// Copyright 2012-2015 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. use infer::type_variable; use ty::{self, Lift, Ty, TyCtxt}; use ty::fold::{TypeFoldable, TypeFolder, TypeVisitor}; use std::rc::Rc; use syntax::abi; use hir; /////////////////////////////////////////////////////////////////////////// // Lift implementations impl<'tcx, A: Lift<'tcx>, B: Lift<'tcx>> Lift<'tcx> for (A, B) { type Lifted = (A::Lifted, B::Lifted); fn lift_to_tcx<'a, 'gcx>(&self, tcx: TyCtxt<'a, 'gcx, 'tcx>) -> Option { tcx.lift(&self.0).and_then(|a| tcx.lift(&self.1).map(|b| (a, b))) } } impl<'tcx, T: Lift<'tcx>> Lift<'tcx> for Option { type Lifted = Option; fn lift_to_tcx<'a, 'gcx>(&self, tcx: TyCtxt<'a, 'gcx, 'tcx>) -> Option { match *self { Some(ref x) => tcx.lift(x).map(Some), None => Some(None) } } } impl<'tcx, T: Lift<'tcx>, E: Lift<'tcx>> Lift<'tcx> for Result { type Lifted = Result; fn lift_to_tcx<'a, 'gcx>(&self, tcx: TyCtxt<'a, 'gcx, 'tcx>) -> Option { match *self { Ok(ref x) => tcx.lift(x).map(Ok), Err(ref e) => tcx.lift(e).map(Err) } } } impl<'tcx, T: Lift<'tcx>> Lift<'tcx> for [T] { type Lifted = Vec; fn lift_to_tcx<'a, 'gcx>(&self, tcx: TyCtxt<'a, 'gcx, 'tcx>) -> Option { // type annotation needed to inform `projection_must_outlive` let mut result : Vec<>::Lifted> = Vec::with_capacity(self.len()); for x in self { if let Some(value) = tcx.lift(x) { result.push(value); } else { return None; } } Some(result) } } impl<'tcx, T: Lift<'tcx>> Lift<'tcx> for Vec { type Lifted = Vec; fn lift_to_tcx<'a, 'gcx>(&self, tcx: TyCtxt<'a, 'gcx, 'tcx>) -> Option { tcx.lift(&self[..]) } } impl<'a, 'tcx> Lift<'tcx> for ty::TraitRef<'a> { type Lifted = ty::TraitRef<'tcx>; fn lift_to_tcx<'b, 'gcx>(&self, tcx: TyCtxt<'b, 'gcx, 'tcx>) -> Option { tcx.lift(&self.substs).map(|substs| ty::TraitRef { def_id: self.def_id, substs: substs }) } } impl<'a, 'tcx> Lift<'tcx> for ty::ExistentialTraitRef<'a> { type Lifted = ty::ExistentialTraitRef<'tcx>; fn lift_to_tcx<'b, 'gcx>(&self, tcx: TyCtxt<'b, 'gcx, 'tcx>) -> Option { tcx.lift(&self.substs).map(|substs| ty::ExistentialTraitRef { def_id: self.def_id, substs: substs }) } } impl<'a, 'tcx> Lift<'tcx> for ty::TraitPredicate<'a> { type Lifted = ty::TraitPredicate<'tcx>; fn lift_to_tcx<'b, 'gcx>(&self, tcx: TyCtxt<'b, 'gcx, 'tcx>) -> Option> { tcx.lift(&self.trait_ref).map(|trait_ref| ty::TraitPredicate { trait_ref: trait_ref }) } } impl<'a, 'tcx> Lift<'tcx> for ty::EquatePredicate<'a> { type Lifted = ty::EquatePredicate<'tcx>; fn lift_to_tcx<'b, 'gcx>(&self, tcx: TyCtxt<'b, 'gcx, 'tcx>) -> Option> { tcx.lift(&(self.0, self.1)).map(|(a, b)| ty::EquatePredicate(a, b)) } } impl<'tcx, A: Copy+Lift<'tcx>, B: Copy+Lift<'tcx>> Lift<'tcx> for ty::OutlivesPredicate { type Lifted = ty::OutlivesPredicate; fn lift_to_tcx<'a, 'gcx>(&self, tcx: TyCtxt<'a, 'gcx, 'tcx>) -> Option { tcx.lift(&(self.0, self.1)).map(|(a, b)| ty::OutlivesPredicate(a, b)) } } impl<'a, 'tcx> Lift<'tcx> for ty::ProjectionTy<'a> { type Lifted = ty::ProjectionTy<'tcx>; fn lift_to_tcx<'b, 'gcx>(&self, tcx: TyCtxt<'b, 'gcx, 'tcx>) -> Option> { tcx.lift(&self.trait_ref).map(|trait_ref| { ty::ProjectionTy { trait_ref: trait_ref, item_name: self.item_name } }) } } impl<'a, 'tcx> Lift<'tcx> for ty::ProjectionPredicate<'a> { type Lifted = ty::ProjectionPredicate<'tcx>; fn lift_to_tcx<'b, 'gcx>(&self, tcx: TyCtxt<'b, 'gcx, 'tcx>) -> Option> { tcx.lift(&(self.projection_ty, self.ty)).map(|(projection_ty, ty)| { ty::ProjectionPredicate { projection_ty: projection_ty, ty: ty } }) } } impl<'a, 'tcx> Lift<'tcx> for ty::ExistentialProjection<'a> { type Lifted = ty::ExistentialProjection<'tcx>; fn lift_to_tcx<'b, 'gcx>(&self, tcx: TyCtxt<'b, 'gcx, 'tcx>) -> Option { tcx.lift(&(self.trait_ref, self.ty)).map(|(trait_ref, ty)| { ty::ExistentialProjection { trait_ref: trait_ref, item_name: self.item_name, ty: ty } }) } } impl<'a, 'tcx> Lift<'tcx> for ty::Predicate<'a> { type Lifted = ty::Predicate<'tcx>; fn lift_to_tcx<'b, 'gcx>(&self, tcx: TyCtxt<'b, 'gcx, 'tcx>) -> Option { match *self { ty::Predicate::Trait(ref binder) => { tcx.lift(binder).map(ty::Predicate::Trait) } ty::Predicate::Equate(ref binder) => { tcx.lift(binder).map(ty::Predicate::Equate) } ty::Predicate::RegionOutlives(ref binder) => { tcx.lift(binder).map(ty::Predicate::RegionOutlives) } ty::Predicate::TypeOutlives(ref binder) => { tcx.lift(binder).map(ty::Predicate::TypeOutlives) } ty::Predicate::Projection(ref binder) => { tcx.lift(binder).map(ty::Predicate::Projection) } ty::Predicate::WellFormed(ty) => { tcx.lift(&ty).map(ty::Predicate::WellFormed) } ty::Predicate::ClosureKind(closure_def_id, kind) => { Some(ty::Predicate::ClosureKind(closure_def_id, kind)) } ty::Predicate::ObjectSafe(trait_def_id) => { Some(ty::Predicate::ObjectSafe(trait_def_id)) } } } } impl<'tcx, T: Lift<'tcx>> Lift<'tcx> for ty::Binder { type Lifted = ty::Binder; fn lift_to_tcx<'a, 'gcx>(&self, tcx: TyCtxt<'a, 'gcx, 'tcx>) -> Option { tcx.lift(&self.0).map(|x| ty::Binder(x)) } } impl<'a, 'tcx> Lift<'tcx> for ty::ClosureSubsts<'a> { type Lifted = ty::ClosureSubsts<'tcx>; fn lift_to_tcx<'b, 'gcx>(&self, tcx: TyCtxt<'b, 'gcx, 'tcx>) -> Option { tcx.lift(&(self.func_substs, self.upvar_tys)).map(|(substs, upvar_tys)| { ty::ClosureSubsts { func_substs: substs, upvar_tys: upvar_tys } }) } } impl<'a, 'tcx> Lift<'tcx> for ty::ItemSubsts<'a> { type Lifted = ty::ItemSubsts<'tcx>; fn lift_to_tcx<'b, 'gcx>(&self, tcx: TyCtxt<'b, 'gcx, 'tcx>) -> Option { tcx.lift(&self.substs).map(|substs| { ty::ItemSubsts { substs: substs } }) } } impl<'a, 'tcx> Lift<'tcx> for ty::adjustment::AutoRef<'a> { type Lifted = ty::adjustment::AutoRef<'tcx>; fn lift_to_tcx<'b, 'gcx>(&self, tcx: TyCtxt<'b, 'gcx, 'tcx>) -> Option { match *self { ty::adjustment::AutoPtr(r, m) => { tcx.lift(&r).map(|r| ty::adjustment::AutoPtr(r, m)) } ty::adjustment::AutoUnsafe(m) => { Some(ty::adjustment::AutoUnsafe(m)) } } } } impl<'a, 'tcx> Lift<'tcx> for ty::FnSig<'a> { type Lifted = ty::FnSig<'tcx>; fn lift_to_tcx<'b, 'gcx>(&self, tcx: TyCtxt<'b, 'gcx, 'tcx>) -> Option { tcx.lift(&self.inputs[..]).and_then(|inputs| { tcx.lift(&self.output).map(|output| { ty::FnSig { inputs: inputs, output: output, variadic: self.variadic } }) }) } } impl<'a, 'tcx> Lift<'tcx> for ty::ClosureTy<'a> { type Lifted = ty::ClosureTy<'tcx>; fn lift_to_tcx<'b, 'gcx>(&self, tcx: TyCtxt<'b, 'gcx, 'tcx>) -> Option { tcx.lift(&self.sig).map(|sig| { ty::ClosureTy { sig: sig, unsafety: self.unsafety, abi: self.abi } }) } } impl<'tcx, T: Lift<'tcx>> Lift<'tcx> for ty::error::ExpectedFound { type Lifted = ty::error::ExpectedFound; fn lift_to_tcx<'a, 'gcx>(&self, tcx: TyCtxt<'a, 'gcx, 'tcx>) -> Option { tcx.lift(&self.expected).and_then(|expected| { tcx.lift(&self.found).map(|found| { ty::error::ExpectedFound { expected: expected, found: found } }) }) } } impl<'a, 'tcx> Lift<'tcx> for type_variable::Default<'a> { type Lifted = type_variable::Default<'tcx>; fn lift_to_tcx<'b, 'gcx>(&self, tcx: TyCtxt<'b, 'gcx, 'tcx>) -> Option { tcx.lift(&self.ty).map(|ty| { type_variable::Default { ty: ty, origin_span: self.origin_span, def_id: self.def_id } }) } } impl<'a, 'tcx> Lift<'tcx> for ty::error::TypeError<'a> { type Lifted = ty::error::TypeError<'tcx>; fn lift_to_tcx<'b, 'gcx>(&self, tcx: TyCtxt<'b, 'gcx, 'tcx>) -> Option { use ty::error::TypeError::*; Some(match *self { Mismatch => Mismatch, UnsafetyMismatch(x) => UnsafetyMismatch(x), AbiMismatch(x) => AbiMismatch(x), Mutability => Mutability, TupleSize(x) => TupleSize(x), FixedArraySize(x) => FixedArraySize(x), ArgCount => ArgCount, RegionsDoesNotOutlive(a, b) => { return tcx.lift(&(a, b)).map(|(a, b)| RegionsDoesNotOutlive(a, b)) } RegionsNotSame(a, b) => { return tcx.lift(&(a, b)).map(|(a, b)| RegionsNotSame(a, b)) } RegionsNoOverlap(a, b) => { return tcx.lift(&(a, b)).map(|(a, b)| RegionsNoOverlap(a, b)) } RegionsInsufficientlyPolymorphic(a, b) => { return tcx.lift(&b).map(|b| RegionsInsufficientlyPolymorphic(a, b)) } RegionsOverlyPolymorphic(a, b) => { return tcx.lift(&b).map(|b| RegionsOverlyPolymorphic(a, b)) } IntMismatch(x) => IntMismatch(x), FloatMismatch(x) => FloatMismatch(x), Traits(x) => Traits(x), BuiltinBoundsMismatch(x) => BuiltinBoundsMismatch(x), VariadicMismatch(x) => VariadicMismatch(x), CyclicTy => CyclicTy, ProjectionNameMismatched(x) => ProjectionNameMismatched(x), ProjectionBoundsLength(x) => ProjectionBoundsLength(x), Sorts(ref x) => return tcx.lift(x).map(Sorts), TyParamDefaultMismatch(ref x) => { return tcx.lift(x).map(TyParamDefaultMismatch) } }) } } /////////////////////////////////////////////////////////////////////////// // TypeFoldable implementations. // // Ideally, each type should invoke `folder.fold_foo(self)` and // nothing else. In some cases, though, we haven't gotten around to // adding methods on the `folder` yet, and thus the folding is // hard-coded here. This is less-flexible, because folders cannot // override the behavior, but there are a lot of random types and one // can easily refactor the folding into the TypeFolder trait as // needed. macro_rules! CopyImpls { ($($ty:ty),+) => { $( impl<'tcx> TypeFoldable<'tcx> for $ty { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, _: &mut F) -> $ty { *self } fn super_visit_with>(&self, _: &mut F) -> bool { false } } )+ } } CopyImpls! { (), hir::Unsafety, abi::Abi } impl<'tcx, T:TypeFoldable<'tcx>, U:TypeFoldable<'tcx>> TypeFoldable<'tcx> for (T, U) { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> (T, U) { (self.0.fold_with(folder), self.1.fold_with(folder)) } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.0.visit_with(visitor) || self.1.visit_with(visitor) } } impl<'tcx, T: TypeFoldable<'tcx>> TypeFoldable<'tcx> for Option { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { self.as_ref().map(|t| t.fold_with(folder)) } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.iter().any(|t| t.visit_with(visitor)) } } impl<'tcx, T: TypeFoldable<'tcx>> TypeFoldable<'tcx> for Rc { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { Rc::new((**self).fold_with(folder)) } fn super_visit_with>(&self, visitor: &mut V) -> bool { (**self).visit_with(visitor) } } impl<'tcx, T: TypeFoldable<'tcx>> TypeFoldable<'tcx> for Box { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { let content: T = (**self).fold_with(folder); box content } fn super_visit_with>(&self, visitor: &mut V) -> bool { (**self).visit_with(visitor) } } impl<'tcx, T: TypeFoldable<'tcx>> TypeFoldable<'tcx> for Vec { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { self.iter().map(|t| t.fold_with(folder)).collect() } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.iter().any(|t| t.visit_with(visitor)) } } impl<'tcx, T:TypeFoldable<'tcx>> TypeFoldable<'tcx> for ty::Binder { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { ty::Binder(self.0.fold_with(folder)) } fn fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { folder.fold_binder(self) } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.0.visit_with(visitor) } fn visit_with>(&self, visitor: &mut V) -> bool { visitor.visit_binder(self) } } impl<'tcx> TypeFoldable<'tcx> for ty::TraitObject<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { ty::TraitObject { principal: self.principal.fold_with(folder), region_bound: self.region_bound.fold_with(folder), builtin_bounds: self.builtin_bounds, projection_bounds: self.projection_bounds.fold_with(folder), } } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.principal.visit_with(visitor) || self.region_bound.visit_with(visitor) || self.projection_bounds.visit_with(visitor) } } impl<'tcx> TypeFoldable<'tcx> for &'tcx ty::Slice> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { let tys = self.iter().map(|t| t.fold_with(folder)).collect(); folder.tcx().mk_type_list(tys) } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.iter().any(|t| t.visit_with(visitor)) } } impl<'tcx> TypeFoldable<'tcx> for Ty<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { let sty = match self.sty { ty::TyBox(typ) => ty::TyBox(typ.fold_with(folder)), ty::TyRawPtr(tm) => ty::TyRawPtr(tm.fold_with(folder)), ty::TyArray(typ, sz) => ty::TyArray(typ.fold_with(folder), sz), ty::TySlice(typ) => ty::TySlice(typ.fold_with(folder)), ty::TyAdt(tid, substs) => ty::TyAdt(tid, substs.fold_with(folder)), ty::TyTrait(ref trait_ty) => ty::TyTrait(trait_ty.fold_with(folder)), ty::TyTuple(ts) => ty::TyTuple(ts.fold_with(folder)), ty::TyFnDef(def_id, substs, f) => { ty::TyFnDef(def_id, substs.fold_with(folder), f.fold_with(folder)) } ty::TyFnPtr(f) => ty::TyFnPtr(f.fold_with(folder)), ty::TyRef(ref r, tm) => { ty::TyRef(r.fold_with(folder), tm.fold_with(folder)) } ty::TyClosure(did, substs) => ty::TyClosure(did, substs.fold_with(folder)), ty::TyProjection(ref data) => ty::TyProjection(data.fold_with(folder)), ty::TyAnon(did, substs) => ty::TyAnon(did, substs.fold_with(folder)), ty::TyBool | ty::TyChar | ty::TyStr | ty::TyInt(_) | ty::TyUint(_) | ty::TyFloat(_) | ty::TyError | ty::TyInfer(_) | ty::TyParam(..) | ty::TyNever => self.sty.clone(), }; folder.tcx().mk_ty(sty) } fn fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { folder.fold_ty(*self) } fn super_visit_with>(&self, visitor: &mut V) -> bool { match self.sty { ty::TyBox(typ) => typ.visit_with(visitor), ty::TyRawPtr(ref tm) => tm.visit_with(visitor), ty::TyArray(typ, _sz) => typ.visit_with(visitor), ty::TySlice(typ) => typ.visit_with(visitor), ty::TyAdt(_, substs) => substs.visit_with(visitor), ty::TyTrait(ref trait_ty) => trait_ty.visit_with(visitor), ty::TyTuple(ts) => ts.visit_with(visitor), ty::TyFnDef(_, substs, ref f) => { substs.visit_with(visitor) || f.visit_with(visitor) } ty::TyFnPtr(ref f) => f.visit_with(visitor), ty::TyRef(r, ref tm) => r.visit_with(visitor) || tm.visit_with(visitor), ty::TyClosure(_did, ref substs) => substs.visit_with(visitor), ty::TyProjection(ref data) => data.visit_with(visitor), ty::TyAnon(_, ref substs) => substs.visit_with(visitor), ty::TyBool | ty::TyChar | ty::TyStr | ty::TyInt(_) | ty::TyUint(_) | ty::TyFloat(_) | ty::TyError | ty::TyInfer(_) | ty::TyParam(..) | ty::TyNever => false, } } fn visit_with>(&self, visitor: &mut V) -> bool { visitor.visit_ty(self) } } impl<'tcx> TypeFoldable<'tcx> for &'tcx ty::BareFnTy<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { let fty = ty::BareFnTy { sig: self.sig.fold_with(folder), abi: self.abi, unsafety: self.unsafety }; folder.tcx().mk_bare_fn(fty) } fn fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { folder.fold_bare_fn_ty(self) } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.sig.visit_with(visitor) } } impl<'tcx> TypeFoldable<'tcx> for ty::ClosureTy<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { ty::ClosureTy { sig: self.sig.fold_with(folder), unsafety: self.unsafety, abi: self.abi, } } fn fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { folder.fold_closure_ty(self) } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.sig.visit_with(visitor) } } impl<'tcx> TypeFoldable<'tcx> for ty::TypeAndMut<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { ty::TypeAndMut { ty: self.ty.fold_with(folder), mutbl: self.mutbl } } fn fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { folder.fold_mt(self) } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.ty.visit_with(visitor) } } impl<'tcx> TypeFoldable<'tcx> for ty::FnSig<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { ty::FnSig { inputs: self.inputs.fold_with(folder), output: self.output.fold_with(folder), variadic: self.variadic } } fn fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { folder.fold_fn_sig(self) } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.inputs.visit_with(visitor) || self.output.visit_with(visitor) } } impl<'tcx> TypeFoldable<'tcx> for ty::TraitRef<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { ty::TraitRef { def_id: self.def_id, substs: self.substs.fold_with(folder), } } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.substs.visit_with(visitor) } } impl<'tcx> TypeFoldable<'tcx> for ty::ExistentialTraitRef<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { ty::ExistentialTraitRef { def_id: self.def_id, substs: self.substs.fold_with(folder), } } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.substs.visit_with(visitor) } } impl<'tcx> TypeFoldable<'tcx> for ty::ImplHeader<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { ty::ImplHeader { impl_def_id: self.impl_def_id, self_ty: self.self_ty.fold_with(folder), trait_ref: self.trait_ref.map(|t| t.fold_with(folder)), predicates: self.predicates.iter().map(|p| p.fold_with(folder)).collect(), } } fn fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { folder.fold_impl_header(self) } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.self_ty.visit_with(visitor) || self.trait_ref.map(|r| r.visit_with(visitor)).unwrap_or(false) || self.predicates.iter().any(|p| p.visit_with(visitor)) } } impl<'tcx> TypeFoldable<'tcx> for &'tcx ty::Region { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, _folder: &mut F) -> Self { *self } fn fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { folder.fold_region(*self) } fn super_visit_with>(&self, _visitor: &mut V) -> bool { false } fn visit_with>(&self, visitor: &mut V) -> bool { visitor.visit_region(*self) } } impl<'tcx> TypeFoldable<'tcx> for ty::ClosureSubsts<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { ty::ClosureSubsts { func_substs: self.func_substs.fold_with(folder), upvar_tys: self.upvar_tys.fold_with(folder), } } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.func_substs.visit_with(visitor) || self.upvar_tys.visit_with(visitor) } } impl<'tcx> TypeFoldable<'tcx> for ty::ItemSubsts<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { ty::ItemSubsts { substs: self.substs.fold_with(folder), } } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.substs.visit_with(visitor) } } impl<'tcx> TypeFoldable<'tcx> for ty::adjustment::AutoRef<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { match *self { ty::adjustment::AutoPtr(ref r, m) => { ty::adjustment::AutoPtr(r.fold_with(folder), m) } ty::adjustment::AutoUnsafe(m) => ty::adjustment::AutoUnsafe(m) } } fn fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { folder.fold_autoref(self) } fn super_visit_with>(&self, visitor: &mut V) -> bool { match *self { ty::adjustment::AutoPtr(r, _m) => r.visit_with(visitor), ty::adjustment::AutoUnsafe(_m) => false, } } } impl<'tcx> TypeFoldable<'tcx> for ty::BuiltinBounds { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, _folder: &mut F) -> Self { *self } fn super_visit_with>(&self, _visitor: &mut V) -> bool { false } } impl<'tcx> TypeFoldable<'tcx> for ty::TypeParameterDef<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { ty::TypeParameterDef { name: self.name, def_id: self.def_id, index: self.index, default: self.default.fold_with(folder), default_def_id: self.default_def_id, object_lifetime_default: self.object_lifetime_default.fold_with(folder), } } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.default.visit_with(visitor) || self.object_lifetime_default.visit_with(visitor) } } impl<'tcx> TypeFoldable<'tcx> for ty::ObjectLifetimeDefault<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { match *self { ty::ObjectLifetimeDefault::Ambiguous => ty::ObjectLifetimeDefault::Ambiguous, ty::ObjectLifetimeDefault::BaseDefault => ty::ObjectLifetimeDefault::BaseDefault, ty::ObjectLifetimeDefault::Specific(r) => ty::ObjectLifetimeDefault::Specific(r.fold_with(folder)), } } fn super_visit_with>(&self, visitor: &mut V) -> bool { match *self { ty::ObjectLifetimeDefault::Specific(r) => r.visit_with(visitor), _ => false, } } } impl<'tcx> TypeFoldable<'tcx> for ty::RegionParameterDef<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { ty::RegionParameterDef { name: self.name, def_id: self.def_id, index: self.index, bounds: self.bounds.fold_with(folder), } } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.bounds.visit_with(visitor) } } impl<'tcx> TypeFoldable<'tcx> for ty::Predicate<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { match *self { ty::Predicate::Trait(ref a) => ty::Predicate::Trait(a.fold_with(folder)), ty::Predicate::Equate(ref binder) => ty::Predicate::Equate(binder.fold_with(folder)), ty::Predicate::RegionOutlives(ref binder) => ty::Predicate::RegionOutlives(binder.fold_with(folder)), ty::Predicate::TypeOutlives(ref binder) => ty::Predicate::TypeOutlives(binder.fold_with(folder)), ty::Predicate::Projection(ref binder) => ty::Predicate::Projection(binder.fold_with(folder)), ty::Predicate::WellFormed(data) => ty::Predicate::WellFormed(data.fold_with(folder)), ty::Predicate::ClosureKind(closure_def_id, kind) => ty::Predicate::ClosureKind(closure_def_id, kind), ty::Predicate::ObjectSafe(trait_def_id) => ty::Predicate::ObjectSafe(trait_def_id), } } fn super_visit_with>(&self, visitor: &mut V) -> bool { match *self { ty::Predicate::Trait(ref a) => a.visit_with(visitor), ty::Predicate::Equate(ref binder) => binder.visit_with(visitor), ty::Predicate::RegionOutlives(ref binder) => binder.visit_with(visitor), ty::Predicate::TypeOutlives(ref binder) => binder.visit_with(visitor), ty::Predicate::Projection(ref binder) => binder.visit_with(visitor), ty::Predicate::WellFormed(data) => data.visit_with(visitor), ty::Predicate::ClosureKind(_closure_def_id, _kind) => false, ty::Predicate::ObjectSafe(_trait_def_id) => false, } } } impl<'tcx> TypeFoldable<'tcx> for ty::ProjectionPredicate<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { ty::ProjectionPredicate { projection_ty: self.projection_ty.fold_with(folder), ty: self.ty.fold_with(folder), } } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.projection_ty.visit_with(visitor) || self.ty.visit_with(visitor) } } impl<'tcx> TypeFoldable<'tcx> for ty::ExistentialProjection<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { ty::ExistentialProjection { trait_ref: self.trait_ref.fold_with(folder), item_name: self.item_name, ty: self.ty.fold_with(folder), } } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.trait_ref.visit_with(visitor) || self.ty.visit_with(visitor) } } impl<'tcx> TypeFoldable<'tcx> for ty::ProjectionTy<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { ty::ProjectionTy { trait_ref: self.trait_ref.fold_with(folder), item_name: self.item_name, } } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.trait_ref.visit_with(visitor) } } impl<'tcx> TypeFoldable<'tcx> for ty::InstantiatedPredicates<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { ty::InstantiatedPredicates { predicates: self.predicates.fold_with(folder), } } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.predicates.visit_with(visitor) } } impl<'tcx> TypeFoldable<'tcx> for ty::EquatePredicate<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { ty::EquatePredicate(self.0.fold_with(folder), self.1.fold_with(folder)) } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.0.visit_with(visitor) || self.1.visit_with(visitor) } } impl<'tcx> TypeFoldable<'tcx> for ty::TraitPredicate<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { ty::TraitPredicate { trait_ref: self.trait_ref.fold_with(folder) } } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.trait_ref.visit_with(visitor) } } impl<'tcx,T,U> TypeFoldable<'tcx> for ty::OutlivesPredicate where T : TypeFoldable<'tcx>, U : TypeFoldable<'tcx>, { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { ty::OutlivesPredicate(self.0.fold_with(folder), self.1.fold_with(folder)) } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.0.visit_with(visitor) || self.1.visit_with(visitor) } } impl<'tcx> TypeFoldable<'tcx> for ty::ClosureUpvar<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { ty::ClosureUpvar { def: self.def, span: self.span, ty: self.ty.fold_with(folder), } } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.ty.visit_with(visitor) } } impl<'tcx> TypeFoldable<'tcx> for ty::ParameterEnvironment<'tcx> { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { ty::ParameterEnvironment { free_substs: self.free_substs.fold_with(folder), implicit_region_bound: self.implicit_region_bound.fold_with(folder), caller_bounds: self.caller_bounds.fold_with(folder), free_id_outlive: self.free_id_outlive, } } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.free_substs.visit_with(visitor) || self.implicit_region_bound.visit_with(visitor) || self.caller_bounds.visit_with(visitor) } } impl<'tcx, T: TypeFoldable<'tcx>> TypeFoldable<'tcx> for ty::error::ExpectedFound { fn super_fold_with<'gcx: 'tcx, F: TypeFolder<'gcx, 'tcx>>(&self, folder: &mut F) -> Self { ty::error::ExpectedFound { expected: self.expected.fold_with(folder), found: self.found.fold_with(folder), } } fn super_visit_with>(&self, visitor: &mut V) -> bool { self.expected.visit_with(visitor) || self.found.visit_with(visitor) } }