pub(crate) struct ConstraintGraph<D: ConstraintGraphDirection> {
_direction: D,
first_constraints: IndexVec<RegionVid, Option<OutlivesConstraintIndex>>,
next_constraints: IndexVec<OutlivesConstraintIndex, Option<OutlivesConstraintIndex>>,
}
Expand description
The construct graph organizes the constraints by their end-points.
It can be used to view a R1: R2
constraint as either an edge R1 -> R2
or R2 -> R1
depending on the direction type D
.
Fields§
§_direction: D
§first_constraints: IndexVec<RegionVid, Option<OutlivesConstraintIndex>>
§next_constraints: IndexVec<OutlivesConstraintIndex, Option<OutlivesConstraintIndex>>
Implementations§
source§impl<D: ConstraintGraphDirection> ConstraintGraph<D>
impl<D: ConstraintGraphDirection> ConstraintGraph<D>
sourcepub(crate) fn new(
direction: D,
set: &OutlivesConstraintSet<'_>,
num_region_vars: usize,
) -> Self
pub(crate) fn new( direction: D, set: &OutlivesConstraintSet<'_>, num_region_vars: usize, ) -> Self
Creates a “dependency graph” where each region constraint R1: R2
is treated as an edge R1 -> R2
. We use this graph to
construct SCCs for region inference but also for error
reporting.
sourcepub(crate) fn region_graph<'a, 'tcx>(
&'a self,
set: &'a OutlivesConstraintSet<'tcx>,
static_region: RegionVid,
) -> RegionGraph<'a, 'tcx, D>
pub(crate) fn region_graph<'a, 'tcx>( &'a self, set: &'a OutlivesConstraintSet<'tcx>, static_region: RegionVid, ) -> RegionGraph<'a, 'tcx, D>
Given the constraint set from which this graph was built creates a region graph so that you can iterate over regions and not constraints.
sourcepub(crate) fn outgoing_edges<'a, 'tcx>(
&'a self,
region_sup: RegionVid,
constraints: &'a OutlivesConstraintSet<'tcx>,
static_region: RegionVid,
) -> Edges<'a, 'tcx, D> ⓘ
pub(crate) fn outgoing_edges<'a, 'tcx>( &'a self, region_sup: RegionVid, constraints: &'a OutlivesConstraintSet<'tcx>, static_region: RegionVid, ) -> Edges<'a, 'tcx, D> ⓘ
Given a region R
, iterate over all constraints R: R1
.
Auto Trait Implementations§
impl<D> Freeze for ConstraintGraph<D>where
D: Freeze,
impl<D> RefUnwindSafe for ConstraintGraph<D>where
D: RefUnwindSafe,
impl<D> Send for ConstraintGraph<D>where
D: Send,
impl<D> Sync for ConstraintGraph<D>where
D: Sync,
impl<D> Unpin for ConstraintGraph<D>where
D: Unpin,
impl<D> UnwindSafe for ConstraintGraph<D>where
D: UnwindSafe,
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self,
filter_name: &'static str,
) -> RequestFilterDataProvider<T, fn(_: DataRequest<'_>) -> bool>
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Layout§
Note: Unable to compute type layout, possibly due to this type having generic parameters. Layout can only be computed for concrete, fully-instantiated types.