//! Simplification of where-clauses and parameter bounds into a prettier and //! more canonical form. //! //! Currently all cross-crate-inlined function use `rustc_middle::ty` to reconstruct //! the AST (e.g., see all of `clean::inline`), but this is not always a //! non-lossy transformation. The current format of storage for where-clauses //! for functions and such is simply a list of predicates. One example of this //! is that the AST predicate of: `where T: Trait` is encoded as: //! `where T: Trait, ::Foo = Bar`. //! //! This module attempts to reconstruct the original where and/or parameter //! bounds by special casing scenarios such as these. Fun! use rustc_data_structures::fx::FxIndexMap; use rustc_data_structures::unord::UnordSet; use rustc_hir::def_id::DefId; use thin_vec::ThinVec; use crate::clean; use crate::clean::{GenericArgs as PP, WherePredicate as WP}; use crate::core::DocContext; pub(crate) fn where_clauses(cx: &DocContext<'_>, clauses: ThinVec) -> ThinVec { // First, partition the where clause into its separate components. // // We use `FxIndexMap` so that the insertion order is preserved to prevent messing up to // the order of the generated bounds. let mut tybounds = FxIndexMap::default(); let mut lifetimes = Vec::new(); let mut equalities = Vec::new(); for clause in clauses { match clause { WP::BoundPredicate { ty, bounds, bound_params } => { let (b, p): &mut (Vec<_>, Vec<_>) = tybounds.entry(ty).or_default(); b.extend(bounds); p.extend(bound_params); } WP::RegionPredicate { lifetime, bounds } => { lifetimes.push((lifetime, bounds)); } WP::EqPredicate { lhs, rhs } => equalities.push((lhs, rhs)), } } // Look for equality predicates on associated types that can be merged into // general bound predicates. equalities.retain(|(lhs, rhs)| { let Some((bounds, _)) = tybounds.get_mut(&lhs.self_type) else { return true }; merge_bounds(cx, bounds, lhs.trait_.as_ref().unwrap().def_id(), lhs.assoc.clone(), rhs) }); // And finally, let's reassemble everything let mut clauses = ThinVec::with_capacity(lifetimes.len() + tybounds.len() + equalities.len()); clauses.extend( lifetimes.into_iter().map(|(lt, bounds)| WP::RegionPredicate { lifetime: lt, bounds }), ); clauses.extend(tybounds.into_iter().map(|(ty, (bounds, bound_params))| WP::BoundPredicate { ty, bounds, bound_params, })); clauses.extend(equalities.into_iter().map(|(lhs, rhs)| WP::EqPredicate { lhs, rhs })); clauses } pub(crate) fn merge_bounds( cx: &clean::DocContext<'_>, bounds: &mut [clean::GenericBound], trait_did: DefId, assoc: clean::PathSegment, rhs: &clean::Term, ) -> bool { !bounds.iter_mut().any(|b| { let trait_ref = match *b { clean::GenericBound::TraitBound(ref mut tr, _) => tr, clean::GenericBound::Outlives(..) | clean::GenericBound::Use(_) => return false, }; // If this QPath's trait `trait_did` is the same as, or a supertrait // of, the bound's trait `did` then we can keep going, otherwise // this is just a plain old equality bound. if !trait_is_same_or_supertrait(cx, trait_ref.trait_.def_id(), trait_did) { return false; } let last = trait_ref.trait_.segments.last_mut().expect("segments were empty"); match last.args { PP::AngleBracketed { ref mut constraints, .. } => { constraints.push(clean::AssocItemConstraint { assoc: assoc.clone(), kind: clean::AssocItemConstraintKind::Equality { term: rhs.clone() }, }); } PP::Parenthesized { ref mut output, .. } => match output { Some(o) => assert_eq!(&clean::Term::Type(o.as_ref().clone()), rhs), None => { if *rhs != clean::Term::Type(clean::Type::Tuple(Vec::new())) { *output = Some(Box::new(rhs.ty().unwrap().clone())); } } }, PP::ReturnTypeNotation => { // Cannot merge bounds with RTN. return false; } }; true }) } fn trait_is_same_or_supertrait(cx: &DocContext<'_>, child: DefId, trait_: DefId) -> bool { if child == trait_ { return true; } let predicates = cx.tcx.explicit_super_predicates_of(child); predicates .iter_identity_copied() .filter_map(|(pred, _)| Some(pred.as_trait_clause()?.def_id())) .any(|did| trait_is_same_or_supertrait(cx, did, trait_)) } pub(crate) fn sized_bounds(cx: &mut DocContext<'_>, generics: &mut clean::Generics) { let mut sized_params = UnordSet::new(); // In the surface language, all type parameters except `Self` have an // implicit `Sized` bound unless removed with `?Sized`. // However, in the list of where-predicates below, `Sized` appears like a // normal bound: It's either present (the type is sized) or // absent (the type might be unsized) but never *maybe* (i.e. `?Sized`). // // This is unsuitable for rendering. // Thus, as a first step remove all `Sized` bounds that should be implicit. // // Note that associated types also have an implicit `Sized` bound but we // don't actually know the set of associated types right here so that // should be handled when cleaning associated types. generics.where_predicates.retain(|pred| { let WP::BoundPredicate { ty: clean::Generic(param), bounds, .. } = pred else { return true; }; if bounds.iter().any(|b| b.is_sized_bound(cx)) { sized_params.insert(*param); false } else if bounds.iter().any(|b| b.is_meta_sized_bound(cx)) { // FIXME(sized-hierarchy): Always skip `MetaSized` bounds so that only `?Sized` // is shown and none of the new sizedness traits leak into documentation. false } else { true } }); // As a final step, go through the type parameters again and insert a // `?Sized` bound for each one we didn't find to be `Sized`. for param in &generics.params { if let clean::GenericParamDefKind::Type { .. } = param.kind && !sized_params.contains(¶m.name) { generics.where_predicates.push(WP::BoundPredicate { ty: clean::Type::Generic(param.name), bounds: vec![clean::GenericBound::maybe_sized(cx)], bound_params: Vec::new(), }) } } } /// Move bounds that are (likely) directly attached to generic parameters from the where-clause to /// the respective parameter. /// /// There is no guarantee that this is what the user actually wrote but we have no way of knowing. // FIXME(fmease): It'd make a lot of sense to just incorporate this logic into `clean_ty_generics` // making every of its users benefit from it. pub(crate) fn move_bounds_to_generic_parameters(generics: &mut clean::Generics) { use clean::types::*; let mut where_predicates = ThinVec::new(); for mut pred in generics.where_predicates.drain(..) { if let WherePredicate::BoundPredicate { ty: Generic(arg), bounds, .. } = &mut pred && let Some(GenericParamDef { kind: GenericParamDefKind::Type { bounds: param_bounds, .. }, .. }) = generics.params.iter_mut().find(|param| ¶m.name == arg) { param_bounds.extend(bounds.drain(..)); } else if let WherePredicate::RegionPredicate { lifetime: Lifetime(arg), bounds } = &mut pred && let Some(GenericParamDef { kind: GenericParamDefKind::Lifetime { outlives: param_bounds }, .. }) = generics.params.iter_mut().find(|param| ¶m.name == arg) { param_bounds.extend(bounds.drain(..).map(|bound| match bound { GenericBound::Outlives(lifetime) => lifetime, _ => unreachable!(), })); } else { where_predicates.push(pred); } } generics.where_predicates = where_predicates; }