use crate::constraints::ConstraintSccIndex;
use crate::RegionInferenceContext;
use itertools::Itertools;
use rustc_data_structures::fx::{FxIndexMap, FxIndexSet};
use rustc_data_structures::graph::vec_graph::VecGraph;
use rustc_data_structures::graph::WithSuccessors;
use rustc_middle::ty::RegionVid;
use std::ops::Range;
pub(crate) struct ReverseSccGraph {
graph: VecGraph<ConstraintSccIndex>,
scc_regions: FxIndexMap<ConstraintSccIndex, Range<usize>>,
universal_regions: Vec<RegionVid>,
}
impl ReverseSccGraph {
pub(super) fn upper_bounds<'a>(
&'a self,
scc0: ConstraintSccIndex,
) -> impl Iterator<Item = RegionVid> + 'a {
let mut duplicates = FxIndexSet::default();
self.graph
.depth_first_search(scc0)
.flat_map(move |scc1| {
self.scc_regions
.get(&scc1)
.map_or(&[][..], |range| &self.universal_regions[range.clone()])
})
.copied()
.filter(move |r| duplicates.insert(*r))
}
}
impl RegionInferenceContext<'_> {
pub(super) fn compute_reverse_scc_graph(&mut self) {
if self.rev_scc_graph.is_some() {
return;
}
let graph = self.constraint_sccs.reverse();
let mut paired_scc_regions = self
.universal_regions
.universal_regions()
.map(|region| (self.constraint_sccs.scc(region), region))
.collect_vec();
paired_scc_regions.sort();
let universal_regions = paired_scc_regions.iter().map(|&(_, region)| region).collect();
let mut scc_regions = FxIndexMap::default();
let mut start = 0;
for (scc, group) in &paired_scc_regions.into_iter().group_by(|(scc, _)| *scc) {
let group_size = group.count();
scc_regions.insert(scc, start..start + group_size);
start += group_size;
}
self.rev_scc_graph = Some(ReverseSccGraph { graph, scc_regions, universal_regions });
}
}