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-rw-r--r--crates/ra_prof/src/tree.rs84
1 files changed, 84 insertions, 0 deletions
diff --git a/crates/ra_prof/src/tree.rs b/crates/ra_prof/src/tree.rs
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1//! A simple tree implementation which tries to not allocate all over the place.
2use std::ops;
3
4use ra_arena::Arena;
5
6#[derive(Default)]
7pub struct Tree<T> {
8 nodes: Arena<Node<T>>,
9 current_path: Vec<(Idx<T>, Option<Idx<T>>)>,
10}
11
12pub type Idx<T> = ra_arena::Idx<Node<T>>;
13
14impl<T> Tree<T> {
15 pub fn start(&mut self)
16 where
17 T: Default,
18 {
19 let me = self.nodes.alloc(Node::new(T::default()));
20 if let Some((parent, last_child)) = self.current_path.last_mut() {
21 let slot = match *last_child {
22 Some(last_child) => &mut self.nodes[last_child].next_sibling,
23 None => &mut self.nodes[*parent].first_child,
24 };
25 let prev = slot.replace(me);
26 assert!(prev.is_none());
27 *last_child = Some(me);
28 }
29
30 self.current_path.push((me, None));
31 }
32
33 pub fn finish(&mut self, data: T) {
34 let (me, _last_child) = self.current_path.pop().unwrap();
35 self.nodes[me].data = data;
36 }
37
38 pub fn root(&self) -> Option<Idx<T>> {
39 self.nodes.iter().next().map(|(idx, _)| idx)
40 }
41
42 pub fn children(&self, idx: Idx<T>) -> impl Iterator<Item = Idx<T>> + '_ {
43 NodeIter { nodes: &self.nodes, next: self.nodes[idx].first_child }
44 }
45 pub fn clear(&mut self) {
46 self.nodes.clear();
47 self.current_path.clear();
48 }
49}
50
51impl<T> ops::Index<Idx<T>> for Tree<T> {
52 type Output = T;
53 fn index(&self, index: Idx<T>) -> &T {
54 &self.nodes[index].data
55 }
56}
57
58pub struct Node<T> {
59 data: T,
60 first_child: Option<Idx<T>>,
61 next_sibling: Option<Idx<T>>,
62}
63
64impl<T> Node<T> {
65 fn new(data: T) -> Node<T> {
66 Node { data, first_child: None, next_sibling: None }
67 }
68}
69
70struct NodeIter<'a, T> {
71 nodes: &'a Arena<Node<T>>,
72 next: Option<Idx<T>>,
73}
74
75impl<'a, T> Iterator for NodeIter<'a, T> {
76 type Item = Idx<T>;
77
78 fn next(&mut self) -> Option<Idx<T>> {
79 self.next.map(|next| {
80 self.next = self.nodes[next].next_sibling;
81 next
82 })
83 }
84}