use crate::{nodes::RenderReturn, nodes::VNode, virtual_dom::VirtualDom, DynamicNode, ScopeId}; use bumpalo::boxed::Box as BumpBox; /// 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. #[cfg_attr(feature = "serialize", derive(serde::Serialize, serde::Deserialize))] #[derive(Clone, Copy, Debug, PartialEq, Eq, PartialOrd, Ord, Hash, Default)] pub struct ElementId(pub usize); pub(crate) struct ElementRef { // the pathway of the real element inside the template pub path: ElementPath, // The actual template pub template: *const VNode<'static>, } #[derive(Clone, Copy)] pub enum ElementPath { Deep(&'static [u8]), Root(usize), } impl ElementRef { pub(crate) fn null() -> Self { Self { template: std::ptr::null_mut(), path: ElementPath::Root(0), } } } impl VirtualDom { pub(crate) fn next_element(&mut self, template: &VNode, path: &'static [u8]) -> ElementId { let entry = self.elements.vacant_entry(); let id = entry.key(); entry.insert(ElementRef { template: template as *const _ as *mut _, path: ElementPath::Deep(path), }); ElementId(id) } pub(crate) fn next_root(&mut self, template: &VNode, path: usize) -> ElementId { let entry = self.elements.vacant_entry(); let id = entry.key(); entry.insert(ElementRef { template: template as *const _ as *mut _, path: ElementPath::Root(path), }); ElementId(id) } pub(crate) fn reclaim(&mut self, el: ElementId) { self.try_reclaim(el) .unwrap_or_else(|| panic!("cannot reclaim {:?}", el)); } pub(crate) fn try_reclaim(&mut self, el: ElementId) -> Option { if el.0 == 0 { panic!( "Cannot reclaim the root element - {:#?}", std::backtrace::Backtrace::force_capture() ); } self.elements.try_remove(el.0) } pub(crate) fn update_template(&mut self, el: ElementId, node: &VNode) { let node: *const VNode = node as *const _; self.elements[el.0].template = unsafe { std::mem::transmute(node) }; } // Drop a scope and all its children pub(crate) fn drop_scope(&mut self, id: ScopeId) { if let Some(root) = self.scopes[id.0].as_ref().try_root_node() { if let RenderReturn::Sync(Ok(node)) = unsafe { root.extend_lifetime_ref() } { self.drop_scope_inner(node) } } self.scopes[id.0].props.take(); // Drop all the hooks once the children are dropped // this means we'll drop hooks bottom-up self.scopes[id.0] .hook_list .get_mut() .drain(..) .for_each(|hook| drop(unsafe { BumpBox::from_raw(hook) })); } fn drop_scope_inner(&mut self, node: &VNode) { node.clear_listeners(); node.dynamic_nodes.iter().for_each(|node| match node { DynamicNode::Component(c) => self.drop_scope(c.scope.get().unwrap()), DynamicNode::Fragment(nodes) => nodes .into_iter() .for_each(|node| self.drop_scope_inner(node)), _ => {} }) } /// Descend through the tree, removing any borrowed props and listeners pub(crate) fn ensure_drop_safety(&self, scope: ScopeId) { let node = unsafe { self.scopes[scope.0].previous_frame().try_load_node() }; // And now we want to make sure the previous frame has dropped anything that borrows self if let Some(RenderReturn::Sync(Ok(node))) = node { self.ensure_drop_safety_inner(node); } } fn ensure_drop_safety_inner(&self, node: &VNode) { node.clear_listeners(); node.dynamic_nodes.iter().for_each(|child| match child { // Only descend if the props are borrowed DynamicNode::Component(c) if !c.static_props => { self.ensure_drop_safety(c.scope.get().unwrap()); c.props.set(None); } DynamicNode::Fragment(f) => f .iter() .for_each(|node| self.ensure_drop_safety_inner(node)), _ => {} }); } } impl ElementPath { pub(crate) fn is_ascendant(&self, big: &&[u8]) -> bool { match *self { ElementPath::Deep(small) => small.len() <= big.len() && small == &big[..small.len()], ElementPath::Root(r) => big.len() == 1 && big[0] == r as u8, } } } impl PartialEq<&[u8]> for ElementPath { fn eq(&self, other: &&[u8]) -> bool { match *self { ElementPath::Deep(deep) => deep.eq(*other), ElementPath::Root(r) => other.len() == 1 && other[0] == r as u8, } } }