use crate::{any_props::AnyProps, arena::ElementId, Element, ScopeId, ScopeState, UiEvent}; use std::{ any::{Any, TypeId}, cell::{Cell, RefCell}, }; pub type TemplateId = &'static str; /// A reference to a template along with any context needed to hydrate it /// /// The dynamic parts of the template are stored separately from the static parts. This allows faster diffing by skipping /// static parts of the template. #[derive(Debug, Clone)] pub struct VNode<'a> { // The ID assigned for the root of this template pub node_id: Cell, /// The key given to the root of this template. /// /// In fragments, this is the key of the first child. In other cases, it is the key of the root. pub key: Option<&'a str>, /// When rendered, this template will be linked to its parent manually pub parent: Option, /// The static nodes and static descriptor of the template pub template: Template<'static>, /// The IDs for the roots of this template - to be used when moving the template around and removing it from /// the actual Dom pub root_ids: &'a [Cell], /// The dynamic parts of the template pub dynamic_nodes: &'a [DynamicNode<'a>], /// The dynamic parts of the template pub dynamic_attrs: &'a [Attribute<'a>], } impl<'a> VNode<'a> { pub fn empty() -> Element<'a> { Ok(VNode { node_id: Cell::new(ElementId(0)), key: None, parent: None, root_ids: &[], dynamic_nodes: &[], dynamic_attrs: &[], template: Template { id: "dioxus-empty", roots: &[], node_paths: &[], attr_paths: &[], }, }) } pub fn dynamic_root(&self, idx: usize) -> Option<&'a DynamicNode<'a>> { match &self.template.roots[idx] { TemplateNode::Element { .. } | TemplateNode::Text(_) => None, TemplateNode::Dynamic(id) | TemplateNode::DynamicText(id) => { Some(&self.dynamic_nodes[*id]) } } } } #[derive(Debug, Clone, Copy)] pub struct Template<'a> { pub id: &'a str, pub roots: &'a [TemplateNode<'a>], pub node_paths: &'a [&'a [u8]], pub attr_paths: &'a [&'a [u8]], } /// A weird-ish variant of VNodes with way more limited types #[derive(Debug, Clone, Copy)] pub enum TemplateNode<'a> { Element { tag: &'a str, namespace: Option<&'a str>, attrs: &'a [TemplateAttribute<'a>], children: &'a [TemplateNode<'a>], inner_opt: bool, }, Text(&'a str), Dynamic(usize), DynamicText(usize), } #[derive(Debug)] pub enum DynamicNode<'a> { Component(VComponent<'a>), Text(VText<'a>), Fragment(VFragment<'a>), } impl<'a> DynamicNode<'a> { pub fn is_component(&self) -> bool { matches!(self, DynamicNode::Component(_)) } } pub struct VComponent<'a> { pub name: &'static str, pub static_props: bool, pub scope: Cell>, pub props: Cell + 'a>>>, pub render_fn: *const (), } impl<'a> std::fmt::Debug for VComponent<'a> { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { f.debug_struct("VComponent") .field("name", &self.name) .field("static_props", &self.static_props) .field("scope", &self.scope) .finish() } } #[derive(Debug)] pub struct VText<'a> { pub id: Cell, pub value: &'a str, } #[derive(Debug)] pub enum VFragment<'a> { Empty(Cell), NonEmpty(&'a [VNode<'a>]), } #[derive(Debug)] pub enum TemplateAttribute<'a> { Static { name: &'static str, value: &'a str, namespace: Option<&'static str>, volatile: bool, }, Dynamic(usize), } #[derive(Debug)] pub struct Attribute<'a> { pub name: &'a str, pub value: AttributeValue<'a>, pub namespace: Option<&'static str>, pub mounted_element: Cell, pub volatile: bool, } pub enum AttributeValue<'a> { Text(&'a str), Float(f32), Int(i32), Bool(bool), Listener(RefCell<&'a mut dyn FnMut(UiEvent)>), Any(&'a dyn AnyValue), None, } impl<'a> AttributeValue<'a> { pub fn new_listener( cx: &'a ScopeState, mut f: impl FnMut(UiEvent) + 'a, ) -> AttributeValue<'a> { AttributeValue::Listener(RefCell::new(cx.bump().alloc( move |event: UiEvent| { if let Ok(data) = event.data.downcast::() { f(UiEvent { bubbles: event.bubbles, data, }) } }, ))) } } impl<'a> std::fmt::Debug for AttributeValue<'a> { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { match self { Self::Text(arg0) => f.debug_tuple("Text").field(arg0).finish(), Self::Float(arg0) => f.debug_tuple("Float").field(arg0).finish(), Self::Int(arg0) => f.debug_tuple("Int").field(arg0).finish(), Self::Bool(arg0) => f.debug_tuple("Bool").field(arg0).finish(), Self::Listener(_) => f.debug_tuple("Listener").finish(), Self::Any(_) => f.debug_tuple("Any").finish(), Self::None => write!(f, "None"), } } } impl<'a> PartialEq for AttributeValue<'a> { fn eq(&self, other: &Self) -> bool { match (self, other) { (Self::Text(l0), Self::Text(r0)) => l0 == r0, (Self::Float(l0), Self::Float(r0)) => l0 == r0, (Self::Int(l0), Self::Int(r0)) => l0 == r0, (Self::Bool(l0), Self::Bool(r0)) => l0 == r0, (Self::Listener(_), Self::Listener(_)) => true, (Self::Any(l0), Self::Any(r0)) => l0.any_cmp(*r0), _ => core::mem::discriminant(self) == core::mem::discriminant(other), } } } impl<'a> AttributeValue<'a> { pub fn matches_type(&self, other: &'a AttributeValue<'a>) -> bool { match (self, other) { (Self::Text(_), Self::Text(_)) => true, (Self::Float(_), Self::Float(_)) => true, (Self::Int(_), Self::Int(_)) => true, (Self::Bool(_), Self::Bool(_)) => true, (Self::Listener(_), Self::Listener(_)) => true, (Self::Any(_), Self::Any(_)) => true, _ => return false, } } } pub trait AnyValue { fn any_cmp(&self, other: &dyn AnyValue) -> bool; fn our_typeid(&self) -> TypeId; } impl AnyValue for T { fn any_cmp(&self, other: &dyn AnyValue) -> bool { if self.type_id() != other.our_typeid() { return false; } self == unsafe { &*(other as *const _ as *const T) } } fn our_typeid(&self) -> TypeId { self.type_id() } } #[test] fn what_are_the_sizes() { dbg!(std::mem::size_of::()); dbg!(std::mem::size_of::