeState, pub(crate) bump: &'a Bump, } impl<'a> NodeFactory<'a> { /// Create a new [`NodeFactory`] from a [`Scope`] or [`ScopeState`] pub fn new(scope: &'a ScopeState) -> NodeFactory<'a> { NodeFactory { scope, bump: &scope.wip_frame().bump, } } /// Get the custom allocator for this component #[inline] pub fn bump(&self) -> &'a bumpalo::Bump { self.bump } /// 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 { id: empty_cell(), text, is_static: true, })) } /// 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 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; let mut str_buf = bumpalo::collections::String::new_in(self.bump); str_buf.write_fmt(args).unwrap(); (str_buf.into_bump_str(), false) } } } /// Create some text that's allocated along with the other vnodes /// pub fn text(&self, args: Arguments) -> VNode<'a> { let (text, is_static) = self.raw_text(args); VNode::Text(self.bump.alloc(VText { text, is_static, id: empty_cell(), })) } /// Create a new [`VNode::Element`] pub fn element( &self, el: impl DioxusElement, listeners: &'a [Listener<'a>], attributes: &'a [Attribute<'a>], children: &'a [VNode<'a>], key: Option, ) -> VNode<'a> { self.raw_element( el.tag_name(), el.namespace(), listeners, attributes, children, key, ) } /// Create a new [`VNode::Element`] without the trait bound /// /// IE pass in "div" instead of `div` pub fn raw_element( &self, tag_name: &'static str, namespace: Option<&'static str>, listeners: &'a [Listener<'a>], attributes: &'a [Attribute<'a>], children: &'a [VNode<'a>], key: Option, ) -> VNode<'a> { let key = key.map(|f| self.raw_text(f).0); let mut items = self.scope.items.borrow_mut(); for listener in listeners { let long_listener = unsafe { std::mem::transmute(listener) }; items.listeners.push(long_listener); } VNode::Element(self.bump.alloc(VElement { tag: tag_name, key, namespace, listeners, attributes, children, id: empty_cell(), parent: empty_cell(), })) } /// Create a new [`Attribute`] from a attribute discrimination and a value pub fn attr_disciption( &self, discription: AttributeDiscription, val: Arguments, ) -> Attribute<'a> { let (value, is_static) = self.raw_text(val); Attribute { attribute: discription, is_static, value: AttributeValue::Text(value), } } /// Create a new [`Attribute`] 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 { attribute: AttributeDiscription { name, namespace, volatile: is_volatile, }, is_static, value: AttributeValue::Text(value), } } /// Create a new [`Attribute`] using non-arguments pub fn custom_attr( &self, name: &'static str, value: AttributeValue<'a>, namespace: Option<&'static str>, is_volatile: bool, is_static: bool, ) -> Attribute<'a> { Attribute { attribute: AttributeDiscription { name, namespace, volatile: is_volatile, }, is_static, value, } } /// Create a new [`VNode::Component`] pub fn component

( &self, component: fn(Scope<'a, P>) -> Element, props: P, key: Option, fn_name: &'static str, ) -> VNode<'a> where P: Properties + 'a, { let vcomp = self.bump.alloc(VComponent { key: key.map(|f| self.raw_text(f).0), scope: Default::default(), can_memoize: P::IS_STATIC, user_fc: component as ComponentPtr, fn_name, props: RefCell::new(Some(Box::new(VComponentProps { props, memo: P::memoize, // smuggle the memoization function across borders // i'm sorry but I just need to bludgeon the lifetimes into place here // this is safe because we're managing all lifetimes to originate from previous calls // the intricacies of Rust's lifetime system make it difficult to properly express // the transformation from this specific lifetime to the for<'a> lifetime render_fn: unsafe { std::mem::transmute(component) }, }))), }); if !P::IS_STATIC { let vcomp = &*vcomp; let vcomp = unsafe { std::mem::transmute(vcomp) }; self.scope.items.borrow_mut().borrowed_props.push(vcomp); } VNode::Component(vcomp) } /// Create a new [`Listener`] pub fn listener(self, event: &'static str, callback: InternalHandler<'a>) -> Listener<'a> { Listener { event, mounted_node: Cell::new(None), callback, } } /// Create a new [`VNode::Fragment`] from a root of the rsx! call pub fn fragment_root<'b, 'c>( self, node_iter: impl IntoIterator + 'c> + 'b, ) -> VNode<'a> { let mut nodes = bumpalo::collections::Vec::new_in(self.bump); for node in node_iter { nodes.push(node.into_vnode(self)); } if nodes.is_empty() { VNode::Placeholder(self.bump.alloc(VPlaceholder { id: empty_cell() })) } else { VNode::Fragment(self.bump.alloc(VFragment { children: nodes.into_bump_slice(), key: None, })) } } /// Create a new [`VNode::Fragment`] from any iterator pub fn fragment_from_iter<'c, I, J>( self, node_iter: impl IntoVNode<'a, I, J> + 'c, ) -> VNode<'a> { node_iter.into_vnode(self) } /// Create a new [`VNode`] from any iterator of children pub fn create_children( self, node_iter: impl IntoIterator>, ) -> Element<'a> { let mut nodes = bumpalo::collections::Vec::new_in(self.bump); for node in node_iter { nodes.push(node.into_vnode(self)); } if nodes.is_empty() { Some(VNode::Placeholder( self.bump.alloc(VPlaceholder { id: empty_cell() }), )) } else { let children = nodes.into_bump_slice(); Some(VNode::Fragment(self.bump.alloc(VFragment { children, key: None, }))) } } /// Create a new [`EventHandler`] from an [`FnMut`] pub fn event_handler(self, f: impl FnMut(T) + 'a) -> EventHandler<'a, T> { let handler: &mut dyn FnMut(T) = self.bump.alloc(f); let caller = unsafe { BumpBox::from_raw(handler as *mut dyn FnMut(T)) }; let callback = RefCell::new(Some(caller)); EventHandler { callback } } /// Create a refrence to a template pub fn template_ref( &self, id: TemplateId, template: Template, dynamic_context: TemplateContext<'a>, ) -> VNode<'a> { let borrow_ref = self.scope.templates.borrow(); // We only create the template if it doesn't already exist to allow for hot reloading if !borrow_ref.contains_key(&id) { drop(borrow_ref); let mut borrow_mut = self.scope.templates.borrow_mut(); borrow_mut.insert(id.clone(), Rc::new(RefCell::new(template))); } VNode::TemplateRef(self.bump.alloc(VTemplateRef { id: empty_cell(), dynamic_context, template_id: id, })) } } 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: /// ```rust, ignore /// impl IntoIterator> /// ``` /// /// 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, I = (), J = ()> { /// Convert this into a [`VNode`], using the [`NodeFactory`] as a source of allocation fn into_vnode(self, cx: NodeFactory<'a>) -> VNode<'a>; } // 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 } } // Conveniently, we also support "null" (nothing) passed in impl IntoVNode<'_> for () { fn into_vnode(self, cx: NodeFactory) -> VNode { VNode::Placeholder(cx.bump.alloc(VPlaceholder { id: empty_cell() })) } } impl<'a, 'b> IntoVNode<'a> for LazyNodes<'a, 'b> { fn into_vnode(self, cx: NodeFactory<'a>) -> VNode<'a> { self.call(cx) } } impl<'b> IntoVNode<'_> for &'b str { fn into_vnode(self, cx: NodeFactory) -> VNode { cx.text(format_args!("{}", self)) } } impl IntoVNode<'_> for String { fn into_vnode(self, cx: NodeFactory) -> VNode { cx.text(format_args!("{}", self)) } } impl IntoVNode<'_> for Arguments<'_> { fn into_vnode(self, cx: NodeFactory) -> VNode { cx.text(self) } } impl<'a> IntoVNode<'a> for &VNode<'a> { fn into_vnode(self, _cx: NodeFactory<'a>) -> VNode<'a> { // borrowed nodes are strange self.decouple() } } // Note that we're using the E as a generic but this is never crafted anyways. pub struct FromNodeIterator; impl<'a, T, I, E> IntoVNode<'a, FromNodeIterator, E> for T where T: IntoIterator, I: IntoVNode<'a, E>, { fn into_vnode(self, cx: NodeFactory<'a>) -> VNode<'a> { let mut nodes = bumpalo::collections::Vec::new_in(cx.bump); for node in self { nodes.push(node.into_vnode(cx)); } if nodes.is_empty() { VNode::Placeholder(cx.bump.alloc(VPlaceholder { id: empty_cell() })) } else { let children = nodes.into_bump_slice(); if cfg!(debug_assertions) && children.len() > 1 && children.last().unwrap().key().is_none() { // todo: make the backtrace prettier or remove it altogether 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. ------------- {:?} "#, backtrace::Backtrace::new() ); } VNode::Fragment(cx.bump.alloc(VFragment { children, key: None, })) } } }