fix treatment of local types in "remote coherence" mode
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2ca00a9489
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@ -19,8 +19,18 @@ use ty::subst::Subst;
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use infer::{InferCtxt, InferOk};
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#[derive(Copy, Clone)]
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struct InferIsLocal(bool);
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#[derive(Copy, Clone, Debug)]
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enum InferIsLocal {
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BrokenYes,
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Yes,
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No
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}
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#[derive(Debug, Copy, Clone)]
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pub enum Conflict {
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Upstream,
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Downstream
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}
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pub struct OverlapResult<'tcx> {
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pub impl_header: ty::ImplHeader<'tcx>,
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@ -126,32 +136,46 @@ fn overlap<'cx, 'gcx, 'tcx>(selcx: &mut SelectionContext<'cx, 'gcx, 'tcx>,
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}
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pub fn trait_ref_is_knowable<'a, 'gcx, 'tcx>(tcx: TyCtxt<'a, 'gcx, 'tcx>,
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trait_ref: ty::TraitRef<'tcx>) -> bool
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trait_ref: ty::TraitRef<'tcx>,
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broken: bool)
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-> Option<Conflict>
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{
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debug!("trait_ref_is_knowable(trait_ref={:?})", trait_ref);
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debug!("trait_ref_is_knowable(trait_ref={:?}, broken={:?})", trait_ref, broken);
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let mode = if broken {
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InferIsLocal::BrokenYes
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} else {
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InferIsLocal::Yes
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};
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if orphan_check_trait_ref(tcx, trait_ref, mode).is_ok() {
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// A downstream or cousin crate is allowed to implement some
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// substitution of this trait-ref.
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debug!("trait_ref_is_knowable: downstream crate might implement");
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return Some(Conflict::Downstream);
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}
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// if the orphan rules pass, that means that no ancestor crate can
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// impl this, so it's up to us.
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if orphan_check_trait_ref(tcx, trait_ref, InferIsLocal(false)).is_ok() {
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if trait_ref_is_local_or_fundamental(tcx, trait_ref) {
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// This is a local or fundamental trait, so future-compatibility
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// is no concern. We know that downstream/cousin crates are not
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// allowed to implement a substitution of this trait ref, which
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// means impls could only come from dependencies of this crate,
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// which we already know about.
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return None;
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}
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// This is a remote non-fundamental trait, so if another crate
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// can be the "final owner" of a substitution of this trait-ref,
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// they are allowed to implement it future-compatibly.
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//
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// However, if we are a final owner, then nobody else can be,
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// and if we are an intermediate owner, then we don't care
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// about future-compatibility, which means that we're OK if
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// we are an owner.
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if orphan_check_trait_ref(tcx, trait_ref, InferIsLocal::No).is_ok() {
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debug!("trait_ref_is_knowable: orphan check passed");
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return true;
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return None;
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} else {
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debug!("trait_ref_is_knowable: nonlocal, nonfundamental, unowned");
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return Some(Conflict::Upstream);
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}
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// if the trait is not marked fundamental, then it's always possible that
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// an ancestor crate will impl this in the future, if they haven't
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// already
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if !trait_ref_is_local_or_fundamental(tcx, trait_ref) {
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debug!("trait_ref_is_knowable: trait is neither local nor fundamental");
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return false;
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}
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// find out when some downstream (or cousin) crate could impl this
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// trait-ref, presuming that all the parameters were instantiated
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// with downstream types. If not, then it could only be
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// implemented by an upstream crate, which means that the impl
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// must be visible to us, and -- since the trait is fundamental
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// -- we can test.
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orphan_check_trait_ref(tcx, trait_ref, InferIsLocal(true)).is_err()
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}
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pub fn trait_ref_is_local_or_fundamental<'a, 'gcx, 'tcx>(tcx: TyCtxt<'a, 'gcx, 'tcx>,
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@ -189,7 +213,7 @@ pub fn orphan_check<'a, 'gcx, 'tcx>(tcx: TyCtxt<'a, 'gcx, 'tcx>,
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return Ok(());
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}
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orphan_check_trait_ref(tcx, trait_ref, InferIsLocal(false))
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orphan_check_trait_ref(tcx, trait_ref, InferIsLocal::No)
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}
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fn orphan_check_trait_ref<'tcx>(tcx: TyCtxt,
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@ -197,8 +221,8 @@ fn orphan_check_trait_ref<'tcx>(tcx: TyCtxt,
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infer_is_local: InferIsLocal)
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-> Result<(), OrphanCheckErr<'tcx>>
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{
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debug!("orphan_check_trait_ref(trait_ref={:?}, infer_is_local={})",
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trait_ref, infer_is_local.0);
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debug!("orphan_check_trait_ref(trait_ref={:?}, infer_is_local={:?})",
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trait_ref, infer_is_local);
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// First, create an ordered iterator over all the type parameters to the trait, with the self
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// type appearing first.
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@ -212,7 +236,9 @@ fn orphan_check_trait_ref<'tcx>(tcx: TyCtxt,
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// uncovered type parameters.
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let uncovered_tys = uncovered_tys(tcx, input_ty, infer_is_local);
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for uncovered_ty in uncovered_tys {
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if let Some(param) = uncovered_ty.walk().find(|t| is_type_parameter(t)) {
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if let Some(param) = uncovered_ty.walk()
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.find(|t| is_possibly_remote_type(t, infer_is_local))
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{
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debug!("orphan_check_trait_ref: uncovered type `{:?}`", param);
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return Err(OrphanCheckErr::UncoveredTy(param));
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}
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@ -224,11 +250,11 @@ fn orphan_check_trait_ref<'tcx>(tcx: TyCtxt,
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// Otherwise, enforce invariant that there are no type
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// parameters reachable.
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if !infer_is_local.0 {
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if let Some(param) = input_ty.walk().find(|t| is_type_parameter(t)) {
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debug!("orphan_check_trait_ref: uncovered type `{:?}`", param);
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return Err(OrphanCheckErr::UncoveredTy(param));
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}
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if let Some(param) = input_ty.walk()
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.find(|t| is_possibly_remote_type(t, infer_is_local))
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{
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debug!("orphan_check_trait_ref: uncovered type `{:?}`", param);
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return Err(OrphanCheckErr::UncoveredTy(param));
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}
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}
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@ -250,7 +276,7 @@ fn uncovered_tys<'tcx>(tcx: TyCtxt, ty: Ty<'tcx>, infer_is_local: InferIsLocal)
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}
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}
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fn is_type_parameter(ty: Ty) -> bool {
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fn is_possibly_remote_type(ty: Ty, _infer_is_local: InferIsLocal) -> bool {
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match ty.sty {
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ty::TyProjection(..) | ty::TyParam(..) => true,
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_ => false,
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@ -273,7 +299,15 @@ fn fundamental_ty(tcx: TyCtxt, ty: Ty) -> bool {
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}
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}
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fn ty_is_local_constructor(ty: Ty, infer_is_local: InferIsLocal)-> bool {
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fn def_id_is_local(def_id: DefId, infer_is_local: InferIsLocal) -> bool {
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match infer_is_local {
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InferIsLocal::Yes => false,
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InferIsLocal::No |
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InferIsLocal::BrokenYes => def_id.is_local()
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}
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}
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fn ty_is_local_constructor(ty: Ty, infer_is_local: InferIsLocal) -> bool {
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debug!("ty_is_local_constructor({:?})", ty);
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match ty.sty {
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@ -296,20 +330,19 @@ fn ty_is_local_constructor(ty: Ty, infer_is_local: InferIsLocal)-> bool {
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false
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}
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ty::TyInfer(..) => {
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infer_is_local.0
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}
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ty::TyInfer(..) => match infer_is_local {
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InferIsLocal::No => false,
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InferIsLocal::Yes |
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InferIsLocal::BrokenYes => true
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},
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ty::TyAdt(def, _) => {
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def.did.is_local()
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}
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ty::TyForeign(did) => {
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did.is_local()
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}
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ty::TyAdt(def, _) => def_id_is_local(def.did, infer_is_local),
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ty::TyForeign(did) => def_id_is_local(did, infer_is_local),
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ty::TyDynamic(ref tt, ..) => {
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tt.principal().map_or(false, |p| p.def_id().is_local())
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tt.principal().map_or(false, |p| {
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def_id_is_local(p.def_id(), infer_is_local)
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})
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}
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ty::TyError => {
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@ -814,7 +814,7 @@ impl<'cx, 'gcx, 'tcx> SelectionContext<'cx, 'gcx, 'tcx> {
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// terms of `Fn` etc, but we could probably make this more
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// precise still.
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let unbound_input_types = stack.fresh_trait_ref.input_types().any(|ty| ty.is_fresh());
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if unbound_input_types && self.intercrate {
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if unbound_input_types && self.intercrate && false {
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debug!("evaluate_stack({:?}) --> unbound argument, intercrate --> ambiguous",
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stack.fresh_trait_ref);
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// Heuristics: show the diagnostics when there are no candidates in crate.
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@ -1221,7 +1221,7 @@ impl<'cx, 'gcx, 'tcx> SelectionContext<'cx, 'gcx, 'tcx> {
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// bound regions
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let trait_ref = predicate.skip_binder().trait_ref;
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coherence::trait_ref_is_knowable(self.tcx(), trait_ref)
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coherence::trait_ref_is_knowable(self.tcx(), trait_ref, false).is_none()
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}
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/// Returns true if the global caches can be used.
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