use rustc_infer::infer::at::At; use rustc_infer::infer::type_variable::{TypeVariableOrigin, TypeVariableOriginKind}; use rustc_infer::traits::{FulfillmentError, TraitEngine}; use rustc_middle::ty::{self, Ty}; use crate::traits::{NormalizeExt, Obligation}; pub trait StructurallyNormalizeExt<'tcx> { fn structurally_normalize( &self, ty: Ty<'tcx>, fulfill_cx: &mut dyn TraitEngine<'tcx>, ) -> Result, Vec>>; } impl<'tcx> StructurallyNormalizeExt<'tcx> for At<'_, 'tcx> { fn structurally_normalize( &self, ty: Ty<'tcx>, fulfill_cx: &mut dyn TraitEngine<'tcx>, ) -> Result, Vec>> { assert!(!ty.is_ty_var(), "should have resolved vars before calling"); if self.infcx.next_trait_solver() { // FIXME(-Znext-solver): Should we resolve opaques here? let ty::Alias(ty::Projection | ty::Inherent | ty::Weak, _) = *ty.kind() else { return Ok(ty); }; let new_infer_ty = self.infcx.next_ty_var(TypeVariableOrigin { kind: TypeVariableOriginKind::NormalizeProjectionType, span: self.cause.span, }); // We simply emit an `alias-eq` goal here, since that will take care of // normalizing the LHS of the projection until it is a rigid projection // (or a not-yet-defined opaque in scope). let obligation = Obligation::new( self.infcx.tcx, self.cause.clone(), self.param_env, ty::PredicateKind::AliasRelate( ty.into(), new_infer_ty.into(), ty::AliasRelationDirection::Equate, ), ); fulfill_cx.register_predicate_obligation(self.infcx, obligation); let errors = fulfill_cx.select_where_possible(self.infcx); if !errors.is_empty() { return Err(errors); } Ok(self.infcx.resolve_vars_if_possible(new_infer_ty)) } else { Ok(self.normalize(ty).into_value_registering_obligations(self.infcx, fulfill_cx)) } } }