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fulfill.rs
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use std::marker::PhantomData;
use std::mem;
use rustc_data_structures::thinvec::ExtractIf;
use rustc_infer::infer::InferCtxt;
use rustc_infer::traits::query::NoSolution;
use rustc_infer::traits::{
FromSolverError, PredicateObligation, PredicateObligations, TraitEngine,
};
use rustc_next_trait_solver::solve::{GenerateProofTree, HasChanged, SolverDelegateEvalExt as _};
use tracing::instrument;
use self::derive_errors::*;
use super::Certainty;
use super::delegate::SolverDelegate;
use crate::traits::{FulfillmentError, ScrubbedTraitError};
mod derive_errors;
/// A trait engine using the new trait solver.
///
/// This is mostly identical to how `evaluate_all` works inside of the
/// solver, except that the requirements are slightly different.
///
/// Unlike `evaluate_all` it is possible to add new obligations later on
/// and we also have to track diagnostics information by using `Obligation`
/// instead of `Goal`.
///
/// It is also likely that we want to use slightly different datastructures
/// here as this will have to deal with far more root goals than `evaluate_all`.
pub struct FulfillmentCtxt<'tcx, E: 'tcx> {
obligations: ObligationStorage<'tcx>,
/// The snapshot in which this context was created. Using the context
/// outside of this snapshot leads to subtle bugs if the snapshot
/// gets rolled back. Because of this we explicitly check that we only
/// use the context in exactly this snapshot.
usable_in_snapshot: usize,
_errors: PhantomData<E>,
}
#[derive(Default)]
struct ObligationStorage<'tcx> {
/// Obligations which resulted in an overflow in fulfillment itself.
///
/// We cannot eagerly return these as error so we instead store them here
/// to avoid recomputing them each time `select_where_possible` is called.
/// This also allows us to return the correct `FulfillmentError` for them.
overflowed: PredicateObligations<'tcx>,
pending: PredicateObligations<'tcx>,
}
impl<'tcx> ObligationStorage<'tcx> {
fn register(&mut self, obligation: PredicateObligation<'tcx>) {
self.pending.push(obligation);
}
fn clone_pending(&self) -> PredicateObligations<'tcx> {
let mut obligations = self.pending.clone();
obligations.extend(self.overflowed.iter().cloned());
obligations
}
fn take_pending(&mut self) -> PredicateObligations<'tcx> {
let mut obligations = mem::take(&mut self.pending);
obligations.append(&mut self.overflowed);
obligations
}
fn unstalled_for_select(&mut self) -> impl Iterator<Item = PredicateObligation<'tcx>> + 'tcx {
mem::take(&mut self.pending).into_iter()
}
fn on_fulfillment_overflow(&mut self, infcx: &InferCtxt<'tcx>) {
infcx.probe(|_| {
// IMPORTANT: we must not use solve any inference variables in the obligations
// as this is all happening inside of a probe. We use a probe to make sure
// we get all obligations involved in the overflow. We pretty much check: if
// we were to do another step of `select_where_possible`, which goals would
// change.
// FIXME: <https://github.com/Gankra/thin-vec/pull/66> is merged, this can be removed.
self.overflowed.extend(ExtractIf::new(&mut self.pending, |o| {
let goal = o.as_goal();
let result = <&SolverDelegate<'tcx>>::from(infcx)
.evaluate_root_goal(goal, GenerateProofTree::No, o.cause.span)
.0;
matches!(result, Ok((HasChanged::Yes, _)))
}));
})
}
}
impl<'tcx, E: 'tcx> FulfillmentCtxt<'tcx, E> {
pub fn new(infcx: &InferCtxt<'tcx>) -> FulfillmentCtxt<'tcx, E> {
assert!(
infcx.next_trait_solver(),
"new trait solver fulfillment context created when \
infcx is set up for old trait solver"
);
FulfillmentCtxt {
obligations: Default::default(),
usable_in_snapshot: infcx.num_open_snapshots(),
_errors: PhantomData,
}
}
fn inspect_evaluated_obligation(
&self,
infcx: &InferCtxt<'tcx>,
obligation: &PredicateObligation<'tcx>,
result: &Result<(HasChanged, Certainty), NoSolution>,
) {
if let Some(inspector) = infcx.obligation_inspector.get() {
let result = match result {
Ok((_, c)) => Ok(*c),
Err(NoSolution) => Err(NoSolution),
};
(inspector)(infcx, &obligation, result);
}
}
}
impl<'tcx, E> TraitEngine<'tcx, E> for FulfillmentCtxt<'tcx, E>
where
E: FromSolverError<'tcx, NextSolverError<'tcx>>,
{
#[instrument(level = "trace", skip(self, infcx))]
fn register_predicate_obligation(
&mut self,
infcx: &InferCtxt<'tcx>,
obligation: PredicateObligation<'tcx>,
) {
assert_eq!(self.usable_in_snapshot, infcx.num_open_snapshots());
self.obligations.register(obligation);
}
fn collect_remaining_errors(&mut self, infcx: &InferCtxt<'tcx>) -> Vec<E> {
self.obligations
.pending
.drain(..)
.map(|obligation| NextSolverError::Ambiguity(obligation))
.chain(
self.obligations
.overflowed
.drain(..)
.map(|obligation| NextSolverError::Overflow(obligation)),
)
.map(|e| E::from_solver_error(infcx, e))
.collect()
}
fn select_where_possible(&mut self, infcx: &InferCtxt<'tcx>) -> Vec<E> {
assert_eq!(self.usable_in_snapshot, infcx.num_open_snapshots());
let mut errors = Vec::new();
for i in 0.. {
if !infcx.tcx.recursion_limit().value_within_limit(i) {
self.obligations.on_fulfillment_overflow(infcx);
// Only return true errors that we have accumulated while processing.
return errors;
}
let mut has_changed = false;
for obligation in self.obligations.unstalled_for_select() {
let goal = obligation.as_goal();
let result = <&SolverDelegate<'tcx>>::from(infcx)
.evaluate_root_goal(goal, GenerateProofTree::No, obligation.cause.span)
.0;
self.inspect_evaluated_obligation(infcx, &obligation, &result);
let (changed, certainty) = match result {
Ok(result) => result,
Err(NoSolution) => {
errors.push(E::from_solver_error(
infcx,
NextSolverError::TrueError(obligation),
));
continue;
}
};
if changed == HasChanged::Yes {
has_changed = true;
}
match certainty {
Certainty::Yes => {}
Certainty::Maybe(_) => self.obligations.register(obligation),
}
}
if !has_changed {
break;
}
}
errors
}
fn has_pending_obligations(&self) -> bool {
!self.obligations.pending.is_empty() || !self.obligations.overflowed.is_empty()
}
fn pending_obligations(&self) -> PredicateObligations<'tcx> {
self.obligations.clone_pending()
}
fn drain_unstalled_obligations(&mut self, _: &InferCtxt<'tcx>) -> PredicateObligations<'tcx> {
self.obligations.take_pending()
}
}
pub enum NextSolverError<'tcx> {
TrueError(PredicateObligation<'tcx>),
Ambiguity(PredicateObligation<'tcx>),
Overflow(PredicateObligation<'tcx>),
}
impl<'tcx> FromSolverError<'tcx, NextSolverError<'tcx>> for FulfillmentError<'tcx> {
fn from_solver_error(infcx: &InferCtxt<'tcx>, error: NextSolverError<'tcx>) -> Self {
match error {
NextSolverError::TrueError(obligation) => {
fulfillment_error_for_no_solution(infcx, obligation)
}
NextSolverError::Ambiguity(obligation) => {
fulfillment_error_for_stalled(infcx, obligation)
}
NextSolverError::Overflow(obligation) => {
fulfillment_error_for_overflow(infcx, obligation)
}
}
}
}
impl<'tcx> FromSolverError<'tcx, NextSolverError<'tcx>> for ScrubbedTraitError<'tcx> {
fn from_solver_error(_infcx: &InferCtxt<'tcx>, error: NextSolverError<'tcx>) -> Self {
match error {
NextSolverError::TrueError(_) => ScrubbedTraitError::TrueError,
NextSolverError::Ambiguity(_) | NextSolverError::Overflow(_) => {
ScrubbedTraitError::Ambiguity
}
}
}
}