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Rollup merge of rust-lang#70213 - eddyb:stalled-on-ty-or-const, r=nik…
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…omatsakis

traits/fulfill: allow `stalled_on` to track `ty::Const::Infer(_)` (unused yet).

This PR addresses the representation side of rust-lang#70180, but only *actually collects* `ty::Infer`s via `Ty::walk` into `stalled_on` (collecting `ty::ConstKind::Infer`s requires rust-lang#70164).

However, it should be enough to handle rust-lang#70107's needs (WF obligations are stalled only on the outermost type/const being an inference variable, no `walk`-ing is involved).

This is my second attempt, see rust-lang#70181 for the previous one, which unacceptably regressed perf.

r? @nikomatsakis cc @nnethercote
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@Centril
Centril committed Mar 24, 2020
2 parents dd8ef75 + 78c178b commit a62fd3a
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134 changes: 94 additions & 40 deletions src/librustc_infer/infer/mod.rs
View file
Original file line number Diff line number Diff line change
Expand Up @@ -19,7 +19,7 @@ use rustc::traits::select;
use rustc::ty::error::{ExpectedFound, TypeError, UnconstrainedNumeric};
use rustc::ty::fold::{TypeFoldable, TypeFolder};
use rustc::ty::relate::RelateResult;
use rustc::ty::subst::{GenericArg, InternalSubsts, SubstsRef};
use rustc::ty::subst::{GenericArg, GenericArgKind, InternalSubsts, SubstsRef};
pub use rustc::ty::IntVarValue;
use rustc::ty::{self, GenericParamDefKind, InferConst, Ty, TyCtxt};
use rustc::ty::{ConstVid, FloatVid, IntVid, TyVid};
Expand Down Expand Up @@ -501,6 +501,7 @@ impl NLLRegionVariableOrigin {
}
}

// FIXME(eddyb) investigate overlap between this and `TyOrConstInferVar`.
#[derive(Copy, Clone, Debug)]
pub enum FixupError<'tcx> {
UnresolvedIntTy(IntVid),
Expand Down Expand Up @@ -1347,8 +1348,7 @@ impl<'a, 'tcx> InferCtxt<'a, 'tcx> {
where
T: TypeFoldable<'tcx>,
{
let mut r = ShallowResolver::new(self);
value.fold_with(&mut r)
value.fold_with(&mut ShallowResolver { infcx: self })
}

pub fn root_var(&self, var: ty::TyVid) -> ty::TyVid {
Expand Down Expand Up @@ -1551,22 +1551,12 @@ impl<'a, 'tcx> InferCtxt<'a, 'tcx> {
// variables, thus we don't need to substitute back the original values.
self.tcx.const_eval_resolve(param_env, def_id, substs, promoted, span)
}
}

pub struct ShallowResolver<'a, 'tcx> {
infcx: &'a InferCtxt<'a, 'tcx>,
}

impl<'a, 'tcx> ShallowResolver<'a, 'tcx> {
#[inline(always)]
pub fn new(infcx: &'a InferCtxt<'a, 'tcx>) -> Self {
ShallowResolver { infcx }
}

/// If `typ` is a type variable of some kind, resolve it one level
/// (but do not resolve types found in the result). If `typ` is
/// not a type variable, just return it unmodified.
pub fn shallow_resolve(&mut self, typ: Ty<'tcx>) -> Ty<'tcx> {
// FIXME(eddyb) inline into `ShallowResolver::visit_ty`.
fn shallow_resolve_ty(&self, typ: Ty<'tcx>) -> Ty<'tcx> {
match typ.kind {
ty::Infer(ty::TyVar(v)) => {
// Not entirely obvious: if `typ` is a type variable,
Expand All @@ -1580,69 +1570,133 @@ impl<'a, 'tcx> ShallowResolver<'a, 'tcx> {
// depth.
//
// Note: if these two lines are combined into one we get
// dynamic borrow errors on `self.infcx.inner`.
let known = self.infcx.inner.borrow_mut().type_variables.probe(v).known();
known.map(|t| self.fold_ty(t)).unwrap_or(typ)
// dynamic borrow errors on `self.inner`.
let known = self.inner.borrow_mut().type_variables.probe(v).known();
known.map(|t| self.shallow_resolve_ty(t)).unwrap_or(typ)
}

ty::Infer(ty::IntVar(v)) => self
.infcx
.inner
.borrow_mut()
.int_unification_table
.probe_value(v)
.map(|v| v.to_type(self.infcx.tcx))
.map(|v| v.to_type(self.tcx))
.unwrap_or(typ),

ty::Infer(ty::FloatVar(v)) => self
.infcx
.inner
.borrow_mut()
.float_unification_table
.probe_value(v)
.map(|v| v.to_type(self.infcx.tcx))
.map(|v| v.to_type(self.tcx))
.unwrap_or(typ),

_ => typ,
}
}

// `resolver.shallow_resolve_changed(ty)` is equivalent to
// `resolver.shallow_resolve(ty) != ty`, but more efficient. It's always
// inlined, despite being large, because it has only two call sites that
// are extremely hot.
/// `ty_or_const_infer_var_changed` is equivalent to one of these two:
/// * `shallow_resolve(ty) != ty` (where `ty.kind = ty::Infer(_)`)
/// * `shallow_resolve(ct) != ct` (where `ct.kind = ty::ConstKind::Infer(_)`)
///
/// However, `ty_or_const_infer_var_changed` is more efficient. It's always
/// inlined, despite being large, because it has only two call sites that
/// are extremely hot (both in `traits::fulfill`'s checking of `stalled_on`
/// inference variables), and it handles both `Ty` and `ty::Const` without
/// having to resort to storing full `GenericArg`s in `stalled_on`.
#[inline(always)]
pub fn shallow_resolve_changed(&self, infer: ty::InferTy) -> bool {
match infer {
ty::TyVar(v) => {
pub fn ty_or_const_infer_var_changed(&self, infer_var: TyOrConstInferVar<'tcx>) -> bool {
match infer_var {
TyOrConstInferVar::Ty(v) => {
use self::type_variable::TypeVariableValue;

// If `inlined_probe` returns a `Known` value its `kind` never
// matches `infer`.
match self.infcx.inner.borrow_mut().type_variables.inlined_probe(v) {
// If `inlined_probe` returns a `Known` value, it never equals
// `ty::Infer(ty::TyVar(v))`.
match self.inner.borrow_mut().type_variables.inlined_probe(v) {
TypeVariableValue::Unknown { .. } => false,
TypeVariableValue::Known { .. } => true,
}
}

ty::IntVar(v) => {
// If inlined_probe_value returns a value it's always a
TyOrConstInferVar::TyInt(v) => {
// If `inlined_probe_value` returns a value it's always a
// `ty::Int(_)` or `ty::UInt(_)`, which never matches a
// `ty::Infer(_)`.
self.infcx.inner.borrow_mut().int_unification_table.inlined_probe_value(v).is_some()
self.inner.borrow_mut().int_unification_table.inlined_probe_value(v).is_some()
}

ty::FloatVar(v) => {
// If inlined_probe_value returns a value it's always a
TyOrConstInferVar::TyFloat(v) => {
// If `probe_value` returns a value it's always a
// `ty::Float(_)`, which never matches a `ty::Infer(_)`.
//
// Not `inlined_probe_value(v)` because this call site is colder.
self.infcx.inner.borrow_mut().float_unification_table.probe_value(v).is_some()
self.inner.borrow_mut().float_unification_table.probe_value(v).is_some()
}

_ => unreachable!(),
TyOrConstInferVar::Const(v) => {
// If `probe_value` returns a `Known` value, it never equals
// `ty::ConstKind::Infer(ty::InferConst::Var(v))`.
//
// Not `inlined_probe_value(v)` because this call site is colder.
match self.inner.borrow_mut().const_unification_table.probe_value(v).val {
ConstVariableValue::Unknown { .. } => false,
ConstVariableValue::Known { .. } => true,
}
}
}
}
}

/// Helper for `ty_or_const_infer_var_changed` (see comment on that), currently
/// used only for `traits::fulfill`'s list of `stalled_on` inference variables.
#[derive(Copy, Clone, Debug)]
pub enum TyOrConstInferVar<'tcx> {
/// Equivalent to `ty::Infer(ty::TyVar(_))`.
Ty(TyVid),
/// Equivalent to `ty::Infer(ty::IntVar(_))`.
TyInt(IntVid),
/// Equivalent to `ty::Infer(ty::FloatVar(_))`.
TyFloat(FloatVid),

/// Equivalent to `ty::ConstKind::Infer(ty::InferConst::Var(_))`.
Const(ConstVid<'tcx>),
}

impl TyOrConstInferVar<'tcx> {
/// Tries to extract an inference variable from a type or a constant, returns `None`
/// for types other than `ty::Infer(_)` (or `InferTy::Fresh*`) and
/// for constants other than `ty::ConstKind::Infer(_)` (or `InferConst::Fresh`).
pub fn maybe_from_generic_arg(arg: GenericArg<'tcx>) -> Option<Self> {
match arg.unpack() {
GenericArgKind::Type(ty) => Self::maybe_from_ty(ty),
GenericArgKind::Const(ct) => Self::maybe_from_const(ct),
GenericArgKind::Lifetime(_) => None,
}
}

/// Tries to extract an inference variable from a type, returns `None`
/// for types other than `ty::Infer(_)` (or `InferTy::Fresh*`).
pub fn maybe_from_ty(ty: Ty<'tcx>) -> Option<Self> {
match ty.kind {
ty::Infer(ty::TyVar(v)) => Some(TyOrConstInferVar::Ty(v)),
ty::Infer(ty::IntVar(v)) => Some(TyOrConstInferVar::TyInt(v)),
ty::Infer(ty::FloatVar(v)) => Some(TyOrConstInferVar::TyFloat(v)),
_ => None,
}
}

/// Tries to extract an inference variable from a constant, returns `None`
/// for constants other than `ty::ConstKind::Infer(_)` (or `InferConst::Fresh`).
pub fn maybe_from_const(ct: &'tcx ty::Const<'tcx>) -> Option<Self> {
match ct.val {
ty::ConstKind::Infer(InferConst::Var(v)) => Some(TyOrConstInferVar::Const(v)),
_ => None,
}
}
}

struct ShallowResolver<'a, 'tcx> {
infcx: &'a InferCtxt<'a, 'tcx>,
}

impl<'a, 'tcx> TypeFolder<'tcx> for ShallowResolver<'a, 'tcx> {
Expand All @@ -1651,7 +1705,7 @@ impl<'a, 'tcx> TypeFolder<'tcx> for ShallowResolver<'a, 'tcx> {
}

fn fold_ty(&mut self, ty: Ty<'tcx>) -> Ty<'tcx> {
self.shallow_resolve(ty)
self.infcx.shallow_resolve_ty(ty)
}

fn fold_const(&mut self, ct: &'tcx ty::Const<'tcx>) -> &'tcx ty::Const<'tcx> {
Expand Down
54 changes: 27 additions & 27 deletions src/librustc_trait_selection/traits/fulfill.rs
View file
Original file line number Diff line number Diff line change
@@ -1,4 +1,4 @@
use crate::infer::{InferCtxt, ShallowResolver};
use crate::infer::{InferCtxt, TyOrConstInferVar};
use rustc::ty::error::ExpectedFound;
use rustc::ty::{self, ToPolyTraitRef, Ty, TypeFoldable};
use rustc_data_structures::obligation_forest::ProcessResult;
Expand Down Expand Up @@ -73,7 +73,10 @@ pub struct FulfillmentContext<'tcx> {
#[derive(Clone, Debug)]
pub struct PendingPredicateObligation<'tcx> {
pub obligation: PredicateObligation<'tcx>,
pub stalled_on: Vec<ty::InferTy>,
// FIXME(eddyb) look into whether this could be a `SmallVec`.
// Judging by the comment in `process_obligation`, the 1-element case
// is common so this could be a `SmallVec<[TyOrConstInferVar<'tcx>; 1]>`.
pub stalled_on: Vec<TyOrConstInferVar<'tcx>>,
}

// `PendingPredicateObligation` is used a lot. Make sure it doesn't unintentionally get bigger.
Expand Down Expand Up @@ -266,8 +269,8 @@ impl<'a, 'b, 'tcx> ObligationProcessor for FulfillProcessor<'a, 'b, 'tcx> {
// Match arms are in order of frequency, which matters because this
// code is so hot. 1 and 0 dominate; 2+ is fairly rare.
1 => {
let infer = pending_obligation.stalled_on[0];
ShallowResolver::new(self.selcx.infcx()).shallow_resolve_changed(infer)
let infer_var = pending_obligation.stalled_on[0];
self.selcx.infcx().ty_or_const_infer_var_changed(infer_var)
}
0 => {
// In this case we haven't changed, but wish to make a change.
Expand All @@ -277,8 +280,8 @@ impl<'a, 'b, 'tcx> ObligationProcessor for FulfillProcessor<'a, 'b, 'tcx> {
// This `for` loop was once a call to `all()`, but this lower-level
// form was a perf win. See #64545 for details.
(|| {
for &infer in &pending_obligation.stalled_on {
if ShallowResolver::new(self.selcx.infcx()).shallow_resolve_changed(infer) {
for &infer_var in &pending_obligation.stalled_on {
if self.selcx.infcx().ty_or_const_infer_var_changed(infer_var) {
return true;
}
}
Expand Down Expand Up @@ -309,13 +312,6 @@ impl<'a, 'b, 'tcx> ObligationProcessor for FulfillProcessor<'a, 'b, 'tcx> {

debug!("process_obligation: obligation = {:?} cause = {:?}", obligation, obligation.cause);

fn infer_ty(ty: Ty<'tcx>) -> ty::InferTy {
match ty.kind {
ty::Infer(infer) => infer,
_ => panic!(),
}
}

match obligation.predicate {
ty::Predicate::Trait(ref data, _) => {
let trait_obligation = obligation.with(data.clone());
Expand Down Expand Up @@ -467,7 +463,8 @@ impl<'a, 'b, 'tcx> ObligationProcessor for FulfillProcessor<'a, 'b, 'tcx> {
obligation.cause.span,
) {
None => {
pending_obligation.stalled_on = vec![infer_ty(ty)];
pending_obligation.stalled_on =
vec![TyOrConstInferVar::maybe_from_ty(ty).unwrap()];
ProcessResult::Unchanged
}
Some(os) => ProcessResult::Changed(mk_pending(os)),
Expand All @@ -483,8 +480,8 @@ impl<'a, 'b, 'tcx> ObligationProcessor for FulfillProcessor<'a, 'b, 'tcx> {
None => {
// None means that both are unresolved.
pending_obligation.stalled_on = vec![
infer_ty(subtype.skip_binder().a),
infer_ty(subtype.skip_binder().b),
TyOrConstInferVar::maybe_from_ty(subtype.skip_binder().a).unwrap(),
TyOrConstInferVar::maybe_from_ty(subtype.skip_binder().b).unwrap(),
];
ProcessResult::Unchanged
}
Expand Down Expand Up @@ -534,20 +531,23 @@ impl<'a, 'b, 'tcx> ObligationProcessor for FulfillProcessor<'a, 'b, 'tcx> {
}
}

/// Returns the set of type variables contained in a trait ref
/// Returns the set of type inference variables contained in a trait ref.
fn trait_ref_type_vars<'a, 'tcx>(
selcx: &mut SelectionContext<'a, 'tcx>,
t: ty::PolyTraitRef<'tcx>,
) -> Vec<ty::InferTy> {
t.skip_binder() // ok b/c this check doesn't care about regions
trait_ref: ty::PolyTraitRef<'tcx>,
) -> Vec<TyOrConstInferVar<'tcx>> {
trait_ref
.skip_binder() // ok b/c this check doesn't care about regions
// FIXME(eddyb) walk over `GenericArg` to support const infer vars.
.input_types()
.map(|t| selcx.infcx().resolve_vars_if_possible(&t))
.filter(|t| t.has_infer_types())
.flat_map(|t| t.walk())
.filter_map(|t| match t.kind {
ty::Infer(infer) => Some(infer),
_ => None,
})
.map(|ty| selcx.infcx().resolve_vars_if_possible(&ty))
// FIXME(eddyb) try using `maybe_walk` to skip *all* subtrees that
// don't contain inference variables, not just the outermost level.
// FIXME(eddyb) use `has_infer_types_or_const`.
.filter(|ty| ty.has_infer_types())
.flat_map(|ty| ty.walk())
// FIXME(eddyb) use `TyOrConstInferVar::maybe_from_generic_arg`.
.filter_map(TyOrConstInferVar::maybe_from_ty)
.collect()
}

Expand Down

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