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use ty::{self, TyCtxt, FreeRegion, Region};
use ty::wf::ImpliedBound;
use rustc_data_structures::transitive_relation::TransitiveRelation;
#[derive(Clone, RustcEncodable, RustcDecodable)]
pub struct FreeRegionMap {
relation: TransitiveRelation<Region>
}
impl FreeRegionMap {
pub fn new() -> FreeRegionMap {
FreeRegionMap { relation: TransitiveRelation::new() }
}
pub fn is_empty(&self) -> bool {
self.relation.is_empty()
}
pub fn relate_free_regions_from_implied_bounds<'tcx>(&mut self,
implied_bounds: &[ImpliedBound<'tcx>])
{
debug!("relate_free_regions_from_implied_bounds()");
for implied_bound in implied_bounds {
debug!("implied bound: {:?}", implied_bound);
match *implied_bound {
ImpliedBound::RegionSubRegion(&ty::ReFree(free_a), &ty::ReFree(free_b)) => {
self.relate_free_regions(free_a, free_b);
}
ImpliedBound::RegionSubRegion(..) |
ImpliedBound::RegionSubParam(..) |
ImpliedBound::RegionSubProjection(..) => {
}
}
}
}
pub fn relate_free_regions_from_predicates(&mut self,
predicates: &[ty::Predicate]) {
debug!("relate_free_regions_from_predicates(predicates={:?})", predicates);
for predicate in predicates {
match *predicate {
ty::Predicate::Projection(..) |
ty::Predicate::Trait(..) |
ty::Predicate::Equate(..) |
ty::Predicate::WellFormed(..) |
ty::Predicate::ObjectSafe(..) |
ty::Predicate::ClosureKind(..) |
ty::Predicate::TypeOutlives(..) => {
}
ty::Predicate::RegionOutlives(ty::Binder(ty::OutlivesPredicate(r_a, r_b))) => {
match (r_a, r_b) {
(&ty::ReStatic, &ty::ReFree(_)) => {},
(&ty::ReFree(fr_a), &ty::ReStatic) => self.relate_to_static(fr_a),
(&ty::ReFree(fr_a), &ty::ReFree(fr_b)) => {
self.relate_free_regions(fr_b, fr_a);
}
_ => {
bug!("record_region_bounds: non free region: {:?} / {:?}",
r_a,
r_b);
}
}
}
}
}
}
fn relate_to_static(&mut self, sup: FreeRegion) {
self.relation.add(ty::ReStatic, ty::ReFree(sup));
}
fn relate_free_regions(&mut self, sub: FreeRegion, sup: FreeRegion) {
self.relation.add(ty::ReFree(sub), ty::ReFree(sup))
}
pub fn sub_free_region(&self, sub: FreeRegion, sup: FreeRegion) -> bool {
let result = sub == sup || {
let sub = ty::ReFree(sub);
let sup = ty::ReFree(sup);
self.relation.contains(&sub, &sup) || self.relation.contains(&ty::ReStatic, &sup)
};
debug!("sub_free_region(sub={:?}, sup={:?}) = {:?}", sub, sup, result);
result
}
pub fn lub_free_regions(&self, fr_a: FreeRegion, fr_b: FreeRegion) -> Region {
let r_a = ty::ReFree(fr_a);
let r_b = ty::ReFree(fr_b);
let result = if fr_a == fr_b { r_a } else {
match self.relation.postdom_upper_bound(&r_a, &r_b) {
None => ty::ReStatic,
Some(r) => *r,
}
};
debug!("lub_free_regions(fr_a={:?}, fr_b={:?}) = {:?}", fr_a, fr_b, result);
result
}
pub fn is_subregion_of(&self,
tcx: TyCtxt,
sub_region: &ty::Region,
super_region: &ty::Region)
-> bool {
let result = sub_region == super_region || {
match (sub_region, super_region) {
(&ty::ReEmpty, _) |
(_, &ty::ReStatic) =>
true,
(&ty::ReScope(sub_scope), &ty::ReScope(super_scope)) =>
tcx.region_maps.is_subscope_of(sub_scope, super_scope),
(&ty::ReScope(sub_scope), &ty::ReFree(fr)) =>
tcx.region_maps.is_subscope_of(sub_scope, fr.scope) ||
self.is_static(fr),
(&ty::ReFree(sub_fr), &ty::ReFree(super_fr)) =>
self.sub_free_region(sub_fr, super_fr),
(&ty::ReStatic, &ty::ReFree(sup_fr)) =>
self.is_static(sup_fr),
_ =>
false,
}
};
debug!("is_subregion_of(sub_region={:?}, super_region={:?}) = {:?}",
sub_region, super_region, result);
result
}
pub fn is_static(&self, super_region: ty::FreeRegion) -> bool {
debug!("is_static(super_region={:?})", super_region);
self.relation.contains(&ty::ReStatic, &ty::ReFree(super_region))
}
}
#[cfg(test)]
fn free_region(index: u32) -> FreeRegion {
use middle::region::DUMMY_CODE_EXTENT;
FreeRegion { scope: DUMMY_CODE_EXTENT,
bound_region: ty::BoundRegion::BrAnon(index) }
}
#[test]
fn lub() {
let frs: Vec<_> = (0..3).map(|i| free_region(i)).collect();
let mut map = FreeRegionMap::new();
map.relate_free_regions(frs[0], frs[2]);
map.relate_free_regions(frs[1], frs[2]);
assert_eq!(map.lub_free_regions(frs[0], frs[1]), ty::ReFree(frs[2]));
}