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use rustc_macros::extension;
use rustc_middle::span_bug;
use crate::infer::canonical::OriginalQueryValues;
use crate::infer::InferCtxt;
use crate::traits::{
EvaluationResult, ObligationCtxt, OverflowError, PredicateObligation, SelectionContext,
};
#[extension(pub trait InferCtxtExt<'tcx>)]
impl<'tcx> InferCtxt<'tcx> {
/// Evaluates whether the predicate can be satisfied (by any means)
/// in the given `ParamEnv`.
fn predicate_may_hold(&self, obligation: &PredicateObligation<'tcx>) -> bool {
self.evaluate_obligation_no_overflow(obligation).may_apply()
}
/// Evaluates whether the predicate can be satisfied in the given
/// `ParamEnv`, and returns `false` if not certain. However, this is
/// not entirely accurate if inference variables are involved.
///
/// This version may conservatively fail when outlives obligations
/// are required. Therefore, this version should only be used for
/// optimizations or diagnostics and be treated as if it can always
/// return `false`.
///
/// # Example
///
/// ```
/// # #![allow(dead_code)]
/// trait Trait {}
///
/// fn check<T: Trait>() {}
///
/// fn foo<T: 'static>()
/// where
/// &'static T: Trait,
/// {
/// // Evaluating `&'?0 T: Trait` adds a `'?0: 'static` outlives obligation,
/// // which means that `predicate_must_hold_considering_regions` will return
/// // `false`.
/// check::<&'_ T>();
/// }
/// ```
fn predicate_must_hold_considering_regions(
&self,
obligation: &PredicateObligation<'tcx>,
) -> bool {
self.evaluate_obligation_no_overflow(obligation).must_apply_considering_regions()
}
/// Evaluates whether the predicate can be satisfied in the given
/// `ParamEnv`, and returns `false` if not certain. However, this is
/// not entirely accurate if inference variables are involved.
///
/// This version ignores all outlives constraints.
fn predicate_must_hold_modulo_regions(&self, obligation: &PredicateObligation<'tcx>) -> bool {
self.evaluate_obligation_no_overflow(obligation).must_apply_modulo_regions()
}
/// Evaluate a given predicate, capturing overflow and propagating it back.
fn evaluate_obligation(
&self,
obligation: &PredicateObligation<'tcx>,
) -> Result<EvaluationResult, OverflowError> {
let mut _orig_values = OriginalQueryValues::default();
let param_env = obligation.param_env;
if self.next_trait_solver() {
self.probe(|snapshot| {
let ocx = ObligationCtxt::new(self);
ocx.register_obligation(obligation.clone());
let mut result = EvaluationResult::EvaluatedToOk;
for error in ocx.select_all_or_error() {
if error.is_true_error() {
return Ok(EvaluationResult::EvaluatedToErr);
} else {
result = result.max(EvaluationResult::EvaluatedToAmbig);
}
}
if self.opaque_types_added_in_snapshot(snapshot) {
result = result.max(EvaluationResult::EvaluatedToOkModuloOpaqueTypes);
} else if self.region_constraints_added_in_snapshot(snapshot) {
result = result.max(EvaluationResult::EvaluatedToOkModuloRegions);
}
Ok(result)
})
} else {
assert!(!self.intercrate);
let c_pred =
self.canonicalize_query(param_env.and(obligation.predicate), &mut _orig_values);
self.tcx.at(obligation.cause.span()).evaluate_obligation(c_pred)
}
}
/// Helper function that canonicalizes and runs the query. If an
/// overflow results, we re-run it in the local context so we can
/// report a nice error.
fn evaluate_obligation_no_overflow(
&self,
obligation: &PredicateObligation<'tcx>,
) -> EvaluationResult {
// Run canonical query. If overflow occurs, rerun from scratch but this time
// in standard trait query mode so that overflow is handled appropriately
// within `SelectionContext`.
match self.evaluate_obligation(obligation) {
Ok(result) => result,
Err(OverflowError::Canonical) => {
let mut selcx = SelectionContext::new(self);
selcx.evaluate_root_obligation(obligation).unwrap_or_else(|r| match r {
OverflowError::Canonical => {
span_bug!(
obligation.cause.span,
"Overflow should be caught earlier in standard query mode: {:?}, {:?}",
obligation,
r,
)
}
OverflowError::Error(_) => EvaluationResult::EvaluatedToErr,
})
}
Err(OverflowError::Error(_)) => EvaluationResult::EvaluatedToErr,
}
}
}