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Diffstat (limited to '')
-rw-r--r-- | compiler/rustc_typeck/src/coherence/inherent_impls.rs | 249 |
1 files changed, 249 insertions, 0 deletions
diff --git a/compiler/rustc_typeck/src/coherence/inherent_impls.rs b/compiler/rustc_typeck/src/coherence/inherent_impls.rs new file mode 100644 index 000000000..52aad636f --- /dev/null +++ b/compiler/rustc_typeck/src/coherence/inherent_impls.rs @@ -0,0 +1,249 @@ +//! The code in this module gathers up all of the inherent impls in +//! the current crate and organizes them in a map. It winds up +//! touching the whole crate and thus must be recomputed completely +//! for any change, but it is very cheap to compute. In practice, most +//! code in the compiler never *directly* requests this map. Instead, +//! it requests the inherent impls specific to some type (via +//! `tcx.inherent_impls(def_id)`). That value, however, +//! is computed by selecting an idea from this table. + +use rustc_errors::struct_span_err; +use rustc_hir as hir; +use rustc_hir::def::DefKind; +use rustc_hir::def_id::{CrateNum, DefId, LocalDefId}; +use rustc_middle::ty::fast_reject::{simplify_type, SimplifiedType, TreatParams}; +use rustc_middle::ty::{self, CrateInherentImpls, Ty, TyCtxt}; +use rustc_span::symbol::sym; +use rustc_span::Span; + +/// On-demand query: yields a map containing all types mapped to their inherent impls. +pub fn crate_inherent_impls(tcx: TyCtxt<'_>, (): ()) -> CrateInherentImpls { + let mut collect = InherentCollect { tcx, impls_map: Default::default() }; + for id in tcx.hir().items() { + collect.check_item(id); + } + collect.impls_map +} + +pub fn crate_incoherent_impls(tcx: TyCtxt<'_>, (_, simp): (CrateNum, SimplifiedType)) -> &[DefId] { + let crate_map = tcx.crate_inherent_impls(()); + tcx.arena.alloc_from_iter( + crate_map.incoherent_impls.get(&simp).unwrap_or(&Vec::new()).iter().map(|d| d.to_def_id()), + ) +} + +/// On-demand query: yields a vector of the inherent impls for a specific type. +pub fn inherent_impls(tcx: TyCtxt<'_>, ty_def_id: DefId) -> &[DefId] { + let ty_def_id = ty_def_id.expect_local(); + + let crate_map = tcx.crate_inherent_impls(()); + match crate_map.inherent_impls.get(&ty_def_id) { + Some(v) => &v[..], + None => &[], + } +} + +struct InherentCollect<'tcx> { + tcx: TyCtxt<'tcx>, + impls_map: CrateInherentImpls, +} + +const INTO_CORE: &str = "consider moving this inherent impl into `core` if possible"; +const INTO_DEFINING_CRATE: &str = + "consider moving this inherent impl into the crate defining the type if possible"; +const ADD_ATTR_TO_TY: &str = "alternatively add `#[rustc_has_incoherent_inherent_impls]` to the type \ + and `#[rustc_allow_incoherent_impl]` to the relevant impl items"; +const ADD_ATTR: &str = + "alternatively add `#[rustc_allow_incoherent_impl]` to the relevant impl items"; + +impl<'tcx> InherentCollect<'tcx> { + fn check_def_id(&mut self, item: &hir::Item<'_>, self_ty: Ty<'tcx>, def_id: DefId) { + let impl_def_id = item.def_id; + if let Some(def_id) = def_id.as_local() { + // Add the implementation to the mapping from implementation to base + // type def ID, if there is a base type for this implementation and + // the implementation does not have any associated traits. + let vec = self.impls_map.inherent_impls.entry(def_id).or_default(); + vec.push(impl_def_id.to_def_id()); + return; + } + + if self.tcx.features().rustc_attrs { + let hir::ItemKind::Impl(&hir::Impl { items, .. }) = item.kind else { + bug!("expected `impl` item: {:?}", item); + }; + + if !self.tcx.has_attr(def_id, sym::rustc_has_incoherent_inherent_impls) { + struct_span_err!( + self.tcx.sess, + item.span, + E0390, + "cannot define inherent `impl` for a type outside of the crate where the type is defined", + ) + .help(INTO_DEFINING_CRATE) + .span_help(item.span, ADD_ATTR_TO_TY) + .emit(); + return; + } + + for impl_item in items { + if !self + .tcx + .has_attr(impl_item.id.def_id.to_def_id(), sym::rustc_allow_incoherent_impl) + { + struct_span_err!( + self.tcx.sess, + item.span, + E0390, + "cannot define inherent `impl` for a type outside of the crate where the type is defined", + ) + .help(INTO_DEFINING_CRATE) + .span_help(impl_item.span, ADD_ATTR) + .emit(); + return; + } + } + + if let Some(simp) = simplify_type(self.tcx, self_ty, TreatParams::AsInfer) { + self.impls_map.incoherent_impls.entry(simp).or_default().push(impl_def_id); + } else { + bug!("unexpected self type: {:?}", self_ty); + } + } else { + struct_span_err!( + self.tcx.sess, + item.span, + E0116, + "cannot define inherent `impl` for a type outside of the crate \ + where the type is defined" + ) + .span_label(item.span, "impl for type defined outside of crate.") + .note("define and implement a trait or new type instead") + .emit(); + } + } + + fn check_primitive_impl( + &mut self, + impl_def_id: LocalDefId, + ty: Ty<'tcx>, + items: &[hir::ImplItemRef], + span: Span, + ) { + if !self.tcx.hir().rustc_coherence_is_core() { + if self.tcx.features().rustc_attrs { + for item in items { + if !self + .tcx + .has_attr(item.id.def_id.to_def_id(), sym::rustc_allow_incoherent_impl) + { + struct_span_err!( + self.tcx.sess, + span, + E0390, + "cannot define inherent `impl` for primitive types outside of `core`", + ) + .help(INTO_CORE) + .span_help(item.span, ADD_ATTR) + .emit(); + return; + } + } + } else { + let mut err = struct_span_err!( + self.tcx.sess, + span, + E0390, + "cannot define inherent `impl` for primitive types", + ); + err.help("consider using an extension trait instead"); + if let ty::Ref(_, subty, _) = ty.kind() { + err.note(&format!( + "you could also try moving the reference to \ + uses of `{}` (such as `self`) within the implementation", + subty + )); + } + err.emit(); + return; + } + } + + if let Some(simp) = simplify_type(self.tcx, ty, TreatParams::AsInfer) { + self.impls_map.incoherent_impls.entry(simp).or_default().push(impl_def_id); + } else { + bug!("unexpected primitive type: {:?}", ty); + } + } + + fn check_item(&mut self, id: hir::ItemId) { + if !matches!(self.tcx.def_kind(id.def_id), DefKind::Impl) { + return; + } + + let item = self.tcx.hir().item(id); + let hir::ItemKind::Impl(hir::Impl { of_trait: None, self_ty: ty, ref items, .. }) = item.kind else { + return; + }; + + let self_ty = self.tcx.type_of(item.def_id); + match *self_ty.kind() { + ty::Adt(def, _) => { + self.check_def_id(item, self_ty, def.did()); + } + ty::Foreign(did) => { + self.check_def_id(item, self_ty, did); + } + ty::Dynamic(data, ..) if data.principal_def_id().is_some() => { + self.check_def_id(item, self_ty, data.principal_def_id().unwrap()); + } + ty::Dynamic(..) => { + struct_span_err!( + self.tcx.sess, + ty.span, + E0785, + "cannot define inherent `impl` for a dyn auto trait" + ) + .span_label(ty.span, "impl requires at least one non-auto trait") + .note("define and implement a new trait or type instead") + .emit(); + } + ty::Bool + | ty::Char + | ty::Int(_) + | ty::Uint(_) + | ty::Float(_) + | ty::Str + | ty::Array(..) + | ty::Slice(_) + | ty::RawPtr(_) + | ty::Ref(..) + | ty::Never + | ty::FnPtr(_) + | ty::Tuple(..) => self.check_primitive_impl(item.def_id, self_ty, items, ty.span), + ty::Projection(..) | ty::Opaque(..) | ty::Param(_) => { + let mut err = struct_span_err!( + self.tcx.sess, + ty.span, + E0118, + "no nominal type found for inherent implementation" + ); + + err.span_label(ty.span, "impl requires a nominal type") + .note("either implement a trait on it or create a newtype to wrap it instead"); + + err.emit(); + } + ty::FnDef(..) + | ty::Closure(..) + | ty::Generator(..) + | ty::GeneratorWitness(..) + | ty::Bound(..) + | ty::Placeholder(_) + | ty::Infer(_) => { + bug!("unexpected impl self type of impl: {:?} {:?}", item.def_id, self_ty); + } + ty::Error(_) => {} + } + } +} |