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android / toolchain / rustc / refs/heads/main / . / compiler / rustc_trait_selection / src / traits / engine.rs
blob: 9fbec174ce8d2e79ae092aac945909a254d387c0 [file] [log] [blame]
use std::cell::RefCell;
use std::fmt::Debug;
use super::FulfillmentContext;
use super::TraitEngine;
use crate::regions::InferCtxtRegionExt;
use crate::solve::FulfillmentCtxt as NextFulfillmentCtxt;
use crate::traits::error_reporting::TypeErrCtxtExt;
use crate::traits::NormalizeExt;
use rustc_data_structures::fx::FxIndexSet;
use rustc_errors::ErrorGuaranteed;
use rustc_hir::def_id::{DefId, LocalDefId};
use rustc_infer::infer::at::ToTrace;
use rustc_infer::infer::canonical::{
Canonical, CanonicalQueryResponse, CanonicalVarValues, QueryResponse,
};
use rustc_infer::infer::outlives::env::OutlivesEnvironment;
use rustc_infer::infer::{DefineOpaqueTypes, InferCtxt, InferOk};
use rustc_infer::traits::{
FulfillmentError, Obligation, ObligationCause, PredicateObligation, TraitEngineExt as _,
};
use rustc_middle::arena::ArenaAllocatable;
use rustc_middle::traits::query::NoSolution;
use rustc_middle::ty::error::TypeError;
use rustc_middle::ty::ToPredicate;
use rustc_middle::ty::TypeFoldable;
use rustc_middle::ty::Variance;
use rustc_middle::ty::{self, Ty, TyCtxt};
#[extension(pub trait TraitEngineExt<'tcx>)]
impl<'tcx> dyn TraitEngine<'tcx> {
fn new(infcx: &InferCtxt<'tcx>) -> Box<Self> {
if infcx.next_trait_solver() {
Box::new(NextFulfillmentCtxt::new(infcx))
} else {
let new_solver_globally =
infcx.tcx.sess.opts.unstable_opts.next_solver.map_or(false, |c| c.globally);
assert!(
!new_solver_globally,
"using old solver even though new solver is enabled globally"
);
Box::new(FulfillmentContext::new(infcx))
}
}
}
/// Used if you want to have pleasant experience when dealing
/// with obligations outside of hir or mir typeck.
pub struct ObligationCtxt<'a, 'tcx> {
pub infcx: &'a InferCtxt<'tcx>,
engine: RefCell<Box<dyn TraitEngine<'tcx>>>,
}
impl<'a, 'tcx> ObligationCtxt<'a, 'tcx> {
pub fn new(infcx: &'a InferCtxt<'tcx>) -> Self {
Self { infcx, engine: RefCell::new(<dyn TraitEngine<'_>>::new(infcx)) }
}
pub fn register_obligation(&self, obligation: PredicateObligation<'tcx>) {
self.engine.borrow_mut().register_predicate_obligation(self.infcx, obligation);
}
pub fn register_obligations(
&self,
obligations: impl IntoIterator<Item = PredicateObligation<'tcx>>,
) {
// Can't use `register_predicate_obligations` because the iterator
// may also use this `ObligationCtxt`.
for obligation in obligations {
self.engine.borrow_mut().register_predicate_obligation(self.infcx, obligation)
}
}
pub fn register_infer_ok_obligations<T>(&self, infer_ok: InferOk<'tcx, T>) -> T {
let InferOk { value, obligations } = infer_ok;
self.engine.borrow_mut().register_predicate_obligations(self.infcx, obligations);
value
}
/// Requires that `ty` must implement the trait with `def_id` in
/// the given environment. This trait must not have any type
/// parameters (except for `Self`).
pub fn register_bound(
&self,
cause: ObligationCause<'tcx>,
param_env: ty::ParamEnv<'tcx>,
ty: Ty<'tcx>,
def_id: DefId,
) {
let tcx = self.infcx.tcx;
let trait_ref = ty::TraitRef::new(tcx, def_id, [ty]);
self.register_obligation(Obligation {
cause,
recursion_depth: 0,
param_env,
predicate: ty::Binder::dummy(trait_ref).to_predicate(tcx),
});
}
pub fn normalize<T: TypeFoldable<TyCtxt<'tcx>>>(
&self,
cause: &ObligationCause<'tcx>,
param_env: ty::ParamEnv<'tcx>,
value: T,
) -> T {
let infer_ok = self.infcx.at(cause, param_env).normalize(value);
self.register_infer_ok_obligations(infer_ok)
}
pub fn deeply_normalize<T: TypeFoldable<TyCtxt<'tcx>>>(
&self,
cause: &ObligationCause<'tcx>,
param_env: ty::ParamEnv<'tcx>,
value: T,
) -> Result<T, Vec<FulfillmentError<'tcx>>> {
self.infcx.at(cause, param_env).deeply_normalize(value, &mut **self.engine.borrow_mut())
}
pub fn eq<T: ToTrace<'tcx>>(
&self,
cause: &ObligationCause<'tcx>,
param_env: ty::ParamEnv<'tcx>,
expected: T,
actual: T,
) -> Result<(), TypeError<'tcx>> {
self.infcx
.at(cause, param_env)
.eq(DefineOpaqueTypes::Yes, expected, actual)
.map(|infer_ok| self.register_infer_ok_obligations(infer_ok))
}
/// Checks whether `expected` is a subtype of `actual`: `expected <: actual`.
pub fn sub<T: ToTrace<'tcx>>(
&self,
cause: &ObligationCause<'tcx>,
param_env: ty::ParamEnv<'tcx>,
expected: T,
actual: T,
) -> Result<(), TypeError<'tcx>> {
self.infcx
.at(cause, param_env)
.sub(DefineOpaqueTypes::Yes, expected, actual)
.map(|infer_ok| self.register_infer_ok_obligations(infer_ok))
}
pub fn relate<T: ToTrace<'tcx>>(
&self,
cause: &ObligationCause<'tcx>,
param_env: ty::ParamEnv<'tcx>,
variance: Variance,
expected: T,
actual: T,
) -> Result<(), TypeError<'tcx>> {
self.infcx
.at(cause, param_env)
.relate(DefineOpaqueTypes::Yes, expected, variance, actual)
.map(|infer_ok| self.register_infer_ok_obligations(infer_ok))
}
/// Checks whether `expected` is a supertype of `actual`: `expected :> actual`.
pub fn sup<T: ToTrace<'tcx>>(
&self,
cause: &ObligationCause<'tcx>,
param_env: ty::ParamEnv<'tcx>,
expected: T,
actual: T,
) -> Result<(), TypeError<'tcx>> {
self.infcx
.at(cause, param_env)
.sup(DefineOpaqueTypes::Yes, expected, actual)
.map(|infer_ok| self.register_infer_ok_obligations(infer_ok))
}
#[must_use]
pub fn select_where_possible(&self) -> Vec<FulfillmentError<'tcx>> {
self.engine.borrow_mut().select_where_possible(self.infcx)
}
#[must_use]
pub fn select_all_or_error(&self) -> Vec<FulfillmentError<'tcx>> {
self.engine.borrow_mut().select_all_or_error(self.infcx)
}
/// Resolves regions and reports errors.
///
/// Takes ownership of the context as doing trait solving afterwards
/// will result in region constraints getting ignored.
pub fn resolve_regions_and_report_errors(
self,
generic_param_scope: LocalDefId,
outlives_env: &OutlivesEnvironment<'tcx>,
) -> Result<(), ErrorGuaranteed> {
let errors = self.infcx.resolve_regions(outlives_env);
if errors.is_empty() {
Ok(())
} else {
Err(self.infcx.err_ctxt().report_region_errors(generic_param_scope, &errors))
}
}
pub fn assumed_wf_types_and_report_errors(
&self,
param_env: ty::ParamEnv<'tcx>,
def_id: LocalDefId,
) -> Result<FxIndexSet<Ty<'tcx>>, ErrorGuaranteed> {
self.assumed_wf_types(param_env, def_id)
.map_err(|errors| self.infcx.err_ctxt().report_fulfillment_errors(errors))
}
pub fn assumed_wf_types(
&self,
param_env: ty::ParamEnv<'tcx>,
def_id: LocalDefId,
) -> Result<FxIndexSet<Ty<'tcx>>, Vec<FulfillmentError<'tcx>>> {
let tcx = self.infcx.tcx;
let mut implied_bounds = FxIndexSet::default();
let mut errors = Vec::new();
for &(ty, span) in tcx.assumed_wf_types(def_id) {
// FIXME(@lcnr): rustc currently does not check wf for types
// pre-normalization, meaning that implied bounds are sometimes
// incorrect. See #100910 for more details.
//
// Not adding the unnormalized types here mostly fixes that, except
// that there are projections which are still ambiguous in the item definition
// but do normalize successfully when using the item, see #98543.
//
// Anyways, I will hopefully soon change implied bounds to make all of this
// sound and then uncomment this line again.
// implied_bounds.insert(ty);
let cause = ObligationCause::misc(span, def_id);
match self
.infcx
.at(&cause, param_env)
.deeply_normalize(ty, &mut **self.engine.borrow_mut())
{
// Insert well-formed types, ignoring duplicates.
Ok(normalized) => drop(implied_bounds.insert(normalized)),
Err(normalization_errors) => errors.extend(normalization_errors),
};
}
if errors.is_empty() { Ok(implied_bounds) } else { Err(errors) }
}
pub fn make_canonicalized_query_response<T>(
&self,
inference_vars: CanonicalVarValues<'tcx>,
answer: T,
) -> Result<CanonicalQueryResponse<'tcx, T>, NoSolution>
where
T: Debug + TypeFoldable<TyCtxt<'tcx>>,
Canonical<'tcx, QueryResponse<'tcx, T>>: ArenaAllocatable<'tcx>,
{
self.infcx.make_canonicalized_query_response(
inference_vars,
answer,
&mut **self.engine.borrow_mut(),
)
}
}