2016-09-09 05:51:14 -05:00
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use rustc::hir::def_id::DefId;
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use rustc::traits::{self, Reveal, SelectionContext};
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2016-11-17 04:31:28 -06:00
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use rustc::ty::subst::Substs;
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2016-09-09 05:51:14 -05:00
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use rustc::ty;
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use error::EvalResult;
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2016-12-10 18:58:13 -06:00
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use eval_context::EvalContext;
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2016-09-09 05:51:14 -05:00
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use memory::Pointer;
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2016-12-10 18:58:13 -06:00
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use terminator::{get_impl_method, ImplMethod};
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2016-09-09 05:51:14 -05:00
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impl<'a, 'tcx> EvalContext<'a, 'tcx> {
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2016-09-11 04:06:44 -05:00
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/// Creates a dynamic vtable for the given type and vtable origin. This is used only for
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/// objects.
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2016-09-09 05:51:14 -05:00
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///
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/// The `trait_ref` encodes the erased self type. Hence if we are
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/// making an object `Foo<Trait>` from a value of type `Foo<T>`, then
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/// `trait_ref` would map `T:Trait`.
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pub fn get_vtable(&mut self, trait_ref: ty::PolyTraitRef<'tcx>) -> EvalResult<'tcx, Pointer> {
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let tcx = self.tcx;
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debug!("get_vtable(trait_ref={:?})", trait_ref);
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2016-09-13 06:03:54 -05:00
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let methods: Vec<_> = traits::supertraits(tcx, trait_ref).flat_map(|trait_ref| {
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match self.fulfill_obligation(trait_ref) {
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2016-09-09 05:51:14 -05:00
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// Should default trait error here?
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traits::VtableDefaultImpl(_) |
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traits::VtableBuiltin(_) => {
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Vec::new().into_iter()
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}
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traits::VtableImpl(
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traits::VtableImplData {
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impl_def_id: id,
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substs,
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nested: _ }) => {
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self.get_vtable_methods(id, substs)
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.into_iter()
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.map(|opt_mth| opt_mth.map(|mth| {
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2016-11-17 04:31:28 -06:00
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let fn_ty = self.tcx.item_type(mth.method.def_id);
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let fn_ty = match fn_ty.sty {
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ty::TyFnDef(_, _, fn_ty) => fn_ty,
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_ => bug!("bad function type: {}", fn_ty),
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};
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let fn_ty = self.tcx.erase_regions(&fn_ty);
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2016-11-15 10:19:37 -06:00
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self.memory.create_fn_ptr(self.tcx, mth.method.def_id, mth.substs, fn_ty)
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2016-09-09 05:51:14 -05:00
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}))
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.collect::<Vec<_>>()
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.into_iter()
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}
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traits::VtableClosure(
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traits::VtableClosureData {
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closure_def_id,
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substs,
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nested: _ }) => {
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let closure_type = self.tcx.closure_type(closure_def_id, substs);
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2016-11-15 10:19:37 -06:00
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vec![Some(self.memory.create_closure_ptr(self.tcx, closure_def_id, substs, closure_type))].into_iter()
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2016-09-09 05:51:14 -05:00
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}
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traits::VtableFnPointer(
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traits::VtableFnPointerData {
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2016-11-15 09:32:21 -06:00
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fn_ty,
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2016-09-09 05:51:14 -05:00
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nested: _ }) => {
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2016-11-15 09:32:21 -06:00
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match fn_ty.sty {
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ty::TyFnDef(did, substs, bare_fn_ty) => {
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2016-11-15 10:19:37 -06:00
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vec![Some(self.memory.create_fn_ptr(self.tcx, did, substs, bare_fn_ty))].into_iter()
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2016-11-15 09:32:21 -06:00
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},
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_ => bug!("bad VtableFnPointer fn_ty: {:?}", fn_ty),
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}
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2016-09-09 05:51:14 -05:00
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}
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traits::VtableObject(ref data) => {
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// this would imply that the Self type being erased is
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// an object type; this cannot happen because we
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// cannot cast an unsized type into a trait object
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bug!("cannot get vtable for an object type: {:?}",
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data);
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}
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vtable @ traits::VtableParam(..) => {
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bug!("resolved vtable for {:?} to bad vtable {:?} in trans",
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trait_ref,
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vtable);
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}
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}
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}).collect();
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2016-11-17 10:23:40 -06:00
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let size = self.type_size(trait_ref.self_ty())?.expect("can't create a vtable for an unsized type");
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let align = self.type_align(trait_ref.self_ty())?;
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2016-09-09 05:51:14 -05:00
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let ptr_size = self.memory.pointer_size();
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2016-11-18 05:55:14 -06:00
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let vtable = self.memory.allocate(ptr_size * (3 + methods.len() as u64), ptr_size)?;
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2016-09-09 05:51:14 -05:00
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2016-11-04 10:38:04 -05:00
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// in case there is no drop function to be called, this still needs to be initialized
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self.memory.write_usize(vtable, 0)?;
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if let ty::TyAdt(adt_def, substs) = trait_ref.self_ty().sty {
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if let Some(drop_def_id) = adt_def.destructor() {
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2016-11-17 04:31:28 -06:00
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let fn_ty = match self.tcx.item_type(drop_def_id).sty {
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2016-11-15 08:20:10 -06:00
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ty::TyFnDef(_, _, fn_ty) => self.tcx.erase_regions(&fn_ty),
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2016-11-04 10:38:04 -05:00
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_ => bug!("drop method is not a TyFnDef"),
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};
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2016-11-15 10:19:37 -06:00
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let fn_ptr = self.memory.create_fn_ptr(self.tcx, drop_def_id, substs, fn_ty);
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2016-11-04 10:38:04 -05:00
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self.memory.write_ptr(vtable, fn_ptr)?;
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}
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}
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2016-09-09 05:51:14 -05:00
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2016-11-18 05:55:14 -06:00
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self.memory.write_usize(vtable.offset(ptr_size), size)?;
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self.memory.write_usize(vtable.offset((ptr_size * 2)), align)?;
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2016-09-09 05:51:14 -05:00
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for (i, method) in methods.into_iter().enumerate() {
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if let Some(method) = method {
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2016-11-18 05:55:14 -06:00
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self.memory.write_ptr(vtable.offset(ptr_size * (3 + i as u64)), method)?;
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2016-09-09 05:51:14 -05:00
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}
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}
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2016-09-10 08:17:08 -05:00
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self.memory.freeze(vtable.alloc_id)?;
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2016-09-09 05:51:14 -05:00
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Ok(vtable)
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}
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fn get_vtable_methods(&mut self, impl_id: DefId, substs: &'tcx Substs<'tcx>) -> Vec<Option<ImplMethod<'tcx>>> {
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debug!("get_vtable_methods(impl_id={:?}, substs={:?}", impl_id, substs);
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let trait_id = match self.tcx.impl_trait_ref(impl_id) {
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Some(t_id) => t_id.def_id,
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None => bug!("make_impl_vtable: don't know how to \
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make a vtable for a type impl!")
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};
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self.tcx.populate_implementations_for_trait_if_necessary(trait_id);
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2016-11-17 04:31:28 -06:00
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self.tcx
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.associated_items(trait_id)
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2016-09-09 05:51:14 -05:00
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// Filter out non-method items.
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2016-11-17 04:31:28 -06:00
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.filter_map(|trait_method_type| {
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if trait_method_type.kind != ty::AssociatedKind::Method {
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return None;
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}
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debug!("get_vtable_methods: trait_method_type={:?}",
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trait_method_type);
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2016-09-09 05:51:14 -05:00
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let name = trait_method_type.name;
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// Some methods cannot be called on an object; skip those.
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if !self.tcx.is_vtable_safe_method(trait_id, &trait_method_type) {
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debug!("get_vtable_methods: not vtable safe");
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2016-09-27 09:59:48 -05:00
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return Some(None);
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2016-09-09 05:51:14 -05:00
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}
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debug!("get_vtable_methods: trait_method_type={:?}",
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trait_method_type);
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// the method may have some early-bound lifetimes, add
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// regions for those
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2016-11-17 04:31:28 -06:00
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let method_substs = Substs::for_item(self.tcx, trait_method_type.def_id,
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2016-09-09 05:51:14 -05:00
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|_, _| self.tcx.mk_region(ty::ReErased),
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|_, _| self.tcx.types.err);
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// The substitutions we have are on the impl, so we grab
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// the method type from the impl to substitute into.
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let mth = get_impl_method(self.tcx, method_substs, impl_id, substs, name);
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debug!("get_vtable_methods: mth={:?}", mth);
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// If this is a default method, it's possible that it
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// relies on where clauses that do not hold for this
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// particular set of type parameters. Note that this
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// method could then never be called, so we do not want to
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// try and trans it, in that case. Issue #23435.
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if mth.is_provided {
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2016-11-17 04:31:28 -06:00
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let predicates = self.tcx.item_predicates(trait_method_type.def_id).instantiate_own(self.tcx, mth.substs);
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if !self.normalize_and_test_predicates(predicates.predicates) {
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2016-09-09 05:51:14 -05:00
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debug!("get_vtable_methods: predicates do not hold");
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2016-09-27 09:59:48 -05:00
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return Some(None);
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2016-09-09 05:51:14 -05:00
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}
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}
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2016-09-27 09:59:48 -05:00
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Some(Some(mth))
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2016-09-09 05:51:14 -05:00
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})
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.collect()
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}
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/// Normalizes the predicates and checks whether they hold. If this
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/// returns false, then either normalize encountered an error or one
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/// of the predicates did not hold. Used when creating vtables to
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/// check for unsatisfiable methods.
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fn normalize_and_test_predicates(&mut self, predicates: Vec<ty::Predicate<'tcx>>) -> bool {
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debug!("normalize_and_test_predicates(predicates={:?})",
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predicates);
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self.tcx.infer_ctxt(None, None, Reveal::All).enter(|infcx| {
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let mut selcx = SelectionContext::new(&infcx);
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let mut fulfill_cx = traits::FulfillmentContext::new();
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let cause = traits::ObligationCause::dummy();
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let traits::Normalized { value: predicates, obligations } =
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traits::normalize(&mut selcx, cause.clone(), &predicates);
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for obligation in obligations {
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fulfill_cx.register_predicate_obligation(&infcx, obligation);
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}
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for predicate in predicates {
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let obligation = traits::Obligation::new(cause.clone(), predicate);
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fulfill_cx.register_predicate_obligation(&infcx, obligation);
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}
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fulfill_cx.select_all_or_error(&infcx).is_ok()
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})
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}
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}
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