src/librustdoc/clean/simplify.rs - third_party/rust - Git at Google

 //! Simplification of where-clauses and parameter bounds into a prettier and
 //! more canonical form.
 //!
 //! Currently all cross-crate-inlined function use `rustc::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<Foo = Bar>` is encoded as:
 //! `where T: Trait, <T as Trait>::Foo = Bar`.
 //!
 //! This module attempts to reconstruct the original where and/or parameter
 //! bounds by special casing scenarios such as these. Fun!

 use std::collections::BTreeMap;
 use std::mem;

 use rustc::ty;
 use rustc_hir::def_id::DefId;

 use crate::clean;
 use crate::clean::GenericArgs as PP;
 use crate::clean::WherePredicate as WP;
 use crate::core::DocContext;

 pub fn where_clauses(cx: &DocContext<'_>, clauses: Vec<WP>) -> Vec<WP> {
     // First, partition the where clause into its separate components
     let mut params: BTreeMap<_, Vec<_>> = BTreeMap::new();
     let mut lifetimes = Vec::new();
     let mut equalities = Vec::new();
     let mut tybounds = Vec::new();

     for clause in clauses {
         match clause {
             WP::BoundPredicate { ty, bounds } => match ty {
                 clean::Generic(s) => params.entry(s).or_default().extend(bounds),
                 t => tybounds.push((t, bounds)),
             },
             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(|&(ref lhs, ref rhs)| {
         let (self_, trait_did, name) = if let Some(p) = lhs.projection() {
             p
         } else {
             return true;
         };
         let generic = match self_ {
             clean::Generic(s) => s,
             _ => return true,
         };
         let bounds = match params.get_mut(generic) {
             Some(bound) => bound,
             None => return true,
         };

         merge_bounds(cx, bounds, trait_did, name, rhs)
     });

     // And finally, let's reassemble everything
     let mut clauses = Vec::new();
     clauses.extend(
         lifetimes.into_iter().map(|(lt, bounds)| WP::RegionPredicate { lifetime: lt, bounds }),
     );
     clauses.extend(
         params.into_iter().map(|(k, v)| WP::BoundPredicate { ty: clean::Generic(k), bounds: v }),
     );
     clauses.extend(tybounds.into_iter().map(|(ty, bounds)| WP::BoundPredicate { ty, bounds }));
     clauses.extend(equalities.into_iter().map(|(lhs, rhs)| WP::EqPredicate { lhs, rhs }));
     clauses
 }

 pub fn merge_bounds(
     cx: &clean::DocContext<'_>,
     bounds: &mut Vec<clean::GenericBound>,
     trait_did: DefId,
     name: &str,
     rhs: &clean::Type,
 ) -> bool {
     !bounds.iter_mut().any(|b| {
         let trait_ref = match *b {
             clean::GenericBound::TraitBound(ref mut tr, _) => tr,
             clean::GenericBound::Outlives(..) => return false,
         };
         let (did, path) = match trait_ref.trait_ {
             clean::ResolvedPath { did, ref mut path, .. } => (did, path),
             _ => 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, did, trait_did) {
             return false;
         }
         let last = path.segments.last_mut().expect("segments were empty");
         match last.args {
             PP::AngleBracketed { ref mut bindings, .. } => {
                 bindings.push(clean::TypeBinding {
                     name: name.to_string(),
                     kind: clean::TypeBindingKind::Equality { ty: rhs.clone() },
                 });
             }
             PP::Parenthesized { ref mut output, .. } => match output {
                 Some(o) => assert_eq!(o, rhs),
                 None => {
                     if *rhs != clean::Type::Tuple(Vec::new()) {
                         *output = Some(rhs.clone());
                     }
                 }
             },
         };
         true
     })
 }

 pub fn ty_params(mut params: Vec<clean::GenericParamDef>) -> Vec<clean::GenericParamDef> {
     for param in &mut params {
         match param.kind {
             clean::GenericParamDefKind::Type { ref mut bounds, .. } => {
                 *bounds = mem::take(bounds);
             }
             _ => panic!("expected only type parameters"),
         }
     }
     params
 }

 fn trait_is_same_or_supertrait(cx: &DocContext<'_>, child: DefId, trait_: DefId) -> bool {
     if child == trait_ {
         return true;
     }
     let predicates = cx.tcx.super_predicates_of(child);
     debug_assert!(cx.tcx.generics_of(child).has_self);
     let self_ty = cx.tcx.types.self_param;
     predicates
         .predicates
         .iter()
         .filter_map(|(pred, _)| {
             if let ty::Predicate::Trait(ref pred, _) = *pred {
                 if pred.skip_binder().trait_ref.self_ty() == self_ty {
                     Some(pred.def_id())
                 } else {
                     None
                 }
             } else {
                 None
             }
         })
         .any(|did| trait_is_same_or_supertrait(cx, did, trait_))
 }
	//! Simplification of where-clauses and parameter bounds into a prettier and
	//! more canonical form.
	//!
	//! Currently all cross-crate-inlined function use `rustc::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<Foo = Bar>` is encoded as:
	//! `where T: Trait, <T as Trait>::Foo = Bar`.
	//!
	//! This module attempts to reconstruct the original where and/or parameter
	//! bounds by special casing scenarios such as these. Fun!

	use std::collections::BTreeMap;
	use std::mem;

	use rustc::ty;
	use rustc_hir::def_id::DefId;

	use crate::clean;
	use crate::clean::GenericArgs as PP;
	use crate::clean::WherePredicate as WP;
	use crate::core::DocContext;

	pub fn where_clauses(cx: &DocContext<'_>, clauses: Vec<WP>) -> Vec<WP> {
	// First, partition the where clause into its separate components
	let mut params: BTreeMap<_, Vec<_>> = BTreeMap::new();
	let mut lifetimes = Vec::new();
	let mut equalities = Vec::new();
	let mut tybounds = Vec::new();

	for clause in clauses {
	match clause {
	WP::BoundPredicate { ty, bounds } => match ty {
	clean::Generic(s) => params.entry(s).or_default().extend(bounds),
	t => tybounds.push((t, bounds)),
	},
	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(\|&(ref lhs, ref rhs)\| {
	let (self_, trait_did, name) = if let Some(p) = lhs.projection() {
	p
	} else {
	return true;
	};
	let generic = match self_ {
	clean::Generic(s) => s,
	_ => return true,
	};
	let bounds = match params.get_mut(generic) {
	Some(bound) => bound,
	None => return true,
	};

	merge_bounds(cx, bounds, trait_did, name, rhs)
	});

	// And finally, let's reassemble everything
	let mut clauses = Vec::new();
	clauses.extend(
	lifetimes.into_iter().map(\|(lt, bounds)\| WP::RegionPredicate { lifetime: lt, bounds }),
	);
	clauses.extend(
	params.into_iter().map(\|(k, v)\| WP::BoundPredicate { ty: clean::Generic(k), bounds: v }),
	);
	clauses.extend(tybounds.into_iter().map(\|(ty, bounds)\| WP::BoundPredicate { ty, bounds }));
	clauses.extend(equalities.into_iter().map(\|(lhs, rhs)\| WP::EqPredicate { lhs, rhs }));
	clauses
	}

	pub fn merge_bounds(
	cx: &clean::DocContext<'_>,
	bounds: &mut Vec<clean::GenericBound>,
	trait_did: DefId,
	name: &str,
	rhs: &clean::Type,
	) -> bool {
	!bounds.iter_mut().any(\|b\| {
	let trait_ref = match *b {
	clean::GenericBound::TraitBound(ref mut tr, _) => tr,
	clean::GenericBound::Outlives(..) => return false,
	};
	let (did, path) = match trait_ref.trait_ {
	clean::ResolvedPath { did, ref mut path, .. } => (did, path),
	_ => 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, did, trait_did) {
	return false;
	}
	let last = path.segments.last_mut().expect("segments were empty");
	match last.args {
	PP::AngleBracketed { ref mut bindings, .. } => {
	bindings.push(clean::TypeBinding {
	name: name.to_string(),
	kind: clean::TypeBindingKind::Equality { ty: rhs.clone() },
	});
	}
	PP::Parenthesized { ref mut output, .. } => match output {
	Some(o) => assert_eq!(o, rhs),
	None => {
	if *rhs != clean::Type::Tuple(Vec::new()) {
	*output = Some(rhs.clone());
	}
	}
	},
	};
	true
	})
	}

	pub fn ty_params(mut params: Vec<clean::GenericParamDef>) -> Vec<clean::GenericParamDef> {
	for param in &mut params {
	match param.kind {
	clean::GenericParamDefKind::Type { ref mut bounds, .. } => {
	*bounds = mem::take(bounds);
	}
	_ => panic!("expected only type parameters"),
	}
	}
	params
	}

	fn trait_is_same_or_supertrait(cx: &DocContext<'_>, child: DefId, trait_: DefId) -> bool {
	if child == trait_ {
	return true;
	}
	let predicates = cx.tcx.super_predicates_of(child);
	debug_assert!(cx.tcx.generics_of(child).has_self);
	let self_ty = cx.tcx.types.self_param;
	predicates
	.predicates
	.iter()
	.filter_map(\|(pred, _)\| {
	if let ty::Predicate::Trait(ref pred, _) = *pred {
	if pred.skip_binder().trait_ref.self_ty() == self_ty {
	Some(pred.def_id())
	} else {
	None
	}
	} else {
	None
	}
	})
	.any(\|did\| trait_is_same_or_supertrait(cx, did, trait_))
	}