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rust/compiler/rustc_infer/src/infer/resolve.rs

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use rustc_middle::bug;
use rustc_middle::ty::fold::{FallibleTypeFolder, TypeFolder, TypeSuperFoldable};
use rustc_middle::ty::visit::TypeVisitableExt;
use rustc_middle::ty::{self, Const, InferConst, Ty, TyCtxt, TypeFoldable};
use rustc_type_ir::data_structures::DelayedMap;
use super::{FixupError, FixupResult, InferCtxt};
///////////////////////////////////////////////////////////////////////////
// OPPORTUNISTIC VAR RESOLVER
/// The opportunistic resolver can be used at any time. It simply replaces
/// type/const variables that have been unified with the things they have
/// been unified with (similar to `shallow_resolve`, but deep). This is
/// useful for printing messages etc but also required at various
/// points for correctness.
pub struct OpportunisticVarResolver<'a, 'tcx> {
infcx: &'a InferCtxt<'tcx>,
/// We're able to use a cache here as the folder does
/// not have any mutable state.
cache: DelayedMap<Ty<'tcx>, Ty<'tcx>>,
}
impl<'a, 'tcx> OpportunisticVarResolver<'a, 'tcx> {
#[inline]
pub fn new(infcx: &'a InferCtxt<'tcx>) -> Self {
OpportunisticVarResolver { infcx, cache: Default::default() }
}
}
impl<'a, 'tcx> TypeFolder<TyCtxt<'tcx>> for OpportunisticVarResolver<'a, 'tcx> {
fn cx(&self) -> TyCtxt<'tcx> {
self.infcx.tcx
}
#[inline]
fn fold_ty(&mut self, t: Ty<'tcx>) -> Ty<'tcx> {
if !t.has_non_region_infer() {
t // micro-optimize -- if there is nothing in this type that this fold affects...
} else if let Some(&ty) = self.cache.get(&t) {
ty
} else {
let shallow = self.infcx.shallow_resolve(t);
let res = shallow.super_fold_with(self);
assert!(self.cache.insert(t, res));
res
}
}
fn fold_const(&mut self, ct: Const<'tcx>) -> Const<'tcx> {
if !ct.has_non_region_infer() {
ct // micro-optimize -- if there is nothing in this const that this fold affects...
} else {
let ct = self.infcx.shallow_resolve_const(ct);
ct.super_fold_with(self)
}
}
}
/// The opportunistic region resolver opportunistically resolves regions
/// variables to the variable with the least variable id. It is used when
/// normalizing projections to avoid hitting the recursion limit by creating
/// many versions of a predicate for types that in the end have to unify.
///
/// If you want to resolve type and const variables as well, call
/// [InferCtxt::resolve_vars_if_possible] first.
pub struct OpportunisticRegionResolver<'a, 'tcx> {
infcx: &'a InferCtxt<'tcx>,
}
impl<'a, 'tcx> OpportunisticRegionResolver<'a, 'tcx> {
pub fn new(infcx: &'a InferCtxt<'tcx>) -> Self {
OpportunisticRegionResolver { infcx }
}
}
impl<'a, 'tcx> TypeFolder<TyCtxt<'tcx>> for OpportunisticRegionResolver<'a, 'tcx> {
fn cx(&self) -> TyCtxt<'tcx> {
self.infcx.tcx
}
fn fold_ty(&mut self, t: Ty<'tcx>) -> Ty<'tcx> {
if !t.has_infer_regions() {
t // micro-optimize -- if there is nothing in this type that this fold affects...
} else {
t.super_fold_with(self)
}
}
fn fold_region(&mut self, r: ty::Region<'tcx>) -> ty::Region<'tcx> {
match *r {
ty::ReVar(vid) => self
.infcx
.inner
.borrow_mut()
.unwrap_region_constraints()
.opportunistic_resolve_var(TypeFolder::cx(self), vid),
_ => r,
}
}
fn fold_const(&mut self, ct: ty::Const<'tcx>) -> ty::Const<'tcx> {
if !ct.has_infer_regions() {
ct // micro-optimize -- if there is nothing in this const that this fold affects...
} else {
ct.super_fold_with(self)
}
}
}
///////////////////////////////////////////////////////////////////////////
// FULL TYPE RESOLUTION
/// Full type resolution replaces all type and region variables with
/// their concrete results. If any variable cannot be replaced (never unified, etc)
/// then an `Err` result is returned.
pub fn fully_resolve<'tcx, T>(infcx: &InferCtxt<'tcx>, value: T) -> FixupResult<T>
where
T: TypeFoldable<TyCtxt<'tcx>>,
{
value.try_fold_with(&mut FullTypeResolver { infcx })
}
struct FullTypeResolver<'a, 'tcx> {
infcx: &'a InferCtxt<'tcx>,
}
impl<'a, 'tcx> FallibleTypeFolder<TyCtxt<'tcx>> for FullTypeResolver<'a, 'tcx> {
type Error = FixupError;
fn cx(&self) -> TyCtxt<'tcx> {
self.infcx.tcx
}
fn try_fold_ty(&mut self, t: Ty<'tcx>) -> Result<Ty<'tcx>, Self::Error> {
if !t.has_infer() {
Ok(t) // micro-optimize -- if there is nothing in this type that this fold affects...
} else {
use super::TyOrConstInferVar::*;
let t = self.infcx.shallow_resolve(t);
match *t.kind() {
ty::Infer(ty::TyVar(vid)) => Err(FixupError { unresolved: Ty(vid) }),
ty::Infer(ty::IntVar(vid)) => Err(FixupError { unresolved: TyInt(vid) }),
ty::Infer(ty::FloatVar(vid)) => Err(FixupError { unresolved: TyFloat(vid) }),
ty::Infer(_) => {
bug!("Unexpected type in full type resolver: {:?}", t);
}
_ => t.try_super_fold_with(self),
}
}
}
fn try_fold_region(&mut self, r: ty::Region<'tcx>) -> Result<ty::Region<'tcx>, Self::Error> {
match *r {
ty::ReVar(_) => Ok(self
.infcx
.lexical_region_resolutions
.borrow()
.as_ref()
.expect("region resolution not performed")
.resolve_region(self.infcx.tcx, r)),
_ => Ok(r),
}
}
fn try_fold_const(&mut self, c: ty::Const<'tcx>) -> Result<ty::Const<'tcx>, Self::Error> {
if !c.has_infer() {
Ok(c) // micro-optimize -- if there is nothing in this const that this fold affects...
} else {
let c = self.infcx.shallow_resolve_const(c);
match c.kind() {
ty::ConstKind::Infer(InferConst::Var(vid)) => {
return Err(FixupError { unresolved: super::TyOrConstInferVar::Const(vid) });
}
ty::ConstKind::Infer(InferConst::Fresh(_)) => {
bug!("Unexpected const in full const resolver: {:?}", c);
}
_ => {}
}
c.try_super_fold_with(self)
}
}
}
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