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//! Impl specialization related things
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use hir_def::{ImplId, nameres::crate_def_map};
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use intern::sym;
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use tracing::debug;
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use crate::{
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db::HirDatabase,
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next_solver::{
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DbInterner, TypingMode,
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infer::{
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DbInternerInferExt,
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traits::{Obligation, ObligationCause},
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},
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obligation_ctxt::ObligationCtxt,
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},
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};
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// rustc does not have a cycle handling for the `specializes` query, meaning a cycle is a bug,
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// and indeed I was unable to cause cycles even with erroneous code. However, in r-a we can
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// create a cycle if there is an error in the impl's where clauses. I believe well formed code
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// cannot create a cycle, but a cycle handler is required nevertheless.
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fn specializes_cycle(
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_db: &dyn HirDatabase,
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_specializing_impl_def_id: ImplId,
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_parent_impl_def_id: ImplId,
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) -> bool {
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false
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}
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/// Is `specializing_impl_def_id` a specialization of `parent_impl_def_id`?
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///
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/// For every type that could apply to `specializing_impl_def_id`, we prove that
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/// the `parent_impl_def_id` also applies (i.e. it has a valid impl header and
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/// its where-clauses hold).
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///
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/// For the purposes of const traits, we also check that the specializing
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/// impl is not more restrictive than the parent impl. That is, if the
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/// `parent_impl_def_id` is a const impl (conditionally based off of some `[const]`
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/// bounds), then `specializing_impl_def_id` must also be const for the same
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/// set of types.
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#[salsa::tracked(cycle_result = specializes_cycle)]
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pub(crate) fn specializes(
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db: &dyn HirDatabase,
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specializing_impl_def_id: ImplId,
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parent_impl_def_id: ImplId,
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) -> bool {
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let module = specializing_impl_def_id.loc(db).container;
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// We check that the specializing impl comes from a crate that has specialization enabled.
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//
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// We don't really care if the specialized impl (the parent) is in a crate that has
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// specialization enabled, since it's not being specialized.
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//
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// rustc also checks whether the specializing impls comes from a macro marked
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// `#[allow_internal_unstable(specialization)]`, but `#[allow_internal_unstable]`
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// is an internal feature, std is not using it for specialization nor is likely to
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// ever use it, and we don't have the span information necessary to replicate that.
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let def_map = crate_def_map(db, module.krate());
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if !def_map.is_unstable_feature_enabled(&sym::specialization)
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&& !def_map.is_unstable_feature_enabled(&sym::min_specialization)
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{
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return false;
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}
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let interner = DbInterner::new_with(db, Some(module.krate()), module.containing_block());
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let specializing_impl_signature = db.impl_signature(specializing_impl_def_id);
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let parent_impl_signature = db.impl_signature(parent_impl_def_id);
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// We determine whether there's a subset relationship by:
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//
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// - replacing bound vars with placeholders in impl1,
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// - assuming the where clauses for impl1,
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// - instantiating impl2 with fresh inference variables,
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// - unifying,
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// - attempting to prove the where clauses for impl2
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//
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// The last three steps are encapsulated in `fulfill_implication`.
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//
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// See RFC 1210 for more details and justification.
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// Currently we do not allow e.g., a negative impl to specialize a positive one
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if specializing_impl_signature.is_negative() != parent_impl_signature.is_negative() {
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return false;
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}
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// create a parameter environment corresponding to an identity instantiation of the specializing impl,
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// i.e. the most generic instantiation of the specializing impl.
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let param_env = db.trait_environment(specializing_impl_def_id.into()).env;
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// Create an infcx, taking the predicates of the specializing impl as assumptions:
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let infcx = interner.infer_ctxt().build(TypingMode::non_body_analysis());
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let specializing_impl_trait_ref =
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db.impl_trait(specializing_impl_def_id).unwrap().instantiate_identity();
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let cause = &ObligationCause::dummy();
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debug!(
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"fulfill_implication({:?}, trait_ref={:?} |- {:?} applies)",
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param_env, specializing_impl_trait_ref, parent_impl_def_id
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);
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// Attempt to prove that the parent impl applies, given all of the above.
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let mut ocx = ObligationCtxt::new(&infcx);
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let parent_args = infcx.fresh_args_for_item(parent_impl_def_id.into());
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let parent_impl_trait_ref = db
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.impl_trait(parent_impl_def_id)
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.expect("expected source impl to be a trait impl")
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.instantiate(interner, parent_args);
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// do the impls unify? If not, no specialization.
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let Ok(()) = ocx.eq(cause, param_env, specializing_impl_trait_ref, parent_impl_trait_ref)
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else {
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return false;
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};
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// Now check that the source trait ref satisfies all the where clauses of the target impl.
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// This is not just for correctness; we also need this to constrain any params that may
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// only be referenced via projection predicates.
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if let Some(predicates) =
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db.generic_predicates(parent_impl_def_id.into()).instantiate(interner, parent_args)
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{
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ocx.register_obligations(
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predicates
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.map(|predicate| Obligation::new(interner, cause.clone(), param_env, predicate)),
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);
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}
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let errors = ocx.evaluate_obligations_error_on_ambiguity();
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if !errors.is_empty() {
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// no dice!
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debug!(
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"fulfill_implication: for impls on {:?} and {:?}, \
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could not fulfill: {:?} given {:?}",
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specializing_impl_trait_ref, parent_impl_trait_ref, errors, param_env
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);
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return false;
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}
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// FIXME: Check impl constness (when we implement const impls).
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debug!(
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"fulfill_implication: an impl for {:?} specializes {:?}",
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specializing_impl_trait_ref, parent_impl_trait_ref
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);
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true
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}
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Chayim Refael Friedman