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normalize.rs
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//! Code for the 'normalization' query. This consists of a wrapper
//! which folds deeply, invoking the underlying
//! `normalize_projection_ty` query when it encounters projections.
use infer::at::At;
use infer::canonical::OriginalQueryValues;
use infer::{InferCtxt, InferOk};
use mir::interpret::GlobalId;
use traits::project::Normalized;
use traits::{Obligation, ObligationCause, PredicateObligation, Reveal};
use ty::fold::{TypeFoldable, TypeFolder};
use ty::subst::{Subst, Substs};
use ty::{self, Ty, TyCtxt};
use super::NoSolution;
impl<'cx, 'gcx, 'tcx> At<'cx, 'gcx, 'tcx> {
/// Normalize `value` in the context of the inference context,
/// yielding a resulting type, or an error if `value` cannot be
/// normalized. If you don't care about regions, you should prefer
/// `normalize_erasing_regions`, which is more efficient.
///
/// If the normalization succeeds and is unambiguous, returns back
/// the normalized value along with various outlives relations (in
/// the form of obligations that must be discharged).
///
/// NB. This will *eventually* be the main means of
/// normalizing, but for now should be used only when we actually
/// know that normalization will succeed, since error reporting
/// and other details are still "under development".
pub fn normalize<T>(&self, value: &T) -> Result<Normalized<'tcx, T>, NoSolution>
where
T: TypeFoldable<'tcx>,
{
debug!(
"normalize::<{}>(value={:?}, param_env={:?})",
unsafe { ::std::intrinsics::type_name::<T>() },
value,
self.param_env,
);
if !value.has_projections() {
return Ok(Normalized {
value: value.clone(),
obligations: vec![],
});
}
let mut normalizer = QueryNormalizer {
infcx: self.infcx,
cause: self.cause,
param_env: self.param_env,
obligations: vec![],
error: false,
anon_depth: 0,
};
let value1 = value.fold_with(&mut normalizer);
if normalizer.error {
Err(NoSolution)
} else {
Ok(Normalized {
value: value1,
obligations: normalizer.obligations,
})
}
}
}
/// Result from the `normalize_projection_ty` query.
#[derive(Clone, Debug)]
pub struct NormalizationResult<'tcx> {
/// Result of normalization.
pub normalized_ty: Ty<'tcx>,
}
struct QueryNormalizer<'cx, 'gcx: 'tcx, 'tcx: 'cx> {
infcx: &'cx InferCtxt<'cx, 'gcx, 'tcx>,
cause: &'cx ObligationCause<'tcx>,
param_env: ty::ParamEnv<'tcx>,
obligations: Vec<PredicateObligation<'tcx>>,
error: bool,
anon_depth: usize,
}
impl<'cx, 'gcx, 'tcx> TypeFolder<'gcx, 'tcx> for QueryNormalizer<'cx, 'gcx, 'tcx> {
fn tcx<'c>(&'c self) -> TyCtxt<'c, 'gcx, 'tcx> {
self.infcx.tcx
}
fn fold_ty(&mut self, ty: Ty<'tcx>) -> Ty<'tcx> {
let ty = ty.super_fold_with(self);
match ty.sty {
ty::Opaque(def_id, substs) if !substs.has_escaping_bound_vars() => {
// (*)
// Only normalize `impl Trait` after type-checking, usually in codegen.
match self.param_env.reveal {
Reveal::UserFacing => ty,
Reveal::All => {
let recursion_limit = *self.tcx().sess.recursion_limit.get();
if self.anon_depth >= recursion_limit {
let obligation = Obligation::with_depth(
self.cause.clone(),
recursion_limit,
self.param_env,
ty,
);
self.infcx.report_overflow_error(&obligation, true);
}
let generic_ty = self.tcx().type_of(def_id);
let concrete_ty = generic_ty.subst(self.tcx(), substs);
self.anon_depth += 1;
if concrete_ty == ty {
bug!(
"infinite recursion generic_ty: {:#?}, substs: {:#?}, \
concrete_ty: {:#?}, ty: {:#?}",
generic_ty,
substs,
concrete_ty,
ty
);
}
let folded_ty = self.fold_ty(concrete_ty);
self.anon_depth -= 1;
folded_ty
}
}
}
ty::Projection(ref data) if !data.has_escaping_bound_vars() => {
// (*)
// (*) This is kind of hacky -- we need to be able to
// handle normalization within binders because
// otherwise we wind up a need to normalize when doing
// trait matching (since you can have a trait
// obligation like `for<'a> T::B : Fn(&'a int)`), but
// we can't normalize with bound regions in scope. So
// far now we just ignore binders but only normalize
// if all bound regions are gone (and then we still
// have to renormalize whenever we instantiate a
// binder). It would be better to normalize in a
// binding-aware fashion.
let gcx = self.infcx.tcx.global_tcx();
let mut orig_values = OriginalQueryValues::default();
let c_data = self.infcx.canonicalize_query(
&self.param_env.and(*data), &mut orig_values);
debug!("QueryNormalizer: c_data = {:#?}", c_data);
debug!("QueryNormalizer: orig_values = {:#?}", orig_values);
match gcx.normalize_projection_ty(c_data) {
Ok(result) => {
// We don't expect ambiguity.
if result.is_ambiguous() {
self.error = true;
return ty;
}
match self.infcx.instantiate_query_response_and_region_obligations(
self.cause,
self.param_env,
&orig_values,
&result)
{
Ok(InferOk { value: result, obligations }) => {
debug!("QueryNormalizer: result = {:#?}", result);
debug!("QueryNormalizer: obligations = {:#?}", obligations);
self.obligations.extend(obligations);
return result.normalized_ty;
}
Err(_) => {
self.error = true;
return ty;
}
}
}
Err(NoSolution) => {
self.error = true;
ty
}
}
}
_ => ty,
}
}
fn fold_const(&mut self, constant: &'tcx ty::LazyConst<'tcx>) -> &'tcx ty::LazyConst<'tcx> {
if let ty::LazyConst::Unevaluated(def_id, substs) = *constant {
let tcx = self.infcx.tcx.global_tcx();
if let Some(param_env) = self.tcx().lift_to_global(&self.param_env) {
if substs.needs_infer() || substs.has_placeholders() {
let identity_substs = Substs::identity_for_item(tcx, def_id);
let instance = ty::Instance::resolve(tcx, param_env, def_id, identity_substs);
if let Some(instance) = instance {
let cid = GlobalId {
instance,
promoted: None,
};
if let Ok(evaluated) = tcx.const_eval(param_env.and(cid)) {
let substs = tcx.lift_to_global(&substs).unwrap();
let evaluated = evaluated.subst(tcx, substs);
return tcx.mk_lazy_const(ty::LazyConst::Evaluated(evaluated));
}
}
} else {
if let Some(substs) = self.tcx().lift_to_global(&substs) {
let instance = ty::Instance::resolve(tcx, param_env, def_id, substs);
if let Some(instance) = instance {
let cid = GlobalId {
instance,
promoted: None,
};
if let Ok(evaluated) = tcx.const_eval(param_env.and(cid)) {
return tcx.mk_lazy_const(ty::LazyConst::Evaluated(evaluated));
}
}
}
}
}
}
constant
}
}
BraceStructTypeFoldableImpl! {
impl<'tcx> TypeFoldable<'tcx> for NormalizationResult<'tcx> {
normalized_ty
}
}
BraceStructLiftImpl! {
impl<'a, 'tcx> Lift<'tcx> for NormalizationResult<'a> {
type Lifted = NormalizationResult<'tcx>;
normalized_ty
}
}
impl_stable_hash_for!(struct NormalizationResult<'tcx> {
normalized_ty
});