struct LexicalResolver<'cx, 'tcx> {
region_rels: &'cx RegionRelations<'cx, 'tcx>,
var_infos: VarInfos,
data: RegionConstraintData<'tcx>,
}
Fields§
§region_rels: &'cx RegionRelations<'cx, 'tcx>
§var_infos: VarInfos
§data: RegionConstraintData<'tcx>
Implementations§
Source§impl<'cx, 'tcx> LexicalResolver<'cx, 'tcx>
impl<'cx, 'tcx> LexicalResolver<'cx, 'tcx>
fn tcx(&self) -> TyCtxt<'tcx>
fn infer_variable_values( &mut self, errors: &mut Vec<RegionResolutionError<'tcx>>, ) -> LexicalRegionResolutions<'tcx>
fn num_vars(&self) -> usize
Sourcefn construct_var_data(&self) -> LexicalRegionResolutions<'tcx>
fn construct_var_data(&self) -> LexicalRegionResolutions<'tcx>
Initially, the value for all variables is set to 'empty
, the
empty region. The expansion
phase will grow this larger.
fn dump_constraints(&self)
fn expansion(&self, var_values: &mut LexicalRegionResolutions<'tcx>)
Sourcefn expand_node(
&self,
a_region: Region<'tcx>,
b_vid: RegionVid,
b_data: &mut VarValue<'tcx>,
) -> bool
fn expand_node( &self, a_region: Region<'tcx>, b_vid: RegionVid, b_data: &mut VarValue<'tcx>, ) -> bool
Expands the value of the region represented with b_vid
with current
value b_data
to the lub of b_data
and a_region
. The corresponds
with the constraint '?b: 'a
('a <: '?b
), where 'a
is some known
region and '?b
is some region variable.
Sourcefn sub_region_values(&self, a: VarValue<'tcx>, b: VarValue<'tcx>) -> bool
fn sub_region_values(&self, a: VarValue<'tcx>, b: VarValue<'tcx>) -> bool
True if a <= b
.
Sourcefn sub_concrete_regions(&self, a: Region<'tcx>, b: Region<'tcx>) -> bool
fn sub_concrete_regions(&self, a: Region<'tcx>, b: Region<'tcx>) -> bool
True if a <= b
, but not defined over inference variables.
Sourcefn lub_concrete_regions(&self, a: Region<'tcx>, b: Region<'tcx>) -> Region<'tcx>
fn lub_concrete_regions(&self, a: Region<'tcx>, b: Region<'tcx>) -> Region<'tcx>
Returns the least-upper-bound of a
and b
; i.e., the
smallest region c
such that a <= c
and b <= c
.
Neither a
nor b
may be an inference variable (hence the
term “concrete regions”).
Sourcefn collect_errors(
&self,
var_data: &mut LexicalRegionResolutions<'tcx>,
errors: &mut Vec<RegionResolutionError<'tcx>>,
)
fn collect_errors( &self, var_data: &mut LexicalRegionResolutions<'tcx>, errors: &mut Vec<RegionResolutionError<'tcx>>, )
After expansion is complete, go and check upper bounds (i.e., cases where the region cannot grow larger than a fixed point) and check that they are satisfied.
Sourcefn collect_var_errors(
&self,
var_data: &LexicalRegionResolutions<'tcx>,
errors: &mut Vec<RegionResolutionError<'tcx>>,
)
fn collect_var_errors( &self, var_data: &LexicalRegionResolutions<'tcx>, errors: &mut Vec<RegionResolutionError<'tcx>>, )
Go over the variables that were declared to be error variables
and create a RegionResolutionError
for each of them.
fn construct_graph(&self) -> Graph<(), Constraint<'tcx>>
fn collect_error_for_expanding_node( &self, graph: &Graph<(), Constraint<'tcx>>, dup_vec: &mut IndexSlice<RegionVid, Option<RegionVid>>, node_idx: RegionVid, errors: &mut Vec<RegionResolutionError<'tcx>>, )
Sourcefn collect_bounding_regions(
&self,
graph: &Graph<(), Constraint<'tcx>>,
orig_node_idx: RegionVid,
dir: Direction,
dup_vec: Option<&mut IndexSlice<RegionVid, Option<RegionVid>>>,
) -> (Vec<RegionAndOrigin<'tcx>>, FxHashSet<RegionVid>, bool)
fn collect_bounding_regions( &self, graph: &Graph<(), Constraint<'tcx>>, orig_node_idx: RegionVid, dir: Direction, dup_vec: Option<&mut IndexSlice<RegionVid, Option<RegionVid>>>, ) -> (Vec<RegionAndOrigin<'tcx>>, FxHashSet<RegionVid>, bool)
Collects all regions that “bound” the variable orig_node_idx
in the
given direction.
If dup_vec
is Some
it’s used to track duplicates between successive
calls of this function.
The return tuple fields are:
- a list of all concrete regions bounding the given region.
- the set of all region variables bounding the given region.
- a
bool
that’s true if the returned region variables overlap with those returned by a previous call for another region.
fn bound_is_met( &self, bound: &VerifyBound<'tcx>, var_values: &LexicalRegionResolutions<'tcx>, generic_ty: Ty<'tcx>, min: Region<'tcx>, ) -> bool
Auto Trait Implementations§
impl<'cx, 'tcx> DynSend for LexicalResolver<'cx, 'tcx>
impl<'cx, 'tcx> DynSync for LexicalResolver<'cx, 'tcx>
impl<'cx, 'tcx> Freeze for LexicalResolver<'cx, 'tcx>
impl<'cx, 'tcx> !RefUnwindSafe for LexicalResolver<'cx, 'tcx>
impl<'cx, 'tcx> !Send for LexicalResolver<'cx, 'tcx>
impl<'cx, 'tcx> !Sync for LexicalResolver<'cx, 'tcx>
impl<'cx, 'tcx> Unpin for LexicalResolver<'cx, 'tcx>
impl<'cx, 'tcx> !UnwindSafe for LexicalResolver<'cx, 'tcx>
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Note: Most layout information is completely unstable and may even differ between compilations. The only exception is types with certain repr(...)
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Size: 104 bytes