rust/src/traits.rs

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use rustc::traits::{self, Reveal};
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use eval_context::EvalContext;
use memory::Pointer;
use rustc::hir::def_id::DefId;
use rustc::ty::subst::Substs;
use rustc::ty::{self, Ty};
use syntax::codemap::DUMMY_SP;
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use syntax::ast;
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use error::EvalResult;
impl<'a, 'tcx> EvalContext<'a, 'tcx> {
pub(crate) fn fulfill_obligation(&self, trait_ref: ty::PolyTraitRef<'tcx>) -> traits::Vtable<'tcx, ()> {
// Do the initial selection for the obligation. This yields the shallow result we are
// looking for -- that is, what specific impl.
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self.tcx.infer_ctxt(()).enter(|infcx| {
let mut selcx = traits::SelectionContext::new(&infcx);
let obligation = traits::Obligation::new(
traits::ObligationCause::misc(DUMMY_SP, ast::DUMMY_NODE_ID),
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ty::ParamEnv::empty(Reveal::All),
trait_ref.to_poly_trait_predicate(),
);
let selection = selcx.select(&obligation).unwrap().unwrap();
// Currently, we use a fulfillment context to completely resolve all nested obligations.
// This is because they can inform the inference of the impl's type parameters.
let mut fulfill_cx = traits::FulfillmentContext::new();
let vtable = selection.map(|predicate| {
fulfill_cx.register_predicate_obligation(&infcx, predicate);
});
infcx.drain_fulfillment_cx_or_panic(DUMMY_SP, &mut fulfill_cx, &vtable)
})
}
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/// Creates a dynamic vtable for the given type and vtable origin. This is used only for
/// objects.
///
/// The `trait_ref` encodes the erased self type. Hence if we are
/// making an object `Foo<Trait>` from a value of type `Foo<T>`, then
/// `trait_ref` would map `T:Trait`.
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pub fn get_vtable(&mut self, ty: Ty<'tcx>, trait_ref: ty::PolyTraitRef<'tcx>) -> EvalResult<'tcx, Pointer> {
debug!("get_vtable(trait_ref={:?})", trait_ref);
let size = self.type_size(trait_ref.self_ty())?.expect("can't create a vtable for an unsized type");
let align = self.type_align(trait_ref.self_ty())?;
let ptr_size = self.memory.pointer_size();
let methods = ::rustc::traits::get_vtable_methods(self.tcx, trait_ref);
let vtable = self.memory.allocate(ptr_size * (3 + methods.count() as u64), ptr_size)?;
let drop = ::eval_context::resolve_drop_in_place(self.tcx, ty);
let drop = self.memory.create_fn_alloc(drop);
self.memory.write_ptr(vtable, drop)?;
self.memory.write_usize(vtable.offset(ptr_size, self.memory.layout)?, size)?;
self.memory.write_usize(vtable.offset(ptr_size * 2, self.memory.layout)?, align)?;
for (i, method) in ::rustc::traits::get_vtable_methods(self.tcx, trait_ref).enumerate() {
if let Some((def_id, substs)) = method {
let instance = ::eval_context::resolve(self.tcx, def_id, substs);
let fn_ptr = self.memory.create_fn_alloc(instance);
self.memory.write_ptr(vtable.offset(ptr_size * (3 + i as u64), self.memory.layout)?, fn_ptr)?;
}
}
self.memory.mark_static_initalized(vtable.alloc_id, false)?;
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Ok(vtable)
}
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pub fn read_drop_type_from_vtable(&self, vtable: Pointer) -> EvalResult<'tcx, Option<ty::Instance<'tcx>>> {
let drop_fn = self.memory.read_ptr(vtable)?;
// just a sanity check
assert_eq!(drop_fn.offset, 0);
// some values don't need to call a drop impl, so the value is null
if drop_fn == Pointer::from_int(0) {
Ok(None)
} else {
self.memory.get_fn(drop_fn.alloc_id).map(Some)
}
}
pub fn read_size_and_align_from_vtable(&self, vtable: Pointer) -> EvalResult<'tcx, (u64, u64)> {
let pointer_size = self.memory.pointer_size();
let size = self.memory.read_usize(vtable.offset(pointer_size, self.memory.layout)?)?;
let align = self.memory.read_usize(vtable.offset(pointer_size * 2, self.memory.layout)?)?;
Ok((size, align))
}
pub(crate) fn resolve_associated_const(
&self,
def_id: DefId,
substs: &'tcx Substs<'tcx>,
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) -> ty::Instance<'tcx> {
if let Some(trait_id) = self.tcx.trait_of_item(def_id) {
let trait_ref = ty::Binder(ty::TraitRef::new(trait_id, substs));
let vtable = self.fulfill_obligation(trait_ref);
if let traits::VtableImpl(vtable_impl) = vtable {
let name = self.tcx.item_name(def_id);
let assoc_const_opt = self.tcx.associated_items(vtable_impl.impl_def_id)
.find(|item| item.kind == ty::AssociatedKind::Const && item.name == name);
if let Some(assoc_const) = assoc_const_opt {
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return ty::Instance::new(assoc_const.def_id, vtable_impl.substs);
}
}
}
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ty::Instance::new(def_id, substs)
}
}