use crate::errors;
use rustc_data_structures::fx::FxHashSet;
use rustc_errors::{ErrorGuaranteed, MultiSpan};
use rustc_hir as hir;
use rustc_hir::def_id::{DefId, LocalDefId};
use rustc_hir::lang_items::LangItem;
use rustc_hir::ItemKind;
use rustc_infer::infer::outlives::env::OutlivesEnvironment;
use rustc_infer::infer::{self, RegionResolutionError};
use rustc_infer::infer::{DefineOpaqueTypes, TyCtxtInferExt};
use rustc_infer::traits::Obligation;
use rustc_middle::ty::adjustment::CoerceUnsizedInfo;
use rustc_middle::ty::{self, suggest_constraining_type_params, Ty, TyCtxt, TypeVisitableExt};
use rustc_span::Span;
use rustc_trait_selection::traits::error_reporting::TypeErrCtxtExt;
use rustc_trait_selection::traits::misc::{
type_allowed_to_implement_const_param_ty, type_allowed_to_implement_copy,
ConstParamTyImplementationError, CopyImplementationError, InfringingFieldsReason,
};
use rustc_trait_selection::traits::ObligationCtxt;
use rustc_trait_selection::traits::{self, ObligationCause};
use std::collections::BTreeMap;
pub fn check_trait(tcx: TyCtxt<'_>, trait_def_id: DefId) {
let lang_items = tcx.lang_items();
Checker { tcx, trait_def_id }
.check(lang_items.drop_trait(), visit_implementation_of_drop)
.check(lang_items.copy_trait(), visit_implementation_of_copy)
.check(lang_items.const_param_ty_trait(), visit_implementation_of_const_param_ty)
.check(lang_items.coerce_unsized_trait(), visit_implementation_of_coerce_unsized)
.check(lang_items.dispatch_from_dyn_trait(), visit_implementation_of_dispatch_from_dyn);
}
struct Checker<'tcx> {
tcx: TyCtxt<'tcx>,
trait_def_id: DefId,
}
impl<'tcx> Checker<'tcx> {
fn check<F>(&self, trait_def_id: Option<DefId>, mut f: F) -> &Self
where
F: FnMut(TyCtxt<'tcx>, LocalDefId),
{
if Some(self.trait_def_id) == trait_def_id {
for &impl_def_id in self.tcx.hir().trait_impls(self.trait_def_id) {
f(self.tcx, impl_def_id);
}
}
self
}
}
fn visit_implementation_of_drop(tcx: TyCtxt<'_>, impl_did: LocalDefId) {
match tcx.type_of(impl_did).instantiate_identity().kind() {
ty::Adt(def, _) if def.did().is_local() => return,
ty::Error(_) => return,
_ => {}
}
let impl_ = tcx.hir().expect_item(impl_did).expect_impl();
tcx.sess.emit_err(errors::DropImplOnWrongItem { span: impl_.self_ty.span });
}
fn visit_implementation_of_copy(tcx: TyCtxt<'_>, impl_did: LocalDefId) {
debug!("visit_implementation_of_copy: impl_did={:?}", impl_did);
let self_type = tcx.type_of(impl_did).instantiate_identity();
debug!("visit_implementation_of_copy: self_type={:?} (bound)", self_type);
let param_env = tcx.param_env(impl_did);
assert!(!self_type.has_escaping_bound_vars());
debug!("visit_implementation_of_copy: self_type={:?} (free)", self_type);
let span = match tcx.hir().expect_item(impl_did).expect_impl() {
hir::Impl { polarity: hir::ImplPolarity::Negative(_), .. } => return,
hir::Impl { self_ty, .. } => self_ty.span,
};
let cause = traits::ObligationCause::misc(span, impl_did);
match type_allowed_to_implement_copy(tcx, param_env, self_type, cause) {
Ok(()) => {}
Err(CopyImplementationError::InfringingFields(fields)) => {
infringing_fields_error(tcx, fields, LangItem::Copy, impl_did, span);
}
Err(CopyImplementationError::NotAnAdt) => {
tcx.sess.emit_err(errors::CopyImplOnNonAdt { span });
}
Err(CopyImplementationError::HasDestructor) => {
tcx.sess.emit_err(errors::CopyImplOnTypeWithDtor { span });
}
}
}
fn visit_implementation_of_const_param_ty(tcx: TyCtxt<'_>, impl_did: LocalDefId) {
let self_type = tcx.type_of(impl_did).instantiate_identity();
assert!(!self_type.has_escaping_bound_vars());
let param_env = tcx.param_env(impl_did);
let span = match tcx.hir().expect_item(impl_did).expect_impl() {
hir::Impl { polarity: hir::ImplPolarity::Negative(_), .. } => return,
impl_ => impl_.self_ty.span,
};
let cause = traits::ObligationCause::misc(span, impl_did);
match type_allowed_to_implement_const_param_ty(tcx, param_env, self_type, cause) {
Ok(()) => {}
Err(ConstParamTyImplementationError::InfrigingFields(fields)) => {
infringing_fields_error(tcx, fields, LangItem::ConstParamTy, impl_did, span);
}
Err(ConstParamTyImplementationError::NotAnAdtOrBuiltinAllowed) => {
tcx.sess.emit_err(errors::ConstParamTyImplOnNonAdt { span });
}
}
}
fn visit_implementation_of_coerce_unsized(tcx: TyCtxt<'_>, impl_did: LocalDefId) {
debug!("visit_implementation_of_coerce_unsized: impl_did={:?}", impl_did);
let span = tcx.def_span(impl_did);
tcx.at(span).coerce_unsized_info(impl_did);
}
fn visit_implementation_of_dispatch_from_dyn(tcx: TyCtxt<'_>, impl_did: LocalDefId) {
debug!("visit_implementation_of_dispatch_from_dyn: impl_did={:?}", impl_did);
let span = tcx.def_span(impl_did);
let dispatch_from_dyn_trait = tcx.require_lang_item(LangItem::DispatchFromDyn, Some(span));
let source = tcx.type_of(impl_did).instantiate_identity();
assert!(!source.has_escaping_bound_vars());
let target = {
let trait_ref = tcx.impl_trait_ref(impl_did).unwrap().instantiate_identity();
assert_eq!(trait_ref.def_id, dispatch_from_dyn_trait);
trait_ref.args.type_at(1)
};
debug!("visit_implementation_of_dispatch_from_dyn: {:?} -> {:?}", source, target);
let param_env = tcx.param_env(impl_did);
let infcx = tcx.infer_ctxt().build();
let cause = ObligationCause::misc(span, impl_did);
use rustc_type_ir::sty::TyKind::*;
match (source.kind(), target.kind()) {
(&Ref(r_a, _, mutbl_a), Ref(r_b, _, mutbl_b))
if infcx.at(&cause, param_env).eq(DefineOpaqueTypes::No, r_a, *r_b).is_ok()
&& mutbl_a == *mutbl_b => {}
(&RawPtr(tm_a), &RawPtr(tm_b)) if tm_a.mutbl == tm_b.mutbl => (),
(&Adt(def_a, args_a), &Adt(def_b, args_b)) if def_a.is_struct() && def_b.is_struct() => {
if def_a != def_b {
let source_path = tcx.def_path_str(def_a.did());
let target_path = tcx.def_path_str(def_b.did());
tcx.sess.emit_err(errors::DispatchFromDynCoercion {
span,
trait_name: "DispatchFromDyn",
note: true,
source_path,
target_path,
});
return;
}
if def_a.repr().c() || def_a.repr().packed() {
tcx.sess.emit_err(errors::DispatchFromDynRepr { span });
}
let fields = &def_a.non_enum_variant().fields;
let coerced_fields = fields
.iter()
.filter(|field| {
let ty_a = field.ty(tcx, args_a);
let ty_b = field.ty(tcx, args_b);
if let Ok(layout) = tcx.layout_of(param_env.and(ty_a)) {
if layout.is_1zst() {
return false;
}
}
if let Ok(ok) =
infcx.at(&cause, param_env).eq(DefineOpaqueTypes::No, ty_a, ty_b)
{
if ok.obligations.is_empty() {
tcx.sess.emit_err(errors::DispatchFromDynZST {
span,
name: field.name,
ty: ty_a,
});
return false;
}
}
return true;
})
.collect::<Vec<_>>();
if coerced_fields.is_empty() {
tcx.sess.emit_err(errors::DispatchFromDynSingle {
span,
trait_name: "DispatchFromDyn",
note: true,
});
} else if coerced_fields.len() > 1 {
tcx.sess.emit_err(errors::DispatchFromDynMulti {
span,
coercions_note: true,
number: coerced_fields.len(),
coercions: coerced_fields
.iter()
.map(|field| {
format!(
"`{}` (`{}` to `{}`)",
field.name,
field.ty(tcx, args_a),
field.ty(tcx, args_b),
)
})
.collect::<Vec<_>>()
.join(", "),
});
} else {
let ocx = ObligationCtxt::new(&infcx);
for field in coerced_fields {
ocx.register_obligation(Obligation::new(
tcx,
cause.clone(),
param_env,
ty::TraitRef::new(
tcx,
dispatch_from_dyn_trait,
[field.ty(tcx, args_a), field.ty(tcx, args_b)],
),
));
}
let errors = ocx.select_all_or_error();
if !errors.is_empty() {
infcx.err_ctxt().report_fulfillment_errors(&errors);
}
let outlives_env = OutlivesEnvironment::new(param_env);
let _ = ocx.resolve_regions_and_report_errors(impl_did, &outlives_env);
}
}
_ => {
tcx.sess.emit_err(errors::CoerceUnsizedMay { span, trait_name: "DispatchFromDyn" });
}
}
}
pub fn coerce_unsized_info<'tcx>(tcx: TyCtxt<'tcx>, impl_did: LocalDefId) -> CoerceUnsizedInfo {
debug!("compute_coerce_unsized_info(impl_did={:?})", impl_did);
let span = tcx.def_span(impl_did);
let coerce_unsized_trait = tcx.require_lang_item(LangItem::CoerceUnsized, Some(span));
let unsize_trait = tcx.require_lang_item(LangItem::Unsize, Some(span));
let source = tcx.type_of(impl_did).instantiate_identity();
let trait_ref = tcx.impl_trait_ref(impl_did).unwrap().instantiate_identity();
assert_eq!(trait_ref.def_id, coerce_unsized_trait);
let target = trait_ref.args.type_at(1);
debug!("visit_implementation_of_coerce_unsized: {:?} -> {:?} (bound)", source, target);
let param_env = tcx.param_env(impl_did);
assert!(!source.has_escaping_bound_vars());
let err_info = CoerceUnsizedInfo { custom_kind: None };
debug!("visit_implementation_of_coerce_unsized: {:?} -> {:?} (free)", source, target);
let infcx = tcx.infer_ctxt().build();
let cause = ObligationCause::misc(span, impl_did);
let check_mutbl = |mt_a: ty::TypeAndMut<'tcx>,
mt_b: ty::TypeAndMut<'tcx>,
mk_ptr: &dyn Fn(Ty<'tcx>) -> Ty<'tcx>| {
if mt_a.mutbl < mt_b.mutbl {
infcx
.err_ctxt()
.report_mismatched_types(
&cause,
mk_ptr(mt_b.ty),
target,
ty::error::TypeError::Mutability,
)
.emit();
}
(mt_a.ty, mt_b.ty, unsize_trait, None)
};
let (source, target, trait_def_id, kind) = match (source.kind(), target.kind()) {
(&ty::Ref(r_a, ty_a, mutbl_a), &ty::Ref(r_b, ty_b, mutbl_b)) => {
infcx.sub_regions(infer::RelateObjectBound(span), r_b, r_a);
let mt_a = ty::TypeAndMut { ty: ty_a, mutbl: mutbl_a };
let mt_b = ty::TypeAndMut { ty: ty_b, mutbl: mutbl_b };
check_mutbl(mt_a, mt_b, &|ty| Ty::new_imm_ref(tcx, r_b, ty))
}
(&ty::Ref(_, ty_a, mutbl_a), &ty::RawPtr(mt_b)) => {
let mt_a = ty::TypeAndMut { ty: ty_a, mutbl: mutbl_a };
check_mutbl(mt_a, mt_b, &|ty| Ty::new_imm_ptr(tcx, ty))
}
(&ty::RawPtr(mt_a), &ty::RawPtr(mt_b)) => {
check_mutbl(mt_a, mt_b, &|ty| Ty::new_imm_ptr(tcx, ty))
}
(&ty::Adt(def_a, args_a), &ty::Adt(def_b, args_b))
if def_a.is_struct() && def_b.is_struct() =>
{
if def_a != def_b {
let source_path = tcx.def_path_str(def_a.did());
let target_path = tcx.def_path_str(def_b.did());
tcx.sess.emit_err(errors::DispatchFromDynSame {
span,
trait_name: "CoerceUnsized",
note: true,
source_path,
target_path,
});
return err_info;
}
let fields = &def_a.non_enum_variant().fields;
let diff_fields = fields
.iter_enumerated()
.filter_map(|(i, f)| {
let (a, b) = (f.ty(tcx, args_a), f.ty(tcx, args_b));
if tcx.type_of(f.did).instantiate_identity().is_phantom_data() {
return None;
}
if let Ok(ok) = infcx.at(&cause, param_env).eq(DefineOpaqueTypes::No, a, b) {
if ok.obligations.is_empty() {
return None;
}
}
Some((i, a, b))
})
.collect::<Vec<_>>();
if diff_fields.is_empty() {
tcx.sess.emit_err(errors::CoerceUnsizedOneField {
span,
trait_name: "CoerceUnsized",
note: true,
});
return err_info;
} else if diff_fields.len() > 1 {
let item = tcx.hir().expect_item(impl_did);
let span = if let ItemKind::Impl(hir::Impl { of_trait: Some(t), .. }) = &item.kind {
t.path.span
} else {
tcx.def_span(impl_did)
};
tcx.sess.emit_err(errors::CoerceUnsizedMulti {
span,
coercions_note: true,
number: diff_fields.len(),
coercions: diff_fields
.iter()
.map(|&(i, a, b)| format!("`{}` (`{}` to `{}`)", fields[i].name, a, b))
.collect::<Vec<_>>()
.join(", "),
});
return err_info;
}
let (i, a, b) = diff_fields[0];
let kind = ty::adjustment::CustomCoerceUnsized::Struct(i);
(a, b, coerce_unsized_trait, Some(kind))
}
_ => {
tcx.sess.emit_err(errors::DispatchFromDynStruct { span, trait_name: "CoerceUnsized" });
return err_info;
}
};
let ocx = ObligationCtxt::new(&infcx);
let cause = traits::ObligationCause::misc(span, impl_did);
let obligation = Obligation::new(
tcx,
cause,
param_env,
ty::TraitRef::new(tcx, trait_def_id, [source, target]),
);
ocx.register_obligation(obligation);
let errors = ocx.select_all_or_error();
if !errors.is_empty() {
infcx.err_ctxt().report_fulfillment_errors(&errors);
}
let outlives_env = OutlivesEnvironment::new(param_env);
let _ = ocx.resolve_regions_and_report_errors(impl_did, &outlives_env);
CoerceUnsizedInfo { custom_kind: kind }
}
fn infringing_fields_error(
tcx: TyCtxt<'_>,
fields: Vec<(&ty::FieldDef, Ty<'_>, InfringingFieldsReason<'_>)>,
lang_item: LangItem,
impl_did: LocalDefId,
impl_span: Span,
) -> ErrorGuaranteed {
let trait_did = tcx.require_lang_item(lang_item, Some(impl_span));
let trait_name = tcx.def_path_str(trait_did);
let mut errors: BTreeMap<_, Vec<_>> = Default::default();
let mut bounds = vec![];
let mut seen_tys = FxHashSet::default();
let mut label_spans = Vec::new();
for (field, ty, reason) in fields {
if !seen_tys.insert(ty) {
continue;
}
label_spans.push(tcx.def_span(field.did));
match reason {
InfringingFieldsReason::Fulfill(fulfillment_errors) => {
for error in fulfillment_errors {
let error_predicate = error.obligation.predicate;
if error_predicate != error.root_obligation.predicate {
errors
.entry((ty.to_string(), error_predicate.to_string()))
.or_default()
.push(error.obligation.cause.span);
}
if let ty::PredicateKind::Clause(ty::ClauseKind::Trait(ty::TraitPredicate {
trait_ref,
polarity: ty::ImplPolarity::Positive,
..
})) = error_predicate.kind().skip_binder()
{
let ty = trait_ref.self_ty();
if let ty::Param(_) = ty.kind() {
bounds.push((
format!("{ty}"),
trait_ref.print_only_trait_path().to_string(),
Some(trait_ref.def_id),
));
}
}
}
}
InfringingFieldsReason::Regions(region_errors) => {
for error in region_errors {
let ty = ty.to_string();
match error {
RegionResolutionError::ConcreteFailure(origin, a, b) => {
let predicate = format!("{b}: {a}");
errors
.entry((ty.clone(), predicate.clone()))
.or_default()
.push(origin.span());
if let ty::RegionKind::ReEarlyBound(ebr) = *b && ebr.has_name() {
bounds.push((b.to_string(), a.to_string(), None));
}
}
RegionResolutionError::GenericBoundFailure(origin, a, b) => {
let predicate = format!("{a}: {b}");
errors
.entry((ty.clone(), predicate.clone()))
.or_default()
.push(origin.span());
if let infer::region_constraints::GenericKind::Param(_) = a {
bounds.push((a.to_string(), b.to_string(), None));
}
}
_ => continue,
}
}
}
}
}
let mut notes = Vec::new();
for ((ty, error_predicate), spans) in errors {
let span: MultiSpan = spans.into();
notes.push(errors::ImplForTyRequires {
span,
error_predicate,
trait_name: trait_name.clone(),
ty,
});
}
let mut err = tcx.sess.create_err(errors::TraitCannotImplForTy {
span: impl_span,
trait_name,
label_spans,
notes,
});
suggest_constraining_type_params(
tcx,
tcx.hir().get_generics(impl_did).expect("impls always have generics"),
&mut err,
bounds
.iter()
.map(|(param, constraint, def_id)| (param.as_str(), constraint.as_str(), *def_id)),
None,
);
err.emit()
}