Auto merge of #115751 - lcnr:inspect-cleanup, r=compiler-errors

some inspect improvements

split from #114810 because I still want to experiment a bunch with that PR and these changes are self-contained.

r? `@compiler-errors`
This commit is contained in:
bors 2023-09-14 04:42:07 +00:00
commit 2394959310
13 changed files with 353 additions and 289 deletions

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@ -9,6 +9,9 @@ use crate::ty::{
self, FallibleTypeFolder, ToPredicate, Ty, TyCtxt, TypeFoldable, TypeFolder, TypeVisitable,
TypeVisitor,
};
use rustc_span::def_id::DefId;
use super::BuiltinImplSource;
mod cache;
pub mod inspect;
@ -235,3 +238,63 @@ pub enum IsNormalizesToHack {
Yes,
No,
}
/// Possible ways the given goal can be proven.
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub enum CandidateSource {
/// A user written impl.
///
/// ## Examples
///
/// ```rust
/// fn main() {
/// let x: Vec<u32> = Vec::new();
/// // This uses the impl from the standard library to prove `Vec<T>: Clone`.
/// let y = x.clone();
/// }
/// ```
Impl(DefId),
/// A builtin impl generated by the compiler. When adding a new special
/// trait, try to use actual impls whenever possible. Builtin impls should
/// only be used in cases where the impl cannot be manually be written.
///
/// Notable examples are auto traits, `Sized`, and `DiscriminantKind`.
/// For a list of all traits with builtin impls, check out the
/// `EvalCtxt::assemble_builtin_impl_candidates` method.
BuiltinImpl(BuiltinImplSource),
/// An assumption from the environment.
///
/// More precisely we've used the `n-th` assumption in the `param_env`.
///
/// ## Examples
///
/// ```rust
/// fn is_clone<T: Clone>(x: T) -> (T, T) {
/// // This uses the assumption `T: Clone` from the `where`-bounds
/// // to prove `T: Clone`.
/// (x.clone(), x)
/// }
/// ```
ParamEnv(usize),
/// If the self type is an alias type, e.g. an opaque type or a projection,
/// we know the bounds on that alias to hold even without knowing its concrete
/// underlying type.
///
/// More precisely this candidate is using the `n-th` bound in the `item_bounds` of
/// the self type.
///
/// ## Examples
///
/// ```rust
/// trait Trait {
/// type Assoc: Clone;
/// }
///
/// fn foo<T: Trait>(x: <T as Trait>::Assoc) {
/// // We prove `<T as Trait>::Assoc` by looking at the bounds on `Assoc` in
/// // in the trait definition.
/// let _y = x.clone();
/// }
/// ```
AliasBound,
}

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@ -1,5 +1,6 @@
use super::{
CanonicalInput, Certainty, Goal, IsNormalizesToHack, NoSolution, QueryInput, QueryResult,
CandidateSource, CanonicalInput, Certainty, Goal, IsNormalizesToHack, NoSolution, QueryInput,
QueryResult,
};
use crate::ty;
use format::ProofTreeFormatter;
@ -7,26 +8,30 @@ use std::fmt::{Debug, Write};
mod format;
#[derive(Eq, PartialEq, Debug, Hash, HashStable)]
#[derive(Debug, Eq, PartialEq)]
pub enum CacheHit {
Provisional,
Global,
}
#[derive(Eq, PartialEq, Hash, HashStable)]
#[derive(Eq, PartialEq)]
pub struct GoalEvaluation<'tcx> {
pub uncanonicalized_goal: Goal<'tcx, ty::Predicate<'tcx>>,
pub canonicalized_goal: CanonicalInput<'tcx>,
pub kind: GoalEvaluationKind<'tcx>,
pub is_normalizes_to_hack: IsNormalizesToHack,
pub evaluation: CanonicalGoalEvaluation<'tcx>,
pub returned_goals: Vec<Goal<'tcx, ty::Predicate<'tcx>>>,
}
#[derive(Eq, PartialEq)]
pub struct CanonicalGoalEvaluation<'tcx> {
pub goal: CanonicalInput<'tcx>,
pub kind: GoalEvaluationKind<'tcx>,
pub result: QueryResult<'tcx>,
}
#[derive(Eq, PartialEq, Hash, HashStable)]
#[derive(Eq, PartialEq)]
pub enum GoalEvaluationKind<'tcx> {
Overflow,
CacheHit(CacheHit),
Uncached { revisions: Vec<GoalEvaluationStep<'tcx>> },
}
@ -36,55 +41,50 @@ impl Debug for GoalEvaluation<'_> {
}
}
#[derive(Eq, PartialEq, Hash, HashStable)]
#[derive(Eq, PartialEq)]
pub struct AddedGoalsEvaluation<'tcx> {
pub evaluations: Vec<Vec<GoalEvaluation<'tcx>>>,
pub result: Result<Certainty, NoSolution>,
}
impl Debug for AddedGoalsEvaluation<'_> {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
ProofTreeFormatter::new(f).format_nested_goal_evaluation(self)
}
}
#[derive(Eq, PartialEq, Hash, HashStable)]
#[derive(Eq, PartialEq)]
pub struct GoalEvaluationStep<'tcx> {
pub instantiated_goal: QueryInput<'tcx, ty::Predicate<'tcx>>,
pub nested_goal_evaluations: Vec<AddedGoalsEvaluation<'tcx>>,
pub candidates: Vec<GoalCandidate<'tcx>>,
pub result: QueryResult<'tcx>,
/// The actual evaluation of the goal, always `ProbeKind::Root`.
pub evaluation: GoalCandidate<'tcx>,
}
impl Debug for GoalEvaluationStep<'_> {
#[derive(Eq, PartialEq)]
pub struct GoalCandidate<'tcx> {
pub added_goals_evaluations: Vec<AddedGoalsEvaluation<'tcx>>,
pub candidates: Vec<GoalCandidate<'tcx>>,
pub kind: ProbeKind<'tcx>,
}
impl Debug for GoalCandidate<'_> {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
ProofTreeFormatter::new(f).format_evaluation_step(self)
ProofTreeFormatter::new(f).format_candidate(self)
}
}
#[derive(Eq, PartialEq, Hash, HashStable)]
pub struct GoalCandidate<'tcx> {
pub nested_goal_evaluations: Vec<AddedGoalsEvaluation<'tcx>>,
pub candidates: Vec<GoalCandidate<'tcx>>,
pub kind: CandidateKind<'tcx>,
}
#[derive(Eq, PartialEq, Debug, Hash, HashStable)]
pub enum CandidateKind<'tcx> {
#[derive(Debug, PartialEq, Eq)]
pub enum ProbeKind<'tcx> {
/// The root inference context while proving a goal.
Root { result: QueryResult<'tcx> },
/// Probe entered when normalizing the self ty during candidate assembly
NormalizedSelfTyAssembly,
/// A normal candidate for proving a goal
Candidate { name: String, result: QueryResult<'tcx> },
/// Some candidate to prove the current goal.
///
/// FIXME: Remove this in favor of always using more strongly typed variants.
MiscCandidate { name: &'static str, result: QueryResult<'tcx> },
/// A candidate for proving a trait or alias-relate goal.
TraitCandidate { source: CandidateSource, result: QueryResult<'tcx> },
/// Used in the probe that wraps normalizing the non-self type for the unsize
/// trait, which is also structurally matched on.
UnsizeAssembly,
/// During upcasting from some source object to target object type, used to
/// do a probe to find out what projection type(s) may be used to prove that
/// the source type upholds all of the target type's object bounds.
UpcastProbe,
}
impl Debug for GoalCandidate<'_> {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
ProofTreeFormatter::new(f).format_candidate(self)
}
UpcastProjectionCompatibility,
}

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@ -39,44 +39,52 @@ impl<'a, 'b> ProofTreeFormatter<'a, 'b> {
func(&mut ProofTreeFormatter { f: &mut Indentor { f: self.f, on_newline: true } })
}
pub(super) fn format_goal_evaluation(&mut self, goal: &GoalEvaluation<'_>) -> std::fmt::Result {
let goal_text = match goal.is_normalizes_to_hack {
pub(super) fn format_goal_evaluation(&mut self, eval: &GoalEvaluation<'_>) -> std::fmt::Result {
let goal_text = match eval.is_normalizes_to_hack {
IsNormalizesToHack::Yes => "NORMALIZES-TO HACK GOAL",
IsNormalizesToHack::No => "GOAL",
};
writeln!(self.f, "{}: {:?}", goal_text, goal.uncanonicalized_goal)?;
writeln!(self.f, "CANONICALIZED: {:?}", goal.canonicalized_goal)?;
match &goal.kind {
GoalEvaluationKind::CacheHit(CacheHit::Global) => {
writeln!(self.f, "GLOBAL CACHE HIT: {:?}", goal.result)
}
GoalEvaluationKind::CacheHit(CacheHit::Provisional) => {
writeln!(self.f, "PROVISIONAL CACHE HIT: {:?}", goal.result)
}
GoalEvaluationKind::Uncached { revisions } => {
for (n, step) in revisions.iter().enumerate() {
writeln!(self.f, "REVISION {n}: {:?}", step.result)?;
self.nested(|this| this.format_evaluation_step(step))?;
}
writeln!(self.f, "RESULT: {:?}", goal.result)
}
}?;
if goal.returned_goals.len() > 0 {
writeln!(self.f, "{}: {:?}", goal_text, eval.uncanonicalized_goal)?;
self.nested(|this| this.format_canonical_goal_evaluation(&eval.evaluation))?;
if eval.returned_goals.len() > 0 {
writeln!(self.f, "NESTED GOALS ADDED TO CALLER: [")?;
self.nested(|this| {
for goal in goal.returned_goals.iter() {
for goal in eval.returned_goals.iter() {
writeln!(this.f, "ADDED GOAL: {goal:?},")?;
}
Ok(())
})?;
writeln!(self.f, "]")?;
writeln!(self.f, "]")
} else {
Ok(())
}
}
Ok(())
pub(super) fn format_canonical_goal_evaluation(
&mut self,
eval: &CanonicalGoalEvaluation<'_>,
) -> std::fmt::Result {
writeln!(self.f, "GOAL: {:?}", eval.goal)?;
match &eval.kind {
GoalEvaluationKind::Overflow => {
writeln!(self.f, "OVERFLOW: {:?}", eval.result)
}
GoalEvaluationKind::CacheHit(CacheHit::Global) => {
writeln!(self.f, "GLOBAL CACHE HIT: {:?}", eval.result)
}
GoalEvaluationKind::CacheHit(CacheHit::Provisional) => {
writeln!(self.f, "PROVISIONAL CACHE HIT: {:?}", eval.result)
}
GoalEvaluationKind::Uncached { revisions } => {
for (n, step) in revisions.iter().enumerate() {
writeln!(self.f, "REVISION {n}")?;
self.nested(|this| this.format_evaluation_step(step))?;
}
writeln!(self.f, "RESULT: {:?}", eval.result)
}
}
}
pub(super) fn format_evaluation_step(
@ -84,54 +92,52 @@ impl<'a, 'b> ProofTreeFormatter<'a, 'b> {
evaluation_step: &GoalEvaluationStep<'_>,
) -> std::fmt::Result {
writeln!(self.f, "INSTANTIATED: {:?}", evaluation_step.instantiated_goal)?;
for candidate in &evaluation_step.candidates {
self.nested(|this| this.format_candidate(candidate))?;
}
for nested in &evaluation_step.nested_goal_evaluations {
self.nested(|this| this.format_nested_goal_evaluation(nested))?;
}
Ok(())
self.format_candidate(&evaluation_step.evaluation)
}
pub(super) fn format_candidate(&mut self, candidate: &GoalCandidate<'_>) -> std::fmt::Result {
match &candidate.kind {
CandidateKind::NormalizedSelfTyAssembly => {
ProbeKind::Root { result } => {
writeln!(self.f, "ROOT RESULT: {result:?}")
}
ProbeKind::NormalizedSelfTyAssembly => {
writeln!(self.f, "NORMALIZING SELF TY FOR ASSEMBLY:")
}
CandidateKind::UnsizeAssembly => {
ProbeKind::UnsizeAssembly => {
writeln!(self.f, "ASSEMBLING CANDIDATES FOR UNSIZING:")
}
CandidateKind::UpcastProbe => {
ProbeKind::UpcastProjectionCompatibility => {
writeln!(self.f, "PROBING FOR PROJECTION COMPATIBILITY FOR UPCASTING:")
}
CandidateKind::Candidate { name, result } => {
ProbeKind::MiscCandidate { name, result } => {
writeln!(self.f, "CANDIDATE {name}: {result:?}")
}
ProbeKind::TraitCandidate { source, result } => {
writeln!(self.f, "CANDIDATE {source:?}: {result:?}")
}
}?;
self.nested(|this| {
for candidate in &candidate.candidates {
this.format_candidate(candidate)?;
}
for nested in &candidate.nested_goal_evaluations {
this.format_nested_goal_evaluation(nested)?;
for nested in &candidate.added_goals_evaluations {
this.format_added_goals_evaluation(nested)?;
}
Ok(())
})
}
pub(super) fn format_nested_goal_evaluation(
pub(super) fn format_added_goals_evaluation(
&mut self,
nested_goal_evaluation: &AddedGoalsEvaluation<'_>,
added_goals_evaluation: &AddedGoalsEvaluation<'_>,
) -> std::fmt::Result {
writeln!(self.f, "TRY_EVALUATE_ADDED_GOALS: {:?}", nested_goal_evaluation.result)?;
writeln!(self.f, "TRY_EVALUATE_ADDED_GOALS: {:?}", added_goals_evaluation.result)?;
for (n, revision) in nested_goal_evaluation.evaluations.iter().enumerate() {
writeln!(self.f, "REVISION {n}")?;
for (n, iterations) in added_goals_evaluation.evaluations.iter().enumerate() {
writeln!(self.f, "ITERATION {n}")?;
self.nested(|this| {
for goal_evaluation in revision {
for goal_evaluation in iterations {
this.format_goal_evaluation(goal_evaluation)?;
}
Ok(())

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@ -125,7 +125,7 @@ impl<'tcx> EvalCtxt<'_, 'tcx> {
direction: ty::AliasRelationDirection,
invert: Invert,
) -> QueryResult<'tcx> {
self.probe_candidate("normalizes-to").enter(|ecx| {
self.probe_misc_candidate("normalizes-to").enter(|ecx| {
ecx.normalizes_to_inner(param_env, alias, other, direction, invert)?;
ecx.evaluate_added_goals_and_make_canonical_response(Certainty::Yes)
})
@ -175,7 +175,7 @@ impl<'tcx> EvalCtxt<'_, 'tcx> {
alias_rhs: ty::AliasTy<'tcx>,
direction: ty::AliasRelationDirection,
) -> QueryResult<'tcx> {
self.probe_candidate("args relate").enter(|ecx| {
self.probe_misc_candidate("args relate").enter(|ecx| {
match direction {
ty::AliasRelationDirection::Equate => {
ecx.eq(param_env, alias_lhs, alias_rhs)?;
@ -196,7 +196,7 @@ impl<'tcx> EvalCtxt<'_, 'tcx> {
rhs: ty::Term<'tcx>,
direction: ty::AliasRelationDirection,
) -> QueryResult<'tcx> {
self.probe_candidate("bidir normalizes-to").enter(|ecx| {
self.probe_misc_candidate("bidir normalizes-to").enter(|ecx| {
ecx.normalizes_to_inner(
param_env,
lhs.to_alias_ty(ecx.tcx()).unwrap(),

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@ -5,8 +5,10 @@ use crate::traits::coherence;
use rustc_hir::def_id::DefId;
use rustc_infer::traits::query::NoSolution;
use rustc_infer::traits::Reveal;
use rustc_middle::traits::solve::inspect::CandidateKind;
use rustc_middle::traits::solve::{CanonicalResponse, Certainty, Goal, QueryResult};
use rustc_middle::traits::solve::inspect::ProbeKind;
use rustc_middle::traits::solve::{
CandidateSource, CanonicalResponse, Certainty, Goal, QueryResult,
};
use rustc_middle::traits::BuiltinImplSource;
use rustc_middle::ty::fast_reject::{SimplifiedType, TreatParams};
use rustc_middle::ty::{self, Ty, TyCtxt};
@ -27,66 +29,6 @@ pub(super) struct Candidate<'tcx> {
pub(super) result: CanonicalResponse<'tcx>,
}
/// Possible ways the given goal can be proven.
#[derive(Debug, Clone, Copy)]
pub(super) enum CandidateSource {
/// A user written impl.
///
/// ## Examples
///
/// ```rust
/// fn main() {
/// let x: Vec<u32> = Vec::new();
/// // This uses the impl from the standard library to prove `Vec<T>: Clone`.
/// let y = x.clone();
/// }
/// ```
Impl(DefId),
/// A builtin impl generated by the compiler. When adding a new special
/// trait, try to use actual impls whenever possible. Builtin impls should
/// only be used in cases where the impl cannot be manually be written.
///
/// Notable examples are auto traits, `Sized`, and `DiscriminantKind`.
/// For a list of all traits with builtin impls, check out the
/// [`EvalCtxt::assemble_builtin_impl_candidates`] method. Not
BuiltinImpl(BuiltinImplSource),
/// An assumption from the environment.
///
/// More precisely we've used the `n-th` assumption in the `param_env`.
///
/// ## Examples
///
/// ```rust
/// fn is_clone<T: Clone>(x: T) -> (T, T) {
/// // This uses the assumption `T: Clone` from the `where`-bounds
/// // to prove `T: Clone`.
/// (x.clone(), x)
/// }
/// ```
ParamEnv(usize),
/// If the self type is an alias type, e.g. an opaque type or a projection,
/// we know the bounds on that alias to hold even without knowing its concrete
/// underlying type.
///
/// More precisely this candidate is using the `n-th` bound in the `item_bounds` of
/// the self type.
///
/// ## Examples
///
/// ```rust
/// trait Trait {
/// type Assoc: Clone;
/// }
///
/// fn foo<T: Trait>(x: <T as Trait>::Assoc) {
/// // We prove `<T as Trait>::Assoc` by looking at the bounds on `Assoc` in
/// // in the trait definition.
/// let _y = x.clone();
/// }
/// ```
AliasBound,
}
/// Methods used to assemble candidates for either trait or projection goals.
pub(super) trait GoalKind<'tcx>:
TypeFoldable<TyCtxt<'tcx>> + Copy + Eq + std::fmt::Display
@ -399,7 +341,7 @@ impl<'tcx> EvalCtxt<'_, 'tcx> {
let tcx = self.tcx();
let &ty::Alias(_, projection_ty) = goal.predicate.self_ty().kind() else { return };
candidates.extend(self.probe(|_| CandidateKind::NormalizedSelfTyAssembly).enter(|ecx| {
candidates.extend(self.probe(|_| ProbeKind::NormalizedSelfTyAssembly).enter(|ecx| {
if num_steps < ecx.local_overflow_limit() {
let normalized_ty = ecx.next_ty_infer();
let normalizes_to_goal = goal.with(
@ -910,7 +852,7 @@ impl<'tcx> EvalCtxt<'_, 'tcx> {
SolverMode::Coherence => {}
};
let result = self.probe_candidate("coherence unknowable").enter(|ecx| {
let result = self.probe_misc_candidate("coherence unknowable").enter(|ecx| {
let trait_ref = goal.predicate.trait_ref(tcx);
#[derive(Debug)]

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@ -237,7 +237,7 @@ impl<'a, 'tcx> EvalCtxt<'a, 'tcx> {
tcx: TyCtxt<'tcx>,
search_graph: &'a mut search_graph::SearchGraph<'tcx>,
canonical_input: CanonicalInput<'tcx>,
goal_evaluation: &mut ProofTreeBuilder<'tcx>,
canonical_goal_evaluation: &mut ProofTreeBuilder<'tcx>,
f: impl FnOnce(&mut EvalCtxt<'_, 'tcx>, Goal<'tcx, ty::Predicate<'tcx>>) -> R,
) -> R {
let intercrate = match search_graph.solver_mode() {
@ -260,7 +260,7 @@ impl<'a, 'tcx> EvalCtxt<'a, 'tcx> {
search_graph,
nested_goals: NestedGoals::new(),
tainted: Ok(()),
inspect: goal_evaluation.new_goal_evaluation_step(input),
inspect: canonical_goal_evaluation.new_goal_evaluation_step(input),
};
for &(key, ty) in &input.predefined_opaques_in_body.opaque_types {
@ -274,7 +274,7 @@ impl<'a, 'tcx> EvalCtxt<'a, 'tcx> {
let result = f(&mut ecx, input.goal);
goal_evaluation.goal_evaluation_step(ecx.inspect);
canonical_goal_evaluation.goal_evaluation_step(ecx.inspect);
// When creating a query response we clone the opaque type constraints
// instead of taking them. This would cause an ICE here, since we have
@ -302,24 +302,25 @@ impl<'a, 'tcx> EvalCtxt<'a, 'tcx> {
tcx: TyCtxt<'tcx>,
search_graph: &'a mut search_graph::SearchGraph<'tcx>,
canonical_input: CanonicalInput<'tcx>,
mut goal_evaluation: &mut ProofTreeBuilder<'tcx>,
goal_evaluation: &mut ProofTreeBuilder<'tcx>,
) -> QueryResult<'tcx> {
goal_evaluation.canonicalized_goal(canonical_input);
let mut canonical_goal_evaluation =
goal_evaluation.new_canonical_goal_evaluation(canonical_input);
// Deal with overflow, caching, and coinduction.
//
// The actual solver logic happens in `ecx.compute_goal`.
ensure_sufficient_stack(|| {
let result = ensure_sufficient_stack(|| {
search_graph.with_new_goal(
tcx,
canonical_input,
goal_evaluation,
|search_graph, goal_evaluation| {
&mut canonical_goal_evaluation,
|search_graph, canonical_goal_evaluation| {
EvalCtxt::enter_canonical(
tcx,
search_graph,
canonical_input,
goal_evaluation,
canonical_goal_evaluation,
|ecx, goal| {
let result = ecx.compute_goal(goal);
ecx.inspect.query_result(result);
@ -328,7 +329,11 @@ impl<'a, 'tcx> EvalCtxt<'a, 'tcx> {
)
},
)
})
});
canonical_goal_evaluation.query_result(result);
goal_evaluation.canonical_goal_evaluation(canonical_goal_evaluation);
result
}
/// Recursively evaluates `goal`, returning whether any inference vars have
@ -347,7 +352,6 @@ impl<'a, 'tcx> EvalCtxt<'a, 'tcx> {
canonical_goal,
&mut goal_evaluation,
);
goal_evaluation.query_result(canonical_response);
let canonical_response = match canonical_response {
Err(e) => {
self.inspect.goal_evaluation(goal_evaluation);
@ -916,7 +920,7 @@ impl<'tcx> EvalCtxt<'_, 'tcx> {
if candidate_key.def_id != key.def_id {
continue;
}
values.extend(self.probe_candidate("opaque type storage").enter(|ecx| {
values.extend(self.probe_misc_candidate("opaque type storage").enter(|ecx| {
for (a, b) in std::iter::zip(candidate_key.args, key.args) {
ecx.eq(param_env, a, b)?;
}

View File

@ -1,5 +1,5 @@
use super::EvalCtxt;
use rustc_middle::traits::solve::{inspect, QueryResult};
use rustc_middle::traits::solve::{inspect, CandidateSource, QueryResult};
use std::marker::PhantomData;
pub(in crate::solve) struct ProbeCtxt<'me, 'a, 'tcx, F, T> {
@ -10,7 +10,7 @@ pub(in crate::solve) struct ProbeCtxt<'me, 'a, 'tcx, F, T> {
impl<'tcx, F, T> ProbeCtxt<'_, '_, 'tcx, F, T>
where
F: FnOnce(&T) -> inspect::CandidateKind<'tcx>,
F: FnOnce(&T) -> inspect::ProbeKind<'tcx>,
{
pub(in crate::solve) fn enter(self, f: impl FnOnce(&mut EvalCtxt<'_, 'tcx>) -> T) -> T {
let ProbeCtxt { ecx: outer_ecx, probe_kind, _result } = self;
@ -28,8 +28,8 @@ where
};
let r = nested_ecx.infcx.probe(|_| f(&mut nested_ecx));
if !outer_ecx.inspect.is_noop() {
let cand_kind = probe_kind(&r);
nested_ecx.inspect.candidate_kind(cand_kind);
let probe_kind = probe_kind(&r);
nested_ecx.inspect.probe_kind(probe_kind);
outer_ecx.inspect.goal_candidate(nested_ecx.inspect);
}
r
@ -41,25 +41,45 @@ impl<'a, 'tcx> EvalCtxt<'a, 'tcx> {
/// as expensive as necessary to output the desired information.
pub(in crate::solve) fn probe<F, T>(&mut self, probe_kind: F) -> ProbeCtxt<'_, 'a, 'tcx, F, T>
where
F: FnOnce(&T) -> inspect::CandidateKind<'tcx>,
F: FnOnce(&T) -> inspect::ProbeKind<'tcx>,
{
ProbeCtxt { ecx: self, probe_kind, _result: PhantomData }
}
pub(in crate::solve) fn probe_candidate(
pub(in crate::solve) fn probe_misc_candidate(
&mut self,
name: &'static str,
) -> ProbeCtxt<
'_,
'a,
'tcx,
impl FnOnce(&QueryResult<'tcx>) -> inspect::CandidateKind<'tcx>,
impl FnOnce(&QueryResult<'tcx>) -> inspect::ProbeKind<'tcx>,
QueryResult<'tcx>,
> {
ProbeCtxt {
ecx: self,
probe_kind: move |result: &QueryResult<'tcx>| inspect::CandidateKind::Candidate {
name: name.to_string(),
probe_kind: move |result: &QueryResult<'tcx>| inspect::ProbeKind::MiscCandidate {
name,
result: *result,
},
_result: PhantomData,
}
}
pub(in crate::solve) fn probe_trait_candidate(
&mut self,
source: CandidateSource,
) -> ProbeCtxt<
'_,
'a,
'tcx,
impl FnOnce(&QueryResult<'tcx>) -> inspect::ProbeKind<'tcx>,
QueryResult<'tcx>,
> {
ProbeCtxt {
ecx: self,
probe_kind: move |result: &QueryResult<'tcx>| inspect::ProbeKind::TraitCandidate {
source,
result: *result,
},
_result: PhantomData,

View File

@ -4,14 +4,14 @@ use rustc_infer::infer::{DefineOpaqueTypes, InferCtxt};
use rustc_infer::traits::{
Obligation, PolyTraitObligation, PredicateObligation, Selection, SelectionResult, TraitEngine,
};
use rustc_middle::traits::solve::{CanonicalInput, Certainty, Goal};
use rustc_middle::traits::solve::{CandidateSource, CanonicalInput, Certainty, Goal};
use rustc_middle::traits::{
BuiltinImplSource, ImplSource, ImplSourceUserDefinedData, ObligationCause, SelectionError,
};
use rustc_middle::ty::{self, Ty, TyCtxt};
use rustc_span::DUMMY_SP;
use crate::solve::assembly::{Candidate, CandidateSource};
use crate::solve::assembly::Candidate;
use crate::solve::eval_ctxt::{EvalCtxt, GenerateProofTree};
use crate::solve::inspect::ProofTreeBuilder;
use crate::traits::StructurallyNormalizeExt;

View File

@ -1,5 +1,5 @@
use rustc_middle::traits::query::NoSolution;
use rustc_middle::traits::solve::inspect::{self, CacheHit, CandidateKind};
use rustc_middle::traits::solve::inspect::{self, CacheHit, ProbeKind};
use rustc_middle::traits::solve::{
CanonicalInput, Certainty, Goal, IsNormalizesToHack, QueryInput, QueryResult,
};
@ -9,43 +9,60 @@ use rustc_session::config::DumpSolverProofTree;
use super::eval_ctxt::UseGlobalCache;
use super::GenerateProofTree;
#[derive(Eq, PartialEq, Debug, Hash, HashStable)]
#[derive(Eq, PartialEq, Debug)]
pub struct WipGoalEvaluation<'tcx> {
pub uncanonicalized_goal: Goal<'tcx, ty::Predicate<'tcx>>,
pub canonicalized_goal: Option<CanonicalInput<'tcx>>,
pub evaluation_steps: Vec<WipGoalEvaluationStep<'tcx>>,
pub cache_hit: Option<CacheHit>,
pub evaluation: Option<WipCanonicalGoalEvaluation<'tcx>>,
pub is_normalizes_to_hack: IsNormalizesToHack,
pub returned_goals: Vec<Goal<'tcx, ty::Predicate<'tcx>>>,
pub result: Option<QueryResult<'tcx>>,
}
impl<'tcx> WipGoalEvaluation<'tcx> {
pub fn finalize(self) -> inspect::GoalEvaluation<'tcx> {
inspect::GoalEvaluation {
uncanonicalized_goal: self.uncanonicalized_goal,
canonicalized_goal: self.canonicalized_goal.unwrap(),
kind: match self.cache_hit {
Some(hit) => inspect::GoalEvaluationKind::CacheHit(hit),
None => inspect::GoalEvaluationKind::Uncached {
revisions: self
.evaluation_steps
.into_iter()
.map(WipGoalEvaluationStep::finalize)
.collect(),
},
},
evaluation: self.evaluation.unwrap().finalize(),
is_normalizes_to_hack: self.is_normalizes_to_hack,
returned_goals: self.returned_goals,
result: self.result.unwrap(),
}
}
}
#[derive(Eq, PartialEq, Debug, Hash, HashStable)]
#[derive(Eq, PartialEq, Debug)]
pub enum WipGoalEvaluationKind {
Overflow,
CacheHit(CacheHit),
}
#[derive(Eq, PartialEq, Debug)]
pub struct WipCanonicalGoalEvaluation<'tcx> {
pub goal: CanonicalInput<'tcx>,
pub kind: Option<WipGoalEvaluationKind>,
pub revisions: Vec<WipGoalEvaluationStep<'tcx>>,
pub result: Option<QueryResult<'tcx>>,
}
impl<'tcx> WipCanonicalGoalEvaluation<'tcx> {
pub fn finalize(self) -> inspect::CanonicalGoalEvaluation<'tcx> {
let kind = match self.kind {
Some(WipGoalEvaluationKind::Overflow) => inspect::GoalEvaluationKind::Overflow,
Some(WipGoalEvaluationKind::CacheHit(hit)) => {
inspect::GoalEvaluationKind::CacheHit(hit)
}
None => inspect::GoalEvaluationKind::Uncached {
revisions: self
.revisions
.into_iter()
.map(WipGoalEvaluationStep::finalize)
.collect(),
},
};
inspect::CanonicalGoalEvaluation { goal: self.goal, kind, result: self.result.unwrap() }
}
}
#[derive(Eq, PartialEq, Debug)]
pub struct WipAddedGoalsEvaluation<'tcx> {
pub evaluations: Vec<Vec<WipGoalEvaluation<'tcx>>>,
pub result: Option<Result<Certainty, NoSolution>>,
@ -66,43 +83,36 @@ impl<'tcx> WipAddedGoalsEvaluation<'tcx> {
}
}
#[derive(Eq, PartialEq, Debug, Hash, HashStable)]
#[derive(Eq, PartialEq, Debug)]
pub struct WipGoalEvaluationStep<'tcx> {
pub instantiated_goal: QueryInput<'tcx, ty::Predicate<'tcx>>,
pub nested_goal_evaluations: Vec<WipAddedGoalsEvaluation<'tcx>>,
pub candidates: Vec<WipGoalCandidate<'tcx>>,
pub result: Option<QueryResult<'tcx>>,
pub evaluation: WipGoalCandidate<'tcx>,
}
impl<'tcx> WipGoalEvaluationStep<'tcx> {
pub fn finalize(self) -> inspect::GoalEvaluationStep<'tcx> {
inspect::GoalEvaluationStep {
instantiated_goal: self.instantiated_goal,
nested_goal_evaluations: self
.nested_goal_evaluations
.into_iter()
.map(WipAddedGoalsEvaluation::finalize)
.collect(),
candidates: self.candidates.into_iter().map(WipGoalCandidate::finalize).collect(),
result: self.result.unwrap(),
let evaluation = self.evaluation.finalize();
match evaluation.kind {
ProbeKind::Root { .. } => (),
_ => unreachable!("unexpected root evaluation: {evaluation:?}"),
}
inspect::GoalEvaluationStep { instantiated_goal: self.instantiated_goal, evaluation }
}
}
#[derive(Eq, PartialEq, Debug, Hash, HashStable)]
#[derive(Eq, PartialEq, Debug)]
pub struct WipGoalCandidate<'tcx> {
pub nested_goal_evaluations: Vec<WipAddedGoalsEvaluation<'tcx>>,
pub added_goals_evaluations: Vec<WipAddedGoalsEvaluation<'tcx>>,
pub candidates: Vec<WipGoalCandidate<'tcx>>,
pub kind: Option<CandidateKind<'tcx>>,
pub kind: Option<ProbeKind<'tcx>>,
}
impl<'tcx> WipGoalCandidate<'tcx> {
pub fn finalize(self) -> inspect::GoalCandidate<'tcx> {
inspect::GoalCandidate {
nested_goal_evaluations: self
.nested_goal_evaluations
added_goals_evaluations: self
.added_goals_evaluations
.into_iter()
.map(WipAddedGoalsEvaluation::finalize)
.collect(),
@ -116,6 +126,7 @@ impl<'tcx> WipGoalCandidate<'tcx> {
pub enum DebugSolver<'tcx> {
Root,
GoalEvaluation(WipGoalEvaluation<'tcx>),
CanonicalGoalEvaluation(WipCanonicalGoalEvaluation<'tcx>),
AddedGoalsEvaluation(WipAddedGoalsEvaluation<'tcx>),
GoalEvaluationStep(WipGoalEvaluationStep<'tcx>),
GoalCandidate(WipGoalCandidate<'tcx>),
@ -127,6 +138,12 @@ impl<'tcx> From<WipGoalEvaluation<'tcx>> for DebugSolver<'tcx> {
}
}
impl<'tcx> From<WipCanonicalGoalEvaluation<'tcx>> for DebugSolver<'tcx> {
fn from(g: WipCanonicalGoalEvaluation<'tcx>) -> DebugSolver<'tcx> {
DebugSolver::CanonicalGoalEvaluation(g)
}
}
impl<'tcx> From<WipAddedGoalsEvaluation<'tcx>> for DebugSolver<'tcx> {
fn from(g: WipAddedGoalsEvaluation<'tcx>) -> DebugSolver<'tcx> {
DebugSolver::AddedGoalsEvaluation(g)
@ -164,11 +181,11 @@ impl<'tcx> ProofTreeBuilder<'tcx> {
}
}
fn nested(&self, state: impl Into<DebugSolver<'tcx>>) -> Self {
fn nested<T: Into<DebugSolver<'tcx>>>(&self, state: impl FnOnce() -> T) -> Self {
match &self.state {
Some(prev_state) => Self {
state: Some(Box::new(BuilderData {
tree: state.into(),
tree: state().into(),
use_global_cache: prev_state.use_global_cache,
})),
},
@ -237,37 +254,43 @@ impl<'tcx> ProofTreeBuilder<'tcx> {
goal: Goal<'tcx, ty::Predicate<'tcx>>,
is_normalizes_to_hack: IsNormalizesToHack,
) -> ProofTreeBuilder<'tcx> {
if self.state.is_none() {
return ProofTreeBuilder { state: None };
self.nested(|| WipGoalEvaluation {
uncanonicalized_goal: goal,
evaluation: None,
is_normalizes_to_hack,
returned_goals: vec![],
})
}
self.nested(WipGoalEvaluation {
uncanonicalized_goal: goal,
canonicalized_goal: None,
evaluation_steps: vec![],
is_normalizes_to_hack,
cache_hit: None,
returned_goals: vec![],
pub fn new_canonical_goal_evaluation(
&mut self,
goal: CanonicalInput<'tcx>,
) -> ProofTreeBuilder<'tcx> {
self.nested(|| WipCanonicalGoalEvaluation {
goal,
kind: None,
revisions: vec![],
result: None,
})
}
pub fn canonicalized_goal(&mut self, canonical_goal: CanonicalInput<'tcx>) {
pub fn canonical_goal_evaluation(&mut self, canonical_goal_evaluation: ProofTreeBuilder<'tcx>) {
if let Some(this) = self.as_mut() {
match this {
DebugSolver::GoalEvaluation(goal_evaluation) => {
assert_eq!(goal_evaluation.canonicalized_goal.replace(canonical_goal), None);
}
match (this, canonical_goal_evaluation.state.unwrap().tree) {
(
DebugSolver::GoalEvaluation(goal_evaluation),
DebugSolver::CanonicalGoalEvaluation(canonical_goal_evaluation),
) => goal_evaluation.evaluation = Some(canonical_goal_evaluation),
_ => unreachable!(),
}
}
}
pub fn cache_hit(&mut self, cache_hit: CacheHit) {
pub fn goal_evaluation_kind(&mut self, kind: WipGoalEvaluationKind) {
if let Some(this) = self.as_mut() {
match this {
DebugSolver::GoalEvaluation(goal_evaluation) => {
assert_eq!(goal_evaluation.cache_hit.replace(cache_hit), None);
DebugSolver::CanonicalGoalEvaluation(canonical_goal_evaluation) => {
assert_eq!(canonical_goal_evaluation.kind.replace(kind), None);
}
_ => unreachable!(),
};
@ -304,22 +327,23 @@ impl<'tcx> ProofTreeBuilder<'tcx> {
&mut self,
instantiated_goal: QueryInput<'tcx, ty::Predicate<'tcx>>,
) -> ProofTreeBuilder<'tcx> {
if self.state.is_none() {
return ProofTreeBuilder { state: None };
}
self.nested(WipGoalEvaluationStep {
self.nested(|| WipGoalEvaluationStep {
instantiated_goal,
nested_goal_evaluations: vec![],
evaluation: WipGoalCandidate {
added_goals_evaluations: vec![],
candidates: vec![],
result: None,
kind: None,
},
})
}
pub fn goal_evaluation_step(&mut self, goal_eval_step: ProofTreeBuilder<'tcx>) {
pub fn goal_evaluation_step(&mut self, goal_evaluation_step: ProofTreeBuilder<'tcx>) {
if let Some(this) = self.as_mut() {
match (this, goal_eval_step.state.unwrap().tree) {
(DebugSolver::GoalEvaluation(goal_eval), DebugSolver::GoalEvaluationStep(step)) => {
goal_eval.evaluation_steps.push(step);
match (this, goal_evaluation_step.state.unwrap().tree) {
(
DebugSolver::CanonicalGoalEvaluation(canonical_goal_evaluations),
DebugSolver::GoalEvaluationStep(goal_evaluation_step),
) => {
canonical_goal_evaluations.revisions.push(goal_evaluation_step);
}
_ => unreachable!(),
}
@ -327,22 +351,18 @@ impl<'tcx> ProofTreeBuilder<'tcx> {
}
pub fn new_goal_candidate(&mut self) -> ProofTreeBuilder<'tcx> {
if self.state.is_none() {
return ProofTreeBuilder { state: None };
}
self.nested(WipGoalCandidate {
nested_goal_evaluations: vec![],
self.nested(|| WipGoalCandidate {
added_goals_evaluations: vec![],
candidates: vec![],
kind: None,
})
}
pub fn candidate_kind(&mut self, candidate_kind: CandidateKind<'tcx>) {
pub fn probe_kind(&mut self, probe_kind: ProbeKind<'tcx>) {
if let Some(this) = self.as_mut() {
match this {
DebugSolver::GoalCandidate(this) => {
assert_eq!(this.kind.replace(candidate_kind), None)
assert_eq!(this.kind.replace(probe_kind), None)
}
_ => unreachable!(),
}
@ -354,7 +374,10 @@ impl<'tcx> ProofTreeBuilder<'tcx> {
match (this, candidate.state.unwrap().tree) {
(
DebugSolver::GoalCandidate(WipGoalCandidate { candidates, .. })
| DebugSolver::GoalEvaluationStep(WipGoalEvaluationStep { candidates, .. }),
| DebugSolver::GoalEvaluationStep(WipGoalEvaluationStep {
evaluation: WipGoalCandidate { candidates, .. },
..
}),
DebugSolver::GoalCandidate(candidate),
) => candidates.push(candidate),
_ => unreachable!(),
@ -363,11 +386,7 @@ impl<'tcx> ProofTreeBuilder<'tcx> {
}
pub fn new_evaluate_added_goals(&mut self) -> ProofTreeBuilder<'tcx> {
if self.state.is_none() {
return ProofTreeBuilder { state: None };
}
self.nested(WipAddedGoalsEvaluation { evaluations: vec![], result: None })
self.nested(|| WipAddedGoalsEvaluation { evaluations: vec![], result: None })
}
pub fn evaluate_added_goals_loop_start(&mut self) {
@ -392,19 +411,19 @@ impl<'tcx> ProofTreeBuilder<'tcx> {
}
}
pub fn added_goals_evaluation(&mut self, goals_evaluation: ProofTreeBuilder<'tcx>) {
pub fn added_goals_evaluation(&mut self, added_goals_evaluation: ProofTreeBuilder<'tcx>) {
if let Some(this) = self.as_mut() {
match (this, goals_evaluation.state.unwrap().tree) {
match (this, added_goals_evaluation.state.unwrap().tree) {
(
DebugSolver::GoalEvaluationStep(WipGoalEvaluationStep {
nested_goal_evaluations,
evaluation: WipGoalCandidate { added_goals_evaluations, .. },
..
})
| DebugSolver::GoalCandidate(WipGoalCandidate {
nested_goal_evaluations, ..
added_goals_evaluations, ..
}),
DebugSolver::AddedGoalsEvaluation(added_goals_evaluation),
) => nested_goal_evaluations.push(added_goals_evaluation),
) => added_goals_evaluations.push(added_goals_evaluation),
_ => unreachable!(),
}
}
@ -413,15 +432,16 @@ impl<'tcx> ProofTreeBuilder<'tcx> {
pub fn query_result(&mut self, result: QueryResult<'tcx>) {
if let Some(this) = self.as_mut() {
match this {
DebugSolver::GoalEvaluation(goal_evaluation) => {
assert_eq!(goal_evaluation.result.replace(result), None);
DebugSolver::CanonicalGoalEvaluation(canonical_goal_evaluation) => {
assert_eq!(canonical_goal_evaluation.result.replace(result), None);
}
DebugSolver::GoalEvaluationStep(evaluation_step) => {
assert_eq!(evaluation_step.result.replace(result), None);
assert_eq!(
evaluation_step.evaluation.kind.replace(ProbeKind::Root { result }),
None
);
}
DebugSolver::Root
| DebugSolver::AddedGoalsEvaluation(_)
| DebugSolver::GoalCandidate(_) => unreachable!(),
_ => unreachable!(),
}
}
}

View File

@ -233,9 +233,9 @@ impl<'tcx> EvalCtxt<'_, 'tcx> {
#[instrument(level = "debug", skip(self, goals))]
fn add_goals(&mut self, goals: impl IntoIterator<Item = Goal<'tcx, ty::Predicate<'tcx>>>) {
let current_len = self.nested_goals.goals.len();
self.nested_goals.goals.extend(goals);
debug!("added_goals={:?}", &self.nested_goals.goals[current_len..]);
for goal in goals {
self.add_goal(goal);
}
}
/// Try to merge multiple possible ways to prove a goal, if that is not possible returns `None`.

View File

@ -8,8 +8,9 @@ use rustc_hir::LangItem;
use rustc_infer::traits::query::NoSolution;
use rustc_infer::traits::specialization_graph::LeafDef;
use rustc_infer::traits::Reveal;
use rustc_middle::traits::solve::inspect::CandidateKind;
use rustc_middle::traits::solve::{CanonicalResponse, Certainty, Goal, QueryResult};
use rustc_middle::traits::solve::{
CandidateSource, CanonicalResponse, Certainty, Goal, QueryResult,
};
use rustc_middle::traits::BuiltinImplSource;
use rustc_middle::ty::fast_reject::{DeepRejectCtxt, TreatParams};
use rustc_middle::ty::ProjectionPredicate;
@ -113,7 +114,7 @@ impl<'tcx> assembly::GoalKind<'tcx> for ProjectionPredicate<'tcx> {
if let Some(projection_pred) = assumption.as_projection_clause() {
if projection_pred.projection_def_id() == goal.predicate.def_id() {
let tcx = ecx.tcx();
ecx.probe_candidate("assumption").enter(|ecx| {
ecx.probe_misc_candidate("assumption").enter(|ecx| {
let assumption_projection_pred =
ecx.instantiate_binder_with_infer(projection_pred);
ecx.eq(
@ -155,7 +156,7 @@ impl<'tcx> assembly::GoalKind<'tcx> for ProjectionPredicate<'tcx> {
return Err(NoSolution);
}
ecx.probe(|r| CandidateKind::Candidate { name: "impl".into(), result: *r }).enter(|ecx| {
ecx.probe_trait_candidate(CandidateSource::Impl(impl_def_id)).enter(|ecx| {
let impl_args = ecx.fresh_args_for_item(impl_def_id);
let impl_trait_ref = impl_trait_ref.instantiate(tcx, impl_args);
@ -369,7 +370,7 @@ impl<'tcx> assembly::GoalKind<'tcx> for ProjectionPredicate<'tcx> {
goal: Goal<'tcx, Self>,
) -> QueryResult<'tcx> {
let tcx = ecx.tcx();
ecx.probe_candidate("builtin pointee").enter(|ecx| {
ecx.probe_misc_candidate("builtin pointee").enter(|ecx| {
let metadata_ty = match goal.predicate.self_ty().kind() {
ty::Bool
| ty::Char
@ -578,7 +579,7 @@ impl<'tcx> assembly::GoalKind<'tcx> for ProjectionPredicate<'tcx> {
),
};
ecx.probe_candidate("builtin discriminant kind").enter(|ecx| {
ecx.probe_misc_candidate("builtin discriminant kind").enter(|ecx| {
ecx.eq(goal.param_env, goal.predicate.term, discriminant_ty.into())
.expect("expected goal term to be fully unconstrained");
ecx.evaluate_added_goals_and_make_canonical_response(Certainty::Yes)

View File

@ -1,6 +1,7 @@
mod cache;
use self::cache::ProvisionalEntry;
use super::inspect;
use super::inspect::ProofTreeBuilder;
use super::SolverMode;
use cache::ProvisionalCache;
@ -185,6 +186,8 @@ impl<'tcx> SearchGraph<'tcx> {
if let Some(last) = self.stack.raw.last_mut() {
last.encountered_overflow = true;
}
inspect.goal_evaluation_kind(inspect::WipGoalEvaluationKind::Overflow);
return Self::response_no_constraints(tcx, input, Certainty::OVERFLOW);
};
@ -200,6 +203,9 @@ impl<'tcx> SearchGraph<'tcx> {
available_depth,
)
{
inspect.goal_evaluation_kind(inspect::WipGoalEvaluationKind::CacheHit(
CacheHit::Global,
));
self.on_cache_hit(reached_depth, encountered_overflow);
return result;
}
@ -234,7 +240,9 @@ impl<'tcx> SearchGraph<'tcx> {
// Finally we can return either the provisional response for that goal if we have a
// coinductive cycle or an ambiguous result if the cycle is inductive.
Entry::Occupied(entry_index) => {
inspect.cache_hit(CacheHit::Provisional);
inspect.goal_evaluation_kind(inspect::WipGoalEvaluationKind::CacheHit(
CacheHit::Provisional,
));
let entry_index = *entry_index.get();
let stack_depth = cache.depth(entry_index);

View File

@ -5,7 +5,7 @@ use super::{EvalCtxt, SolverMode};
use rustc_hir::def_id::DefId;
use rustc_hir::{LangItem, Movability};
use rustc_infer::traits::query::NoSolution;
use rustc_middle::traits::solve::inspect::CandidateKind;
use rustc_middle::traits::solve::inspect::ProbeKind;
use rustc_middle::traits::solve::{CanonicalResponse, Certainty, Goal, QueryResult};
use rustc_middle::traits::{BuiltinImplSource, Reveal};
use rustc_middle::ty::fast_reject::{DeepRejectCtxt, TreatParams, TreatProjections};
@ -61,7 +61,7 @@ impl<'tcx> assembly::GoalKind<'tcx> for TraitPredicate<'tcx> {
},
};
ecx.probe_candidate("impl").enter(|ecx| {
ecx.probe_misc_candidate("impl").enter(|ecx| {
let impl_args = ecx.fresh_args_for_item(impl_def_id);
let impl_trait_ref = impl_trait_ref.instantiate(tcx, impl_args);
@ -96,7 +96,7 @@ impl<'tcx> assembly::GoalKind<'tcx> for TraitPredicate<'tcx> {
&& trait_clause.polarity() == goal.predicate.polarity
{
// FIXME: Constness
ecx.probe_candidate("assumption").enter(|ecx| {
ecx.probe_misc_candidate("assumption").enter(|ecx| {
let assumption_trait_pred = ecx.instantiate_binder_with_infer(trait_clause);
ecx.eq(
goal.param_env,
@ -167,7 +167,7 @@ impl<'tcx> assembly::GoalKind<'tcx> for TraitPredicate<'tcx> {
let tcx = ecx.tcx();
ecx.probe_candidate("trait alias").enter(|ecx| {
ecx.probe_misc_candidate("trait alias").enter(|ecx| {
let nested_obligations = tcx
.predicates_of(goal.predicate.def_id())
.instantiate(tcx, goal.predicate.trait_ref.args);
@ -427,7 +427,7 @@ impl<'tcx> assembly::GoalKind<'tcx> for TraitPredicate<'tcx> {
ecx: &mut EvalCtxt<'_, 'tcx>,
goal: Goal<'tcx, Self>,
) -> QueryResult<'tcx> {
ecx.probe(|_| CandidateKind::UnsizeAssembly).enter(|ecx| {
ecx.probe(|_| ProbeKind::UnsizeAssembly).enter(|ecx| {
let a_ty = goal.predicate.self_ty();
// We need to normalize the b_ty since it's destructured as a `dyn Trait`.
let Some(b_ty) =
@ -491,7 +491,7 @@ impl<'tcx> assembly::GoalKind<'tcx> for TraitPredicate<'tcx> {
Err(NoSolution) => vec![],
};
ecx.probe(|_| CandidateKind::UnsizeAssembly).enter(|ecx| {
ecx.probe(|_| ProbeKind::UnsizeAssembly).enter(|ecx| {
let a_ty = goal.predicate.self_ty();
// We need to normalize the b_ty since it's matched structurally
// in the other functions below.
@ -597,7 +597,7 @@ impl<'tcx> EvalCtxt<'_, 'tcx> {
self.walk_vtable(
a_principal.with_self_ty(tcx, a_ty),
|ecx, new_a_principal, _, vtable_vptr_slot| {
if let Ok(resp) = ecx.probe_candidate("dyn upcast").enter(|ecx| {
if let Ok(resp) = ecx.probe_misc_candidate("dyn upcast").enter(|ecx| {
ecx.consider_builtin_upcast_to_principal(
goal,
a_data,
@ -640,7 +640,7 @@ impl<'tcx> EvalCtxt<'_, 'tcx> {
target_projection: ty::PolyExistentialProjection<'tcx>| {
source_projection.item_def_id() == target_projection.item_def_id()
&& ecx
.probe(|_| CandidateKind::UpcastProbe)
.probe(|_| ProbeKind::UpcastProjectionCompatibility)
.enter(|ecx| -> Result<(), NoSolution> {
ecx.eq(param_env, source_projection, target_projection)?;
let _ = ecx.try_evaluate_added_goals()?;
@ -918,7 +918,7 @@ impl<'tcx> EvalCtxt<'_, 'tcx> {
goal: Goal<'tcx, TraitPredicate<'tcx>>,
constituent_tys: impl Fn(&EvalCtxt<'_, 'tcx>, Ty<'tcx>) -> Result<Vec<Ty<'tcx>>, NoSolution>,
) -> QueryResult<'tcx> {
self.probe_candidate("constituent tys").enter(|ecx| {
self.probe_misc_candidate("constituent tys").enter(|ecx| {
ecx.add_goals(
constituent_tys(ecx, goal.predicate.self_ty())?
.into_iter()