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intial implementation of shadow trees

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This commit is contained in:
Evan Almloff 2023-04-07 11:11:46 -05:00
parent b2c87f5c47
commit 874956bc50
4 changed files with 199 additions and 37 deletions
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17
packages/native-core/src/custom_element.rs
View file

@ -1,10 +1,6 @@
use std::{
cell::RefCell,
sync::{Arc, RwLock},
};
use std::sync::{Arc, RwLock};
use rustc_hash::FxHashMap;
use shipyard::Component;
use crate::{
node::{FromAnyValue, NodeType},
@ -15,11 +11,18 @@ use crate::{
NodeId,
};
#[derive(Default)]
pub(crate) struct CustomElementRegistry<V: FromAnyValue + Send + Sync> {
builders: FxHashMap<&'static str, CustomElementBuilder<V>>,
}
impl<V: FromAnyValue + Send + Sync> Default for CustomElementRegistry<V> {
fn default() -> Self {
Self {
builders: FxHashMap::default(),
}
}
}
impl<V: FromAnyValue + Send + Sync> CustomElementRegistry<V> {
pub fn register<W: CustomElement<V>>(&mut self) {
self.builders.insert(
@ -99,7 +102,7 @@ impl<W: CustomElement<V>, V: FromAnyValue + Send + Sync> ElementFactory<W, V> fo
/// A trait for updating widgets
trait CustomElementUpdater<V: FromAnyValue + Send + Sync = ()>: Send + Sync + 'static {
/// Called when the attributes of the widget are changed.
fn attributes_changed(&mut self, _dom: &mut RealDom<V>, _attributes: &AttributeMask);
fn attributes_changed(&mut self, dom: &mut RealDom<V>, attributes: &AttributeMask);
/// The root node of the widget.
fn root(&self) -> NodeId;

2
packages/native-core/src/passes.rs
View file

@ -104,7 +104,7 @@ pub trait State<V: FromAnyValue + Send + Sync = ()>: Any + Send + Sync {
/// This is a mask of what aspects of the node are required to update this state
const NODE_MASK: NodeMaskBuilder<'static>;
/// Does the state traverse into the shadow dom?
/// Does the state traverse into the shadow dom or pass over it. This should be true for layout and false for styles
const TRAVERSE_SHADOW_DOM: bool = false;
/// Update this state in a node, returns if the state was updated

4
packages/native-core/src/real_dom.rs
View file

@ -10,6 +10,7 @@ use std::collections::VecDeque;
use std::ops::{Deref, DerefMut};
use std::sync::{Arc, RwLock};
use crate::custom_element::CustomElementRegistry;
use crate::node::{
ElementNode, FromAnyValue, NodeType, OwnedAttributeDiscription, OwnedAttributeValue, TextNode,
};
@ -112,6 +113,7 @@ pub struct RealDom<V: FromAnyValue + Send + Sync = ()> {
attribute_watchers: AttributeWatchers<V>,
workload: ScheduledWorkload,
root_id: NodeId,
custom_elements: CustomElementRegistry<V>,
phantom: std::marker::PhantomData<V>,
}
@ -170,6 +172,7 @@ impl<V: FromAnyValue + Send + Sync> RealDom<V> {
attribute_watchers: Default::default(),
workload,
root_id,
custom_elements: Default::default(),
phantom: std::marker::PhantomData,
}
}
@ -759,6 +762,7 @@ impl<'a, V: FromAnyValue + Send + Sync> NodeMut<'a, V> {
}
let id = self.id();
self.dom.tree_mut().replace(id, new);
self.remove();
}
/// Add an event listener

213
packages/native-core/src/tree.rs
View file

@ -4,11 +4,25 @@ use crate::NodeId;
use shipyard::{Component, EntitiesViewMut, Get, View, ViewMut};
use std::fmt::Debug;
/// A subtree of a tree.
#[derive(PartialEq, Eq, Clone, Debug, Component)]
pub struct Subtree {
/// The root of the subtree
shadow_roots: Vec<NodeId>,
/// The node that children of the super tree should be inserted under.
slot: Option<NodeId>,
/// The node in the super tree that the subtree is attached to.
super_tree_root: NodeId,
}
/// A node in a tree.
#[derive(PartialEq, Eq, Clone, Debug, Component)]
pub struct Node {
parent: Option<NodeId>,
children: Vec<NodeId>,
child_subtree: Option<Subtree>,
/// If this node is a slot in a subtree, this is node whose child_subtree is that subtree.
slot_for_supertree: Option<NodeId>,
height: u16,
}
@ -23,6 +37,8 @@ pub trait TreeRef {
fn parent_id(&self, id: NodeId) -> Option<NodeId>;
/// The children ids of the node.
fn children_ids(&self, id: NodeId) -> Vec<NodeId>;
/// The subtree tree under the node.
fn subtree(&self, id: NodeId) -> Option<&Subtree>;
/// The height of the node.
fn height(&self, id: NodeId) -> Option<u16>;
/// Returns true if the node exists.
@ -31,10 +47,8 @@ pub trait TreeRef {
/// A mutable view of a tree.
pub trait TreeMut: TreeRef {
/// Removes the node and all of its children.
/// Removes the node and its children from the tree but do not delete the entities.
fn remove(&mut self, id: NodeId);
/// Removes the node and all of its children.
fn remove_single(&mut self, id: NodeId);
/// Adds a new node to the tree.
fn create_node(&mut self, id: NodeId);
/// Adds a child to the node.
@ -45,6 +59,8 @@ pub trait TreeMut: TreeRef {
fn insert_before(&mut self, old_id: NodeId, new_id: NodeId);
/// Inserts a node after another node.
fn insert_after(&mut self, old_id: NodeId, new_id: NodeId);
/// Creates a new subtree.
fn create_subtree(&mut self, id: NodeId, shadow_roots: Vec<NodeId>, slot: Option<NodeId>);
}
impl<'a> TreeRef for TreeRefView<'a> {
@ -65,16 +81,39 @@ impl<'a> TreeRef for TreeRefView<'a> {
fn contains(&self, id: NodeId) -> bool {
self.get(id).is_ok()
}
fn subtree(&self, id: NodeId) -> Option<&Subtree> {
self.get(id).ok()?.child_subtree.as_ref()
}
}
impl<'a> TreeMut for TreeMutView<'a> {
fn remove(&mut self, id: NodeId) {
fn recurse(tree: &mut TreeMutView<'_>, id: NodeId) {
let children = tree.children_ids(id);
let (supertree, children) = {
let node = (&mut tree.1).get(id).unwrap();
(node.slot_for_supertree, std::mem::take(&mut node.children))
};
for child in children {
recurse(tree, child);
}
// If this node is a slot in a subtree, remove it from the subtree.
if let Some(supertree) = supertree {
let supertree_root = (&mut tree.1).get(supertree).unwrap();
if let Some(subtree) = &mut supertree_root.child_subtree {
subtree.slot = None;
}
debug_assert!(
supertree_root.children.is_empty(),
"Subtree root should have no children when slot is removed."
);
}
}
{
let mut node_data_mut = &mut self.1;
if let Some(parent) = node_data_mut.get(id).unwrap().parent {
@ -86,16 +125,6 @@ impl<'a> TreeMut for TreeMutView<'a> {
recurse(self, id);
}
fn remove_single(&mut self, id: NodeId) {
{
let mut node_data_mut = &mut self.1;
if let Some(parent) = node_data_mut.get(id).unwrap().parent {
let parent = (&mut node_data_mut).get(parent).unwrap();
parent.children.retain(|&child| child != id);
}
}
}
fn create_node(&mut self, id: NodeId) {
let (entities, node_data_mut) = self;
entities.add_component(
@ -105,19 +134,20 @@ impl<'a> TreeMut for TreeMutView<'a> {
parent: None,
children: Vec::new(),
height: 0,
child_subtree: None,
slot_for_supertree: None,
},
);
}
fn add_child(&mut self, parent: NodeId, new: NodeId) {
let height;
{
let mut node_state = &mut self.1;
(&mut node_state).get(new).unwrap().parent = Some(parent);
let parent = (&mut node_state).get(parent).unwrap();
parent.children.push(new);
height = parent.height + 1;
}
let height = child_height((&self.1).get(parent).unwrap(), self);
set_height(self, new, height);
}
@ -133,27 +163,29 @@ impl<'a> TreeMut for TreeMutView<'a> {
break;
}
}
let height = parent.height + 1;
let height = child_height((&self.1).get(parent_id).unwrap(), self);
set_height(self, new_id, height);
}
}
// remove the old node
self.remove(old_id);
}
fn insert_before(&mut self, old_id: NodeId, new_id: NodeId) {
let mut node_state = &mut self.1;
let old_node = node_state.get(old_id).unwrap();
let parent_id = old_node.parent.expect("tried to insert before root");
(&mut node_state).get(new_id).unwrap().parent = Some(parent_id);
let parent = (&mut node_state).get(parent_id).unwrap();
let parent_id = {
let old_node = self.1.get(old_id).unwrap();
old_node.parent.expect("tried to insert before root")
};
{
(&mut self.1).get(new_id).unwrap().parent = Some(parent_id);
}
let parent = (&mut self.1).get(parent_id).unwrap();
let index = parent
.children
.iter()
.position(|child| *child == old_id)
.unwrap();
parent.children.insert(index, new_id);
let height = parent.height + 1;
let height = child_height((&self.1).get(parent_id).unwrap(), self);
set_height(self, new_id, height);
}
@ -169,21 +201,91 @@ impl<'a> TreeMut for TreeMutView<'a> {
.position(|child| *child == old_id)
.unwrap();
parent.children.insert(index + 1, new_id);
let height = parent.height + 1;
let height = child_height((&self.1).get(parent_id).unwrap(), self);
set_height(self, new_id, height);
}
fn create_subtree(&mut self, id: NodeId, shadow_roots: Vec<NodeId>, slot: Option<NodeId>) {
let (_, node_data_mut) = self;
let light_root_height;
{
let subtree = Subtree {
super_tree_root: id,
shadow_roots: shadow_roots.clone(),
slot,
};
let light_root = node_data_mut
.get(id)
.expect("tried to create subtree with non-existent id");
light_root.child_subtree = Some(subtree);
light_root_height = light_root.height;
if let Some(slot) = slot {
let slot = node_data_mut
.get(slot)
.expect("tried to create subtree with non-existent slot");
slot.slot_for_supertree = Some(id);
}
}
// Now that we have created the subtree, we need to update the height of the subtree roots
for root in shadow_roots {
set_height(self, root, light_root_height + 1);
}
}
}
fn child_height(parent: &Node, tree: &impl TreeRef) -> u16 {
match &parent.child_subtree {
Some(subtree) => {
if let Some(slot) = subtree.slot {
tree.height(slot)
.expect("Attempted to read a slot that does not exist")
+ 1
} else {
panic!("Attempted to read the height of a subtree without a slot");
}
}
None => parent.height + 1,
}
}
/// Sets the height of a node and updates the height of all its children
fn set_height(tree: &mut TreeMutView<'_>, node: NodeId, height: u16) {
let children = {
let (subtree, supertree, children) = {
let mut node_data_mut = &mut tree.1;
let mut node = (&mut node_data_mut).get(node).unwrap();
node.height = height;
node.children.clone()
(
node.child_subtree.clone(),
node.slot_for_supertree,
node.children.clone(),
)
};
for child in children {
set_height(tree, child, height + 1);
// If the children are actually part of a subtree, there height is determined by the height of the subtree
if let Some(subtree) = subtree {
// Set the height of the subtree roots
for &shadow_root in &subtree.shadow_roots {
set_height(tree, shadow_root, height);
}
} else {
// Otherwise, we just set the height of the children to be one more than the height of the parent
for child in children {
set_height(tree, child, height + 1);
}
}
// If this nodes is a slot for a subtree, we need to go to the super tree and update the height of its children
if let Some(supertree) = supertree {
let children = (&tree.1).get(supertree).unwrap().children.clone();
for child in children {
set_height(tree, child, height + 1);
}
}
}
@ -209,6 +311,11 @@ impl<'a> TreeRef for TreeMutView<'a> {
fn contains(&self, id: NodeId) -> bool {
self.1.get(id).is_ok()
}
fn subtree(&self, id: NodeId) -> Option<&Subtree> {
let node_data = &self.1;
node_data.get(id).unwrap().child_subtree.as_ref()
}
}
#[test]
@ -235,6 +342,54 @@ fn creation() {
assert_eq!(tree.children_ids(parent_id), &[child_id]);
}
#[test]
fn subtree_creation() {
use shipyard::World;
#[derive(Component)]
struct Num(i32);
let mut world = World::new();
// Create main tree
let parent_id = world.add_entity(Num(1i32));
let child_id = world.add_entity(Num(0i32));
// Create shadow tree
let shadow_parent_id = world.add_entity(Num(2i32));
let shadow_child_id = world.add_entity(Num(3i32));
let mut tree = world.borrow::<TreeMutView>().unwrap();
tree.create_node(parent_id);
tree.create_node(child_id);
tree.add_child(parent_id, child_id);
tree.create_node(shadow_parent_id);
tree.create_node(shadow_child_id);
tree.add_child(shadow_parent_id, shadow_child_id);
assert_eq!(tree.height(parent_id), Some(0));
assert_eq!(tree.height(child_id), Some(1));
assert_eq!(tree.parent_id(parent_id), None);
assert_eq!(tree.parent_id(child_id).unwrap(), parent_id);
assert_eq!(tree.children_ids(parent_id), &[child_id]);
assert_eq!(tree.height(shadow_parent_id), Some(0));
assert_eq!(tree.height(shadow_child_id), Some(1));
assert_eq!(tree.parent_id(shadow_parent_id), None);
assert_eq!(tree.parent_id(shadow_child_id).unwrap(), shadow_parent_id);
assert_eq!(tree.children_ids(shadow_parent_id), &[shadow_child_id]);
// Add shadow tree to main tree
tree.create_subtree(parent_id, vec![shadow_parent_id], Some(shadow_child_id));
assert_eq!(tree.height(parent_id), Some(0));
assert_eq!(tree.height(shadow_parent_id), Some(1));
assert_eq!(tree.height(shadow_child_id), Some(2));
assert_eq!(tree.height(child_id), Some(3));
}
#[test]
fn insertion() {
use shipyard::World;