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Handle stalling within ObligationForest.

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It is simpler if `ObligationForest` does this itself, rather than the
caller having to manage it.
This commit is contained in:
Nicholas Nethercote 2022-06-01 17:17:05 +10:00
parent cdb446fec3
commit 281229a6d3
3 changed files with 68 additions and 101 deletions
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131
compiler/rustc_data_structures/src/obligation_forest/mod.rs
View File

@ -42,7 +42,7 @@
//! now considered to be in error. //! now considered to be in error.
//! //!
//! When the call to `process_obligations` completes, you get back an `Outcome`, //! When the call to `process_obligations` completes, you get back an `Outcome`,
//! which includes three bits of information: //! which includes two bits of information:
//! //!
//! - `completed`: a list of obligations where processing was fully //! - `completed`: a list of obligations where processing was fully
//! completed without error (meaning that all transitive subobligations //! completed without error (meaning that all transitive subobligations
@ -53,13 +53,10 @@
//! all the obligations in `C` have been found completed. //! all the obligations in `C` have been found completed.
//! - `errors`: a list of errors that occurred and associated backtraces //! - `errors`: a list of errors that occurred and associated backtraces
//! at the time of error, which can be used to give context to the user. //! at the time of error, which can be used to give context to the user.
//! - `stalled`: if true, then none of the existing obligations were //!
//! *shallowly successful* (that is, no callback returned `Changed(_)`). //! Upon completion, none of the existing obligations were *shallowly
//! This implies that all obligations were either errors or returned an //! successful* (that is, no callback returned `Changed(_)`). This implies that
//! ambiguous result, which means that any further calls to //! all obligations were either errors or returned an ambiguous result.
//! `process_obligations` would simply yield back further ambiguous
//! results. This is used by the `FulfillmentContext` to decide when it
//! has reached a steady state.
//! //!
//! ### Implementation details //! ### Implementation details
//! //!
@ -260,8 +257,6 @@ pub trait OutcomeTrait {
type Obligation; type Obligation;
fn new() -> Self; fn new() -> Self;
fn mark_not_stalled(&mut self);
fn is_stalled(&self) -> bool;
fn record_completed(&mut self, outcome: &Self::Obligation); fn record_completed(&mut self, outcome: &Self::Obligation);
fn record_error(&mut self, error: Self::Error); fn record_error(&mut self, error: Self::Error);
} }
@ -270,14 +265,6 @@ pub trait OutcomeTrait {
pub struct Outcome<O, E> { pub struct Outcome<O, E> {
/// Backtrace of obligations that were found to be in error. /// Backtrace of obligations that were found to be in error.
pub errors: Vec<Error<O, E>>, pub errors: Vec<Error<O, E>>,
/// If true, then we saw no successful obligations, which means
/// there is no point in further iteration. This is based on the
/// assumption that when trait matching returns `Error` or
/// `Unchanged`, those results do not affect environmental
/// inference state. (Note that if we invoke `process_obligations`
/// with no pending obligations, stalled will be true.)
pub stalled: bool,
} }
impl<O, E> OutcomeTrait for Outcome<O, E> { impl<O, E> OutcomeTrait for Outcome<O, E> {
@ -285,15 +272,7 @@ impl<O, E> OutcomeTrait for Outcome<O, E> {
type Obligation = O; type Obligation = O;
fn new() -> Self { fn new() -> Self {
Self { stalled: true, errors: vec![] } Self { errors: vec![] }
}
fn mark_not_stalled(&mut self) {
self.stalled = false;
}
fn is_stalled(&self) -> bool {
self.stalled
} }
fn record_completed(&mut self, _outcome: &Self::Obligation) { fn record_completed(&mut self, _outcome: &Self::Obligation) {
@ -415,10 +394,7 @@ impl<O: ForestObligation> ObligationForest<O> {
.insert(node.obligation.as_cache_key()); .insert(node.obligation.as_cache_key());
} }
/// Performs a pass through the obligation list. This must /// Performs a fixpoint computation over the obligation list.
/// be called in a loop until `outcome.stalled` is false.
///
/// This _cannot_ be unrolled (presently, at least).
#[inline(never)] #[inline(never)]
pub fn process_obligations<P, OUT>(&mut self, processor: &mut P) -> OUT pub fn process_obligations<P, OUT>(&mut self, processor: &mut P) -> OUT
where where
@ -427,55 +403,66 @@ impl<O: ForestObligation> ObligationForest<O> {
{ {
let mut outcome = OUT::new(); let mut outcome = OUT::new();
// Note that the loop body can append new nodes, and those new nodes // Fixpoint computation: we repeat until the inner loop stalls.
// will then be processed by subsequent iterations of the loop. loop {
// let mut has_changed = false;
// We can't use an iterator for the loop because `self.nodes` is
// appended to and the borrow checker would complain. We also can't use
// `for index in 0..self.nodes.len() { ... }` because the range would
// be computed with the initial length, and we would miss the appended
// nodes. Therefore we use a `while` loop.
let mut index = 0;
while let Some(node) = self.nodes.get_mut(index) {
// `processor.process_obligation` can modify the predicate within
// `node.obligation`, and that predicate is the key used for
// `self.active_cache`. This means that `self.active_cache` can get
// out of sync with `nodes`. It's not very common, but it does
// happen, and code in `compress` has to allow for it.
if node.state.get() != NodeState::Pending {
index += 1;
continue;
}
match processor.process_obligation(&mut node.obligation) { // Note that the loop body can append new nodes, and those new nodes
ProcessResult::Unchanged => { // will then be processed by subsequent iterations of the loop.
// No change in state. //
// We can't use an iterator for the loop because `self.nodes` is
// appended to and the borrow checker would complain. We also can't use
// `for index in 0..self.nodes.len() { ... }` because the range would
// be computed with the initial length, and we would miss the appended
// nodes. Therefore we use a `while` loop.
let mut index = 0;
while let Some(node) = self.nodes.get_mut(index) {
// `processor.process_obligation` can modify the predicate within
// `node.obligation`, and that predicate is the key used for
// `self.active_cache`. This means that `self.active_cache` can get
// out of sync with `nodes`. It's not very common, but it does
// happen, and code in `compress` has to allow for it.
if node.state.get() != NodeState::Pending {
index += 1;
continue;
} }
ProcessResult::Changed(children) => {
// We are not (yet) stalled.
outcome.mark_not_stalled();
node.state.set(NodeState::Success);
for child in children { match processor.process_obligation(&mut node.obligation) {
let st = self.register_obligation_at(child, Some(index)); ProcessResult::Unchanged => {
if let Err(()) = st { // No change in state.
// Error already reported - propagate it }
// to our node. ProcessResult::Changed(children) => {
self.error_at(index); // We are not (yet) stalled.
has_changed = true;
node.state.set(NodeState::Success);
for child in children {
let st = self.register_obligation_at(child, Some(index));
if let Err(()) = st {
// Error already reported - propagate it
// to our node.
self.error_at(index);
}
} }
} }
ProcessResult::Error(err) => {
has_changed = true;
outcome.record_error(Error { error: err, backtrace: self.error_at(index) });
}
} }
ProcessResult::Error(err) => { index += 1;
outcome.mark_not_stalled(); }
outcome.record_error(Error { error: err, backtrace: self.error_at(index) });
} // If unchanged, then we saw no successful obligations, which means
// there is no point in further iteration. This is based on the
// assumption that when trait matching returns `Error` or
// `Unchanged`, those results do not affect environmental inference
// state. (Note that this will occur if we invoke
// `process_obligations` with no pending obligations.)
if !has_changed {
break;
} }
index += 1;
}
// There's no need to perform marking, cycle processing and compression when nothing
// changed.
if !outcome.is_stalled() {
self.mark_successes(); self.mark_successes();
self.process_cycles(processor); self.process_cycles(processor);
self.compress(|obl| outcome.record_completed(obl)); self.compress(|obl| outcome.record_completed(obl));

11
compiler/rustc_data_structures/src/obligation_forest/tests.rs
View File

@ -20,7 +20,6 @@ struct ClosureObligationProcessor<OF, BF, O, E> {
struct TestOutcome<O, E> { struct TestOutcome<O, E> {
pub completed: Vec<O>, pub completed: Vec<O>,
pub errors: Vec<Error<O, E>>, pub errors: Vec<Error<O, E>>,
pub stalled: bool,
} }
impl<O, E> OutcomeTrait for TestOutcome<O, E> impl<O, E> OutcomeTrait for TestOutcome<O, E>
@ -31,15 +30,7 @@ where
type Obligation = O; type Obligation = O;
fn new() -> Self { fn new() -> Self {
Self { errors: vec![], stalled: false, completed: vec![] } Self { errors: vec![], completed: vec![] }
}
fn mark_not_stalled(&mut self) {
self.stalled = false;
}
fn is_stalled(&self) -> bool {
self.stalled
} }
fn record_completed(&mut self, outcome: &Self::Obligation) { fn record_completed(&mut self, outcome: &Self::Obligation) {

27
compiler/rustc_trait_selection/src/traits/fulfill.rs
View File

@ -133,27 +133,16 @@ impl<'a, 'tcx> FulfillmentContext<'tcx> {
let mut errors = Vec::new(); let mut errors = Vec::new();
loop { // Process pending obligations.
debug!("select: starting another iteration"); let outcome: Outcome<_, _> = self.predicates.process_obligations(&mut FulfillProcessor {
selcx,
register_region_obligations: self.register_region_obligations,
});
// Process pending obligations. // FIXME: if we kept the original cache key, we could mark projection
let outcome: Outcome<_, _> = // obligations as complete for the projection cache here.
self.predicates.process_obligations(&mut FulfillProcessor {
selcx,
register_region_obligations: self.register_region_obligations,
});
debug!("select: outcome={:#?}", outcome);
// FIXME: if we kept the original cache key, we could mark projection errors.extend(outcome.errors.into_iter().map(to_fulfillment_error));
// obligations as complete for the projection cache here.
errors.extend(outcome.errors.into_iter().map(to_fulfillment_error));
// If nothing new was added, no need to keep looping.
if outcome.stalled {
break;
}
}
debug!( debug!(
"select({} predicates remaining, {} errors) done", "select({} predicates remaining, {} errors) done",