use super::iterate::reverse_post_order;
use super::ControlFlowGraph;
use rustc_index::vec::{Idx, IndexVec};
use std::borrow::BorrowMut;
#[cfg(test)]
mod tests;
pub fn dominators<G: ControlFlowGraph>(graph: G) -> Dominators<G::Node> {
let start_node = graph.start_node();
let rpo = reverse_post_order(&graph, start_node);
dominators_given_rpo(graph, &rpo)
}
fn dominators_given_rpo<G: ControlFlowGraph + BorrowMut<G>>(
mut graph: G,
rpo: &[G::Node],
) -> Dominators<G::Node> {
let start_node = graph.borrow().start_node();
assert_eq!(rpo[0], start_node);
let mut post_order_rank: IndexVec<G::Node, usize> =
(0..graph.borrow().num_nodes()).map(|_| 0).collect();
for (index, node) in rpo.iter().rev().cloned().enumerate() {
post_order_rank[node] = index;
}
let mut immediate_dominators: IndexVec<G::Node, Option<G::Node>> =
(0..graph.borrow().num_nodes()).map(|_| None).collect();
immediate_dominators[start_node] = Some(start_node);
let mut changed = true;
while changed {
changed = false;
for &node in &rpo[1..] {
let mut new_idom = None;
for pred in graph.borrow_mut().predecessors(node) {
if immediate_dominators[pred].is_some() {
new_idom = Some(if let Some(new_idom) = new_idom {
intersect(&post_order_rank, &immediate_dominators, new_idom, pred)
} else {
pred
});
}
}
if new_idom != immediate_dominators[node] {
immediate_dominators[node] = new_idom;
changed = true;
}
}
}
Dominators { post_order_rank, immediate_dominators }
}
fn intersect<Node: Idx>(
post_order_rank: &IndexVec<Node, usize>,
immediate_dominators: &IndexVec<Node, Option<Node>>,
mut node1: Node,
mut node2: Node,
) -> Node {
while node1 != node2 {
while post_order_rank[node1] < post_order_rank[node2] {
node1 = immediate_dominators[node1].unwrap();
}
while post_order_rank[node2] < post_order_rank[node1] {
node2 = immediate_dominators[node2].unwrap();
}
}
node1
}
#[derive(Clone, Debug)]
pub struct Dominators<N: Idx> {
post_order_rank: IndexVec<N, usize>,
immediate_dominators: IndexVec<N, Option<N>>,
}
impl<Node: Idx> Dominators<Node> {
pub fn is_reachable(&self, node: Node) -> bool {
self.immediate_dominators[node].is_some()
}
pub fn immediate_dominator(&self, node: Node) -> Node {
assert!(self.is_reachable(node), "node {:?} is not reachable", node);
self.immediate_dominators[node].unwrap()
}
pub fn dominators(&self, node: Node) -> Iter<'_, Node> {
assert!(self.is_reachable(node), "node {:?} is not reachable", node);
Iter { dominators: self, node: Some(node) }
}
pub fn is_dominated_by(&self, node: Node, dom: Node) -> bool {
self.dominators(node).any(|n| n == dom)
}
}
pub struct Iter<'dom, Node: Idx> {
dominators: &'dom Dominators<Node>,
node: Option<Node>,
}
impl<'dom, Node: Idx> Iterator for Iter<'dom, Node> {
type Item = Node;
fn next(&mut self) -> Option<Self::Item> {
if let Some(node) = self.node {
let dom = self.dominators.immediate_dominator(node);
if dom == node {
self.node = None; } else {
self.node = Some(dom);
}
return Some(node);
} else {
return None;
}
}
}