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Fix hack that remaps env constness.
WARNING: might have perf implications. Are there any more problems with having a constness in the `ParamEnv` now? :)
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8464396a19
@ -575,6 +575,19 @@ impl<'tcx> Predicate<'tcx> {
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Some(tcx.mk_predicate(kind))
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}
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pub fn without_const(mut self, tcx: TyCtxt<'tcx>) -> Self {
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if let PredicateKind::Trait(TraitPredicate { trait_ref, constness, polarity }) = self.kind().skip_binder()
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&& constness != BoundConstness::NotConst
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{
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self = tcx.mk_predicate(self.kind().map_bound(|_| PredicateKind::Trait(TraitPredicate {
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trait_ref,
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constness: BoundConstness::NotConst,
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polarity,
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})));
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}
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self
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}
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}
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impl<'a, 'tcx> HashStable<StableHashingContext<'a>> for Predicate<'tcx> {
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@ -42,115 +42,96 @@ impl<'cx, 'tcx> SelectionContext<'cx, 'tcx> {
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obligation: &TraitObligation<'tcx>,
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candidate: SelectionCandidate<'tcx>,
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) -> Result<Selection<'tcx>, SelectionError<'tcx>> {
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let mut obligation = obligation;
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let new_obligation;
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// HACK(const_trait_impl): the surrounding environment is remapped to a non-const context
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// because nested obligations might be actually `~const` then (incorrectly) requiring
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// const impls. for example:
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// ```
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// pub trait Super {}
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// pub trait Sub: Super {}
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//
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// impl<A> const Super for &A where A: ~const Super {}
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// impl<A> const Sub for &A where A: ~const Sub {}
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// ```
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//
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// The procedure to check the code above without the remapping code is as follows:
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// ```
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// CheckWf(impl const Sub for &A where A: ~const Sub) // <- const env
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// CheckPredicate(&A: Super)
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// CheckPredicate(A: ~const Super) // <- still const env, failure
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// ```
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if obligation.param_env.is_const() && !obligation.predicate.is_const_if_const() {
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new_obligation = TraitObligation {
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cause: obligation.cause.clone(),
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param_env: obligation.param_env.without_const(),
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..*obligation
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};
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obligation = &new_obligation;
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}
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match candidate {
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let mut impl_src = match candidate {
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BuiltinCandidate { has_nested } => {
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let data = self.confirm_builtin_candidate(obligation, has_nested);
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Ok(ImplSource::Builtin(data))
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ImplSource::Builtin(data)
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}
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ParamCandidate(param) => {
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let obligations =
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self.confirm_param_candidate(obligation, param.map_bound(|t| t.trait_ref));
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Ok(ImplSource::Param(obligations, param.skip_binder().constness))
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ImplSource::Param(obligations, param.skip_binder().constness)
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}
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ImplCandidate(impl_def_id) => {
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Ok(ImplSource::UserDefined(self.confirm_impl_candidate(obligation, impl_def_id)))
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ImplSource::UserDefined(self.confirm_impl_candidate(obligation, impl_def_id))
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}
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AutoImplCandidate(trait_def_id) => {
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let data = self.confirm_auto_impl_candidate(obligation, trait_def_id);
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Ok(ImplSource::AutoImpl(data))
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ImplSource::AutoImpl(data)
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}
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ProjectionCandidate(idx) => {
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let obligations = self.confirm_projection_candidate(obligation, idx)?;
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// FIXME(jschievink): constness
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Ok(ImplSource::Param(obligations, ty::BoundConstness::NotConst))
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ImplSource::Param(obligations, ty::BoundConstness::NotConst)
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}
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ObjectCandidate(idx) => {
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let data = self.confirm_object_candidate(obligation, idx)?;
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Ok(ImplSource::Object(data))
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ImplSource::Object(data)
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}
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ClosureCandidate => {
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let vtable_closure = self.confirm_closure_candidate(obligation)?;
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Ok(ImplSource::Closure(vtable_closure))
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ImplSource::Closure(vtable_closure)
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}
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GeneratorCandidate => {
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let vtable_generator = self.confirm_generator_candidate(obligation)?;
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Ok(ImplSource::Generator(vtable_generator))
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ImplSource::Generator(vtable_generator)
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}
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FnPointerCandidate { .. } => {
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let data = self.confirm_fn_pointer_candidate(obligation)?;
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Ok(ImplSource::FnPointer(data))
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ImplSource::FnPointer(data)
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}
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DiscriminantKindCandidate => {
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Ok(ImplSource::DiscriminantKind(ImplSourceDiscriminantKindData))
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ImplSource::DiscriminantKind(ImplSourceDiscriminantKindData)
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}
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PointeeCandidate => Ok(ImplSource::Pointee(ImplSourcePointeeData)),
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PointeeCandidate => ImplSource::Pointee(ImplSourcePointeeData),
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TraitAliasCandidate(alias_def_id) => {
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let data = self.confirm_trait_alias_candidate(obligation, alias_def_id);
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Ok(ImplSource::TraitAlias(data))
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ImplSource::TraitAlias(data)
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}
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BuiltinObjectCandidate => {
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// This indicates something like `Trait + Send: Send`. In this case, we know that
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// this holds because that's what the object type is telling us, and there's really
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// no additional obligations to prove and no types in particular to unify, etc.
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Ok(ImplSource::Param(Vec::new(), ty::BoundConstness::NotConst))
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ImplSource::Param(Vec::new(), ty::BoundConstness::NotConst)
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}
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BuiltinUnsizeCandidate => {
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let data = self.confirm_builtin_unsize_candidate(obligation)?;
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Ok(ImplSource::Builtin(data))
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ImplSource::Builtin(data)
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}
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TraitUpcastingUnsizeCandidate(idx) => {
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let data = self.confirm_trait_upcasting_unsize_candidate(obligation, idx)?;
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Ok(ImplSource::TraitUpcasting(data))
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ImplSource::TraitUpcasting(data)
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}
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ConstDestructCandidate(def_id) => {
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let data = self.confirm_const_destruct_candidate(obligation, def_id)?;
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Ok(ImplSource::ConstDestruct(data))
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ImplSource::ConstDestruct(data)
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}
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};
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if !obligation.predicate.is_const_if_const() {
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// normalize nested predicates according to parent predicate's constness.
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impl_src = impl_src.map(|mut o| {
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o.predicate = o.predicate.without_const(self.tcx());
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o
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});
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}
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Ok(impl_src)
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}
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fn confirm_projection_candidate(
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@ -4,7 +4,6 @@ pub static Y: &'static X = {
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const Y: &'static [u8] = b"";
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&X(*Y)
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//~^ ERROR E0277
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//~| ERROR E0277
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};
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fn main() {}
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@ -8,20 +8,6 @@ LL | &X(*Y)
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= note: all function arguments must have a statically known size
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= help: unsized fn params are gated as an unstable feature
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error[E0277]: the size for values of type `[u8]` cannot be known at compilation time
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--> $DIR/issue-30355.rs:5:6
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LL | &X(*Y)
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| ^ doesn't have a size known at compile-time
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= help: within `X`, the trait `Sized` is not implemented for `[u8]`
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note: required because it appears within the type `X`
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--> $DIR/issue-30355.rs:1:12
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LL | pub struct X([u8]);
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| ^
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= note: the return type of a function must have a statically known size
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error: aborting due to 2 previous errors
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error: aborting due to previous error
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For more information about this error, try `rustc --explain E0277`.
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