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//! HIR walker for walking the contents of nodes.
//!
//! **For an overview of the visitor strategy, see the docs on the
//! `super::itemlikevisit::ItemLikeVisitor` trait.**
//!
//! If you have decided to use this visitor, here are some general
//! notes on how to do so:
//!
//! Each overridden visit method has full control over what
//! happens with its node, it can do its own traversal of the node's children,
//! call `intravisit::walk_*` to apply the default traversal algorithm, or prevent
//! deeper traversal by doing nothing.
//!
//! When visiting the HIR, the contents of nested items are NOT visited
//! by default. This is different from the AST visitor, which does a deep walk.
//! Hence this module is called `intravisit`; see the method `visit_nested_item`
//! for more details.
//!
//! Note: it is an important invariant that the default visitor walks
//! the body of a function in "execution order" - more concretely, if
//! we consider the reverse post-order (RPO) of the CFG implied by the HIR,
//! then a pre-order traversal of the HIR is consistent with the CFG RPO
//! on the *initial CFG point* of each HIR node, while a post-order traversal
//! of the HIR is consistent with the CFG RPO on each *final CFG point* of
//! each CFG node.
//!
//! One thing that follows is that if HIR node A always starts/ends executing
//! before HIR node B, then A appears in traversal pre/postorder before B,
//! respectively. (This follows from RPO respecting CFG domination).
//!
//! This order consistency is required in a few places in rustc, for
//! example generator inference, and possibly also HIR borrowck.

use crate::hir::*;
use crate::hir_id::CRATE_HIR_ID;
use crate::itemlikevisit::{ItemLikeVisitor, ParItemLikeVisitor};
use rustc_ast::walk_list;
use rustc_ast::{Attribute, Label};
use rustc_span::symbol::{Ident, Symbol};
use rustc_span::Span;

pub struct DeepVisitor<'v, V> {
    visitor: &'v mut V,
}

impl<'v, V> DeepVisitor<'v, V> {
    pub fn new(base: &'v mut V) -> Self {
        DeepVisitor { visitor: base }
    }
}

impl<'v, 'hir, V> ItemLikeVisitor<'hir> for DeepVisitor<'v, V>
where
    V: Visitor<'hir>,
{
    fn visit_item(&mut self, item: &'hir Item<'hir>) {
        self.visitor.visit_item(item);
    }

    fn visit_trait_item(&mut self, trait_item: &'hir TraitItem<'hir>) {
        self.visitor.visit_trait_item(trait_item);
    }

    fn visit_impl_item(&mut self, impl_item: &'hir ImplItem<'hir>) {
        self.visitor.visit_impl_item(impl_item);
    }

    fn visit_foreign_item(&mut self, foreign_item: &'hir ForeignItem<'hir>) {
        self.visitor.visit_foreign_item(foreign_item);
    }
}

pub trait IntoVisitor<'hir> {
    type Visitor: Visitor<'hir>;
    fn into_visitor(&self) -> Self::Visitor;
}

pub struct ParDeepVisitor<V>(pub V);

impl<'hir, V> ParItemLikeVisitor<'hir> for ParDeepVisitor<V>
where
    V: IntoVisitor<'hir>,
{
    fn visit_item(&self, item: &'hir Item<'hir>) {
        self.0.into_visitor().visit_item(item);
    }

    fn visit_trait_item(&self, trait_item: &'hir TraitItem<'hir>) {
        self.0.into_visitor().visit_trait_item(trait_item);
    }

    fn visit_impl_item(&self, impl_item: &'hir ImplItem<'hir>) {
        self.0.into_visitor().visit_impl_item(impl_item);
    }

    fn visit_foreign_item(&self, foreign_item: &'hir ForeignItem<'hir>) {
        self.0.into_visitor().visit_foreign_item(foreign_item);
    }
}

#[derive(Copy, Clone, Debug)]
pub enum FnKind<'a> {
    /// `#[xxx] pub async/const/extern "Abi" fn foo()`
    ItemFn(Ident, &'a Generics<'a>, FnHeader, &'a Visibility<'a>),

    /// `fn foo(&self)`
    Method(Ident, &'a FnSig<'a>, Option<&'a Visibility<'a>>),

    /// `|x, y| {}`
    Closure,
}

impl<'a> FnKind<'a> {
    pub fn header(&self) -> Option<&FnHeader> {
        match *self {
            FnKind::ItemFn(_, _, ref header, _) => Some(header),
            FnKind::Method(_, ref sig, _) => Some(&sig.header),
            FnKind::Closure => None,
        }
    }
}

/// An abstract representation of the HIR `rustc_middle::hir::map::Map`.
pub trait Map<'hir> {
    /// Retrieves the `Node` corresponding to `id`, returning `None` if cannot be found.
    fn find(&self, hir_id: HirId) -> Option<Node<'hir>>;
    fn body(&self, id: BodyId) -> &'hir Body<'hir>;
    fn item(&self, id: ItemId) -> &'hir Item<'hir>;
    fn trait_item(&self, id: TraitItemId) -> &'hir TraitItem<'hir>;
    fn impl_item(&self, id: ImplItemId) -> &'hir ImplItem<'hir>;
    fn foreign_item(&self, id: ForeignItemId) -> &'hir ForeignItem<'hir>;
}

/// An erased version of `Map<'hir>`, using dynamic dispatch.
/// NOTE: This type is effectively only usable with `NestedVisitorMap::None`.
pub struct ErasedMap<'hir>(&'hir dyn Map<'hir>);

impl<'hir> Map<'hir> for ErasedMap<'hir> {
    fn find(&self, _: HirId) -> Option<Node<'hir>> {
        None
    }
    fn body(&self, id: BodyId) -> &'hir Body<'hir> {
        self.0.body(id)
    }
    fn item(&self, id: ItemId) -> &'hir Item<'hir> {
        self.0.item(id)
    }
    fn trait_item(&self, id: TraitItemId) -> &'hir TraitItem<'hir> {
        self.0.trait_item(id)
    }
    fn impl_item(&self, id: ImplItemId) -> &'hir ImplItem<'hir> {
        self.0.impl_item(id)
    }
    fn foreign_item(&self, id: ForeignItemId) -> &'hir ForeignItem<'hir> {
        self.0.foreign_item(id)
    }
}

/// Specifies what nested things a visitor wants to visit. The most
/// common choice is `OnlyBodies`, which will cause the visitor to
/// visit fn bodies for fns that it encounters, but skip over nested
/// item-like things.
///
/// See the comments on `ItemLikeVisitor` for more details on the overall
/// visit strategy.
pub enum NestedVisitorMap<M> {
    /// Do not visit any nested things. When you add a new
    /// "non-nested" thing, you will want to audit such uses to see if
    /// they remain valid.
    ///
    /// Use this if you are only walking some particular kind of tree
    /// (i.e., a type, or fn signature) and you don't want to thread a
    /// HIR map around.
    None,

    /// Do not visit nested item-like things, but visit nested things
    /// that are inside of an item-like.
    ///
    /// **This is the most common choice.** A very common pattern is
    /// to use `visit_all_item_likes()` as an outer loop,
    /// and to have the visitor that visits the contents of each item
    /// using this setting.
    OnlyBodies(M),

    /// Visits all nested things, including item-likes.
    ///
    /// **This is an unusual choice.** It is used when you want to
    /// process everything within their lexical context. Typically you
    /// kick off the visit by doing `walk_krate()`.
    All(M),
}

impl<M> NestedVisitorMap<M> {
    /// Returns the map to use for an "intra item-like" thing (if any).
    /// E.g., function body.
    fn intra(self) -> Option<M> {
        match self {
            NestedVisitorMap::None => None,
            NestedVisitorMap::OnlyBodies(map) => Some(map),
            NestedVisitorMap::All(map) => Some(map),
        }
    }

    /// Returns the map to use for an "item-like" thing (if any).
    /// E.g., item, impl-item.
    fn inter(self) -> Option<M> {
        match self {
            NestedVisitorMap::None => None,
            NestedVisitorMap::OnlyBodies(_) => None,
            NestedVisitorMap::All(map) => Some(map),
        }
    }
}

/// Each method of the Visitor trait is a hook to be potentially
/// overridden. Each method's default implementation recursively visits
/// the substructure of the input via the corresponding `walk` method;
/// e.g., the `visit_mod` method by default calls `intravisit::walk_mod`.
///
/// Note that this visitor does NOT visit nested items by default
/// (this is why the module is called `intravisit`, to distinguish it
/// from the AST's `visit` module, which acts differently). If you
/// simply want to visit all items in the crate in some order, you
/// should call `Crate::visit_all_items`. Otherwise, see the comment
/// on `visit_nested_item` for details on how to visit nested items.
///
/// If you want to ensure that your code handles every variant
/// explicitly, you need to override each method. (And you also need
/// to monitor future changes to `Visitor` in case a new method with a
/// new default implementation gets introduced.)
pub trait Visitor<'v>: Sized {
    type Map: Map<'v>;

    ///////////////////////////////////////////////////////////////////////////
    // Nested items.

    /// The default versions of the `visit_nested_XXX` routines invoke
    /// this method to get a map to use. By selecting an enum variant,
    /// you control which kinds of nested HIR are visited; see
    /// `NestedVisitorMap` for details. By "nested HIR", we are
    /// referring to bits of HIR that are not directly embedded within
    /// one another but rather indirectly, through a table in the
    /// crate. This is done to control dependencies during incremental
    /// compilation: the non-inline bits of HIR can be tracked and
    /// hashed separately.
    ///
    /// **If for some reason you want the nested behavior, but don't
    /// have a `Map` at your disposal:** then you should override the
    /// `visit_nested_XXX` methods, and override this method to
    /// `panic!()`. This way, if a new `visit_nested_XXX` variant is
    /// added in the future, we will see the panic in your code and
    /// fix it appropriately.
    fn nested_visit_map(&mut self) -> NestedVisitorMap<Self::Map>;

    /// Invoked when a nested item is encountered. By default does
    /// nothing unless you override `nested_visit_map` to return other than
    /// `None`, in which case it will walk the item. **You probably
    /// don't want to override this method** -- instead, override
    /// `nested_visit_map` or use the "shallow" or "deep" visit
    /// patterns described on `itemlikevisit::ItemLikeVisitor`. The only
    /// reason to override this method is if you want a nested pattern
    /// but cannot supply a `Map`; see `nested_visit_map` for advice.
    fn visit_nested_item(&mut self, id: ItemId) {
        let opt_item = self.nested_visit_map().inter().map(|map| map.item(id));
        walk_list!(self, visit_item, opt_item);
    }

    /// Like `visit_nested_item()`, but for trait items. See
    /// `visit_nested_item()` for advice on when to override this
    /// method.
    fn visit_nested_trait_item(&mut self, id: TraitItemId) {
        let opt_item = self.nested_visit_map().inter().map(|map| map.trait_item(id));
        walk_list!(self, visit_trait_item, opt_item);
    }

    /// Like `visit_nested_item()`, but for impl items. See
    /// `visit_nested_item()` for advice on when to override this
    /// method.
    fn visit_nested_impl_item(&mut self, id: ImplItemId) {
        let opt_item = self.nested_visit_map().inter().map(|map| map.impl_item(id));
        walk_list!(self, visit_impl_item, opt_item);
    }

    /// Like `visit_nested_item()`, but for foreign items. See
    /// `visit_nested_item()` for advice on when to override this
    /// method.
    fn visit_nested_foreign_item(&mut self, id: ForeignItemId) {
        let opt_item = self.nested_visit_map().inter().map(|map| map.foreign_item(id));
        walk_list!(self, visit_foreign_item, opt_item);
    }

    /// Invoked to visit the body of a function, method or closure. Like
    /// visit_nested_item, does nothing by default unless you override
    /// `nested_visit_map` to return other than `None`, in which case it will walk
    /// the body.
    fn visit_nested_body(&mut self, id: BodyId) {
        let opt_body = self.nested_visit_map().intra().map(|map| map.body(id));
        walk_list!(self, visit_body, opt_body);
    }

    fn visit_param(&mut self, param: &'v Param<'v>) {
        walk_param(self, param)
    }

    /// Visits the top-level item and (optionally) nested items / impl items. See
    /// `visit_nested_item` for details.
    fn visit_item(&mut self, i: &'v Item<'v>) {
        walk_item(self, i)
    }

    fn visit_body(&mut self, b: &'v Body<'v>) {
        walk_body(self, b);
    }

    /// When invoking `visit_all_item_likes()`, you need to supply an
    /// item-like visitor. This method converts an "intra-visit"
    /// visitor into an item-like visitor that walks the entire tree.
    /// If you use this, you probably don't want to process the
    /// contents of nested item-like things, since the outer loop will
    /// visit them as well.
    fn as_deep_visitor(&mut self) -> DeepVisitor<'_, Self> {
        DeepVisitor::new(self)
    }

    ///////////////////////////////////////////////////////////////////////////

    fn visit_id(&mut self, _hir_id: HirId) {
        // Nothing to do.
    }
    fn visit_name(&mut self, _span: Span, _name: Symbol) {
        // Nothing to do.
    }
    fn visit_ident(&mut self, ident: Ident) {
        walk_ident(self, ident)
    }
    fn visit_mod(&mut self, m: &'v Mod<'v>, _s: Span, n: HirId) {
        walk_mod(self, m, n)
    }
    fn visit_foreign_item(&mut self, i: &'v ForeignItem<'v>) {
        walk_foreign_item(self, i)
    }
    fn visit_local(&mut self, l: &'v Local<'v>) {
        walk_local(self, l)
    }
    fn visit_block(&mut self, b: &'v Block<'v>) {
        walk_block(self, b)
    }
    fn visit_stmt(&mut self, s: &'v Stmt<'v>) {
        walk_stmt(self, s)
    }
    fn visit_arm(&mut self, a: &'v Arm<'v>) {
        walk_arm(self, a)
    }
    fn visit_pat(&mut self, p: &'v Pat<'v>) {
        walk_pat(self, p)
    }
    fn visit_anon_const(&mut self, c: &'v AnonConst) {
        walk_anon_const(self, c)
    }
    fn visit_expr(&mut self, ex: &'v Expr<'v>) {
        walk_expr(self, ex)
    }
    fn visit_ty(&mut self, t: &'v Ty<'v>) {
        walk_ty(self, t)
    }
    fn visit_generic_param(&mut self, p: &'v GenericParam<'v>) {
        walk_generic_param(self, p)
    }
    fn visit_const_param_default(&mut self, _param: HirId, ct: &'v AnonConst) {
        walk_const_param_default(self, ct)
    }
    fn visit_generics(&mut self, g: &'v Generics<'v>) {
        walk_generics(self, g)
    }
    fn visit_where_predicate(&mut self, predicate: &'v WherePredicate<'v>) {
        walk_where_predicate(self, predicate)
    }
    fn visit_fn_decl(&mut self, fd: &'v FnDecl<'v>) {
        walk_fn_decl(self, fd)
    }
    fn visit_fn(&mut self, fk: FnKind<'v>, fd: &'v FnDecl<'v>, b: BodyId, s: Span, id: HirId) {
        walk_fn(self, fk, fd, b, s, id)
    }
    fn visit_use(&mut self, path: &'v Path<'v>, hir_id: HirId) {
        walk_use(self, path, hir_id)
    }
    fn visit_trait_item(&mut self, ti: &'v TraitItem<'v>) {
        walk_trait_item(self, ti)
    }
    fn visit_trait_item_ref(&mut self, ii: &'v TraitItemRef) {
        walk_trait_item_ref(self, ii)
    }
    fn visit_impl_item(&mut self, ii: &'v ImplItem<'v>) {
        walk_impl_item(self, ii)
    }
    fn visit_foreign_item_ref(&mut self, ii: &'v ForeignItemRef<'v>) {
        walk_foreign_item_ref(self, ii)
    }
    fn visit_impl_item_ref(&mut self, ii: &'v ImplItemRef<'v>) {
        walk_impl_item_ref(self, ii)
    }
    fn visit_trait_ref(&mut self, t: &'v TraitRef<'v>) {
        walk_trait_ref(self, t)
    }
    fn visit_param_bound(&mut self, bounds: &'v GenericBound<'v>) {
        walk_param_bound(self, bounds)
    }
    fn visit_poly_trait_ref(&mut self, t: &'v PolyTraitRef<'v>, m: TraitBoundModifier) {
        walk_poly_trait_ref(self, t, m)
    }
    fn visit_variant_data(
        &mut self,
        s: &'v VariantData<'v>,
        _: Symbol,
        _: &'v Generics<'v>,
        _parent_id: HirId,
        _: Span,
    ) {
        walk_struct_def(self, s)
    }
    fn visit_field_def(&mut self, s: &'v FieldDef<'v>) {
        walk_field_def(self, s)
    }
    fn visit_enum_def(
        &mut self,
        enum_definition: &'v EnumDef<'v>,
        generics: &'v Generics<'v>,
        item_id: HirId,
        _: Span,
    ) {
        walk_enum_def(self, enum_definition, generics, item_id)
    }
    fn visit_variant(&mut self, v: &'v Variant<'v>, g: &'v Generics<'v>, item_id: HirId) {
        walk_variant(self, v, g, item_id)
    }
    fn visit_label(&mut self, label: &'v Label) {
        walk_label(self, label)
    }
    fn visit_infer(&mut self, inf: &'v InferArg) {
        walk_inf(self, inf);
    }
    fn visit_generic_arg(&mut self, generic_arg: &'v GenericArg<'v>) {
        match generic_arg {
            GenericArg::Lifetime(lt) => self.visit_lifetime(lt),
            GenericArg::Type(ty) => self.visit_ty(ty),
            GenericArg::Const(ct) => self.visit_anon_const(&ct.value),
            GenericArg::Infer(inf) => self.visit_infer(inf),
        }
    }
    fn visit_lifetime(&mut self, lifetime: &'v Lifetime) {
        walk_lifetime(self, lifetime)
    }
    fn visit_qpath(&mut self, qpath: &'v QPath<'v>, id: HirId, span: Span) {
        walk_qpath(self, qpath, id, span)
    }
    fn visit_path(&mut self, path: &'v Path<'v>, _id: HirId) {
        walk_path(self, path)
    }
    fn visit_path_segment(&mut self, path_span: Span, path_segment: &'v PathSegment<'v>) {
        walk_path_segment(self, path_span, path_segment)
    }
    fn visit_generic_args(&mut self, path_span: Span, generic_args: &'v GenericArgs<'v>) {
        walk_generic_args(self, path_span, generic_args)
    }
    fn visit_assoc_type_binding(&mut self, type_binding: &'v TypeBinding<'v>) {
        walk_assoc_type_binding(self, type_binding)
    }
    fn visit_attribute(&mut self, _id: HirId, _attr: &'v Attribute) {}
    fn visit_vis(&mut self, vis: &'v Visibility<'v>) {
        walk_vis(self, vis)
    }
    fn visit_associated_item_kind(&mut self, kind: &'v AssocItemKind) {
        walk_associated_item_kind(self, kind);
    }
    fn visit_defaultness(&mut self, defaultness: &'v Defaultness) {
        walk_defaultness(self, defaultness);
    }
}

/// Walks the contents of a crate. See also `Crate::visit_all_items`.
pub fn walk_crate<'v, V: Visitor<'v>>(visitor: &mut V, krate: &'v Crate<'v>) {
    let top_mod = krate.module();
    visitor.visit_mod(top_mod, top_mod.inner, CRATE_HIR_ID);
    for (&id, attrs) in krate.attrs.iter() {
        for a in *attrs {
            visitor.visit_attribute(id, a)
        }
    }
}

pub fn walk_mod<'v, V: Visitor<'v>>(visitor: &mut V, module: &'v Mod<'v>, mod_hir_id: HirId) {
    visitor.visit_id(mod_hir_id);
    for &item_id in module.item_ids {
        visitor.visit_nested_item(item_id);
    }
}

pub fn walk_body<'v, V: Visitor<'v>>(visitor: &mut V, body: &'v Body<'v>) {
    walk_list!(visitor, visit_param, body.params);
    visitor.visit_expr(&body.value);
}

pub fn walk_local<'v, V: Visitor<'v>>(visitor: &mut V, local: &'v Local<'v>) {
    // Intentionally visiting the expr first - the initialization expr
    // dominates the local's definition.
    walk_list!(visitor, visit_expr, &local.init);
    visitor.visit_id(local.hir_id);
    visitor.visit_pat(&local.pat);
    walk_list!(visitor, visit_ty, &local.ty);
}

pub fn walk_ident<'v, V: Visitor<'v>>(visitor: &mut V, ident: Ident) {
    visitor.visit_name(ident.span, ident.name);
}

pub fn walk_label<'v, V: Visitor<'v>>(visitor: &mut V, label: &'v Label) {
    visitor.visit_ident(label.ident);
}

pub fn walk_lifetime<'v, V: Visitor<'v>>(visitor: &mut V, lifetime: &'v Lifetime) {
    visitor.visit_id(lifetime.hir_id);
    match lifetime.name {
        LifetimeName::Param(ParamName::Plain(ident)) => {
            visitor.visit_ident(ident);
        }
        LifetimeName::Param(ParamName::Fresh(_))
        | LifetimeName::Param(ParamName::Error)
        | LifetimeName::Static
        | LifetimeName::Error
        | LifetimeName::Implicit
        | LifetimeName::ImplicitObjectLifetimeDefault
        | LifetimeName::Underscore => {}
    }
}

pub fn walk_poly_trait_ref<'v, V: Visitor<'v>>(
    visitor: &mut V,
    trait_ref: &'v PolyTraitRef<'v>,
    _modifier: TraitBoundModifier,
) {
    walk_list!(visitor, visit_generic_param, trait_ref.bound_generic_params);
    visitor.visit_trait_ref(&trait_ref.trait_ref);
}

pub fn walk_trait_ref<'v, V: Visitor<'v>>(visitor: &mut V, trait_ref: &'v TraitRef<'v>) {
    visitor.visit_id(trait_ref.hir_ref_id);
    visitor.visit_path(&trait_ref.path, trait_ref.hir_ref_id)
}

pub fn walk_param<'v, V: Visitor<'v>>(visitor: &mut V, param: &'v Param<'v>) {
    visitor.visit_id(param.hir_id);
    visitor.visit_pat(&param.pat);
}

pub fn walk_item<'v, V: Visitor<'v>>(visitor: &mut V, item: &'v Item<'v>) {
    visitor.visit_vis(&item.vis);
    visitor.visit_ident(item.ident);
    match item.kind {
        ItemKind::ExternCrate(orig_name) => {
            visitor.visit_id(item.hir_id());
            if let Some(orig_name) = orig_name {
                visitor.visit_name(item.span, orig_name);
            }
        }
        ItemKind::Use(ref path, _) => {
            visitor.visit_use(path, item.hir_id());
        }
        ItemKind::Static(ref typ, _, body) | ItemKind::Const(ref typ, body) => {
            visitor.visit_id(item.hir_id());
            visitor.visit_ty(typ);
            visitor.visit_nested_body(body);
        }
        ItemKind::Fn(ref sig, ref generics, body_id) => visitor.visit_fn(
            FnKind::ItemFn(item.ident, generics, sig.header, &item.vis),
            &sig.decl,
            body_id,
            item.span,
            item.hir_id(),
        ),
        ItemKind::Macro(_) => {
            visitor.visit_id(item.hir_id());
        }
        ItemKind::Mod(ref module) => {
            // `visit_mod()` takes care of visiting the `Item`'s `HirId`.
            visitor.visit_mod(module, item.span, item.hir_id())
        }
        ItemKind::ForeignMod { abi: _, items } => {
            visitor.visit_id(item.hir_id());
            walk_list!(visitor, visit_foreign_item_ref, items);
        }
        ItemKind::GlobalAsm(asm) => {
            visitor.visit_id(item.hir_id());
            walk_inline_asm(visitor, asm);
        }
        ItemKind::TyAlias(ref ty, ref generics) => {
            visitor.visit_id(item.hir_id());
            visitor.visit_ty(ty);
            visitor.visit_generics(generics)
        }
        ItemKind::OpaqueTy(OpaqueTy { ref generics, bounds, .. }) => {
            visitor.visit_id(item.hir_id());
            walk_generics(visitor, generics);
            walk_list!(visitor, visit_param_bound, bounds);
        }
        ItemKind::Enum(ref enum_definition, ref generics) => {
            visitor.visit_generics(generics);
            // `visit_enum_def()` takes care of visiting the `Item`'s `HirId`.
            visitor.visit_enum_def(enum_definition, generics, item.hir_id(), item.span)
        }
        ItemKind::Impl(Impl {
            unsafety: _,
            defaultness: _,
            polarity: _,
            constness: _,
            defaultness_span: _,
            ref generics,
            ref of_trait,
            ref self_ty,
            items,
        }) => {
            visitor.visit_id(item.hir_id());
            visitor.visit_generics(generics);
            walk_list!(visitor, visit_trait_ref, of_trait);
            visitor.visit_ty(self_ty);
            walk_list!(visitor, visit_impl_item_ref, items);
        }
        ItemKind::Struct(ref struct_definition, ref generics)
        | ItemKind::Union(ref struct_definition, ref generics) => {
            visitor.visit_generics(generics);
            visitor.visit_id(item.hir_id());
            visitor.visit_variant_data(
                struct_definition,
                item.ident.name,
                generics,
                item.hir_id(),
                item.span,
            );
        }
        ItemKind::Trait(.., ref generics, bounds, trait_item_refs) => {
            visitor.visit_id(item.hir_id());
            visitor.visit_generics(generics);
            walk_list!(visitor, visit_param_bound, bounds);
            walk_list!(visitor, visit_trait_item_ref, trait_item_refs);
        }
        ItemKind::TraitAlias(ref generics, bounds) => {
            visitor.visit_id(item.hir_id());
            visitor.visit_generics(generics);
            walk_list!(visitor, visit_param_bound, bounds);
        }
    }
}

fn walk_inline_asm<'v, V: Visitor<'v>>(visitor: &mut V, asm: &'v InlineAsm<'v>) {
    for (op, _op_sp) in asm.operands {
        match op {
            InlineAsmOperand::In { expr, .. }
            | InlineAsmOperand::InOut { expr, .. }
            | InlineAsmOperand::Sym { expr, .. } => visitor.visit_expr(expr),
            InlineAsmOperand::Out { expr, .. } => {
                if let Some(expr) = expr {
                    visitor.visit_expr(expr);
                }
            }
            InlineAsmOperand::SplitInOut { in_expr, out_expr, .. } => {
                visitor.visit_expr(in_expr);
                if let Some(out_expr) = out_expr {
                    visitor.visit_expr(out_expr);
                }
            }
            InlineAsmOperand::Const { anon_const } => visitor.visit_anon_const(anon_const),
        }
    }
}

pub fn walk_use<'v, V: Visitor<'v>>(visitor: &mut V, path: &'v Path<'v>, hir_id: HirId) {
    visitor.visit_id(hir_id);
    visitor.visit_path(path, hir_id);
}

pub fn walk_enum_def<'v, V: Visitor<'v>>(
    visitor: &mut V,
    enum_definition: &'v EnumDef<'v>,
    generics: &'v Generics<'v>,
    item_id: HirId,
) {
    visitor.visit_id(item_id);
    walk_list!(visitor, visit_variant, enum_definition.variants, generics, item_id);
}

pub fn walk_variant<'v, V: Visitor<'v>>(
    visitor: &mut V,
    variant: &'v Variant<'v>,
    generics: &'v Generics<'v>,
    parent_item_id: HirId,
) {
    visitor.visit_ident(variant.ident);
    visitor.visit_id(variant.id);
    visitor.visit_variant_data(
        &variant.data,
        variant.ident.name,
        generics,
        parent_item_id,
        variant.span,
    );
    walk_list!(visitor, visit_anon_const, &variant.disr_expr);
}

pub fn walk_ty<'v, V: Visitor<'v>>(visitor: &mut V, typ: &'v Ty<'v>) {
    visitor.visit_id(typ.hir_id);

    match typ.kind {
        TyKind::Slice(ref ty) => visitor.visit_ty(ty),
        TyKind::Ptr(ref mutable_type) => visitor.visit_ty(&mutable_type.ty),
        TyKind::Rptr(ref lifetime, ref mutable_type) => {
            visitor.visit_lifetime(lifetime);
            visitor.visit_ty(&mutable_type.ty)
        }
        TyKind::Never => {}
        TyKind::Tup(tuple_element_types) => {
            walk_list!(visitor, visit_ty, tuple_element_types);
        }
        TyKind::BareFn(ref function_declaration) => {
            walk_list!(visitor, visit_generic_param, function_declaration.generic_params);
            visitor.visit_fn_decl(&function_declaration.decl);
        }
        TyKind::Path(ref qpath) => {
            visitor.visit_qpath(qpath, typ.hir_id, typ.span);
        }
        TyKind::OpaqueDef(item_id, lifetimes) => {
            visitor.visit_nested_item(item_id);
            walk_list!(visitor, visit_generic_arg, lifetimes);
        }
        TyKind::Array(ref ty, ref length) => {
            visitor.visit_ty(ty);
            visitor.visit_anon_const(length)
        }
        TyKind::TraitObject(bounds, ref lifetime, _syntax) => {
            for bound in bounds {
                visitor.visit_poly_trait_ref(bound, TraitBoundModifier::None);
            }
            visitor.visit_lifetime(lifetime);
        }
        TyKind::Typeof(ref expression) => visitor.visit_anon_const(expression),
        TyKind::Infer | TyKind::Err => {}
    }
}

pub fn walk_inf<'v, V: Visitor<'v>>(visitor: &mut V, inf: &'v InferArg) {
    visitor.visit_id(inf.hir_id);
}

pub fn walk_qpath<'v, V: Visitor<'v>>(
    visitor: &mut V,
    qpath: &'v QPath<'v>,
    id: HirId,
    span: Span,
) {
    match *qpath {
        QPath::Resolved(ref maybe_qself, ref path) => {
            walk_list!(visitor, visit_ty, maybe_qself);
            visitor.visit_path(path, id)
        }
        QPath::TypeRelative(ref qself, ref segment) => {
            visitor.visit_ty(qself);
            visitor.visit_path_segment(span, segment);
        }
        QPath::LangItem(..) => {}
    }
}

pub fn walk_path<'v, V: Visitor<'v>>(visitor: &mut V, path: &'v Path<'v>) {
    for segment in path.segments {
        visitor.visit_path_segment(path.span, segment);
    }
}

pub fn walk_path_segment<'v, V: Visitor<'v>>(
    visitor: &mut V,
    path_span: Span,
    segment: &'v PathSegment<'v>,
) {
    visitor.visit_ident(segment.ident);
    walk_list!(visitor, visit_id, segment.hir_id);
    if let Some(ref args) = segment.args {
        visitor.visit_generic_args(path_span, args);
    }
}

pub fn walk_generic_args<'v, V: Visitor<'v>>(
    visitor: &mut V,
    _path_span: Span,
    generic_args: &'v GenericArgs<'v>,
) {
    walk_list!(visitor, visit_generic_arg, generic_args.args);
    walk_list!(visitor, visit_assoc_type_binding, generic_args.bindings);
}

pub fn walk_assoc_type_binding<'v, V: Visitor<'v>>(
    visitor: &mut V,
    type_binding: &'v TypeBinding<'v>,
) {
    visitor.visit_id(type_binding.hir_id);
    visitor.visit_ident(type_binding.ident);
    visitor.visit_generic_args(type_binding.span, type_binding.gen_args);
    match type_binding.kind {
        TypeBindingKind::Equality { ref ty } => {
            visitor.visit_ty(ty);
        }
        TypeBindingKind::Constraint { bounds } => {
            walk_list!(visitor, visit_param_bound, bounds);
        }
    }
}

pub fn walk_pat<'v, V: Visitor<'v>>(visitor: &mut V, pattern: &'v Pat<'v>) {
    visitor.visit_id(pattern.hir_id);
    match pattern.kind {
        PatKind::TupleStruct(ref qpath, children, _) => {
            visitor.visit_qpath(qpath, pattern.hir_id, pattern.span);
            walk_list!(visitor, visit_pat, children);
        }
        PatKind::Path(ref qpath) => {
            visitor.visit_qpath(qpath, pattern.hir_id, pattern.span);
        }
        PatKind::Struct(ref qpath, fields, _) => {
            visitor.visit_qpath(qpath, pattern.hir_id, pattern.span);
            for field in fields {
                visitor.visit_id(field.hir_id);
                visitor.visit_ident(field.ident);
                visitor.visit_pat(&field.pat)
            }
        }
        PatKind::Or(pats) => walk_list!(visitor, visit_pat, pats),
        PatKind::Tuple(tuple_elements, _) => {
            walk_list!(visitor, visit_pat, tuple_elements);
        }
        PatKind::Box(ref subpattern) | PatKind::Ref(ref subpattern, _) => {
            visitor.visit_pat(subpattern)
        }
        PatKind::Binding(_, _hir_id, ident, ref optional_subpattern) => {
            visitor.visit_ident(ident);
            walk_list!(visitor, visit_pat, optional_subpattern);
        }
        PatKind::Lit(ref expression) => visitor.visit_expr(expression),
        PatKind::Range(ref lower_bound, ref upper_bound, _) => {
            walk_list!(visitor, visit_expr, lower_bound);
            walk_list!(visitor, visit_expr, upper_bound);
        }
        PatKind::Wild => (),
        PatKind::Slice(prepatterns, ref slice_pattern, postpatterns) => {
            walk_list!(visitor, visit_pat, prepatterns);
            walk_list!(visitor, visit_pat, slice_pattern);
            walk_list!(visitor, visit_pat, postpatterns);
        }
    }
}

pub fn walk_foreign_item<'v, V: Visitor<'v>>(visitor: &mut V, foreign_item: &'v ForeignItem<'v>) {
    visitor.visit_id(foreign_item.hir_id());
    visitor.visit_vis(&foreign_item.vis);
    visitor.visit_ident(foreign_item.ident);

    match foreign_item.kind {
        ForeignItemKind::Fn(ref function_declaration, param_names, ref generics) => {
            visitor.visit_generics(generics);
            visitor.visit_fn_decl(function_declaration);
            for &param_name in param_names {
                visitor.visit_ident(param_name);
            }
        }
        ForeignItemKind::Static(ref typ, _) => visitor.visit_ty(typ),
        ForeignItemKind::Type => (),
    }
}

pub fn walk_param_bound<'v, V: Visitor<'v>>(visitor: &mut V, bound: &'v GenericBound<'v>) {
    match *bound {
        GenericBound::Trait(ref typ, modifier) => {
            visitor.visit_poly_trait_ref(typ, modifier);
        }
        GenericBound::LangItemTrait(_, span, hir_id, args) => {
            visitor.visit_id(hir_id);
            visitor.visit_generic_args(span, args);
        }
        GenericBound::Outlives(ref lifetime) => visitor.visit_lifetime(lifetime),
        GenericBound::Unsized(_) => {}
    }
}

pub fn walk_generic_param<'v, V: Visitor<'v>>(visitor: &mut V, param: &'v GenericParam<'v>) {
    visitor.visit_id(param.hir_id);
    match param.name {
        ParamName::Plain(ident) => visitor.visit_ident(ident),
        ParamName::Error | ParamName::Fresh(_) => {}
    }
    match param.kind {
        GenericParamKind::Lifetime { .. } => {}
        GenericParamKind::Type { ref default, .. } => walk_list!(visitor, visit_ty, default),
        GenericParamKind::Const { ref ty, ref default } => {
            visitor.visit_ty(ty);
            if let Some(ref default) = default {
                visitor.visit_const_param_default(param.hir_id, default);
            }
        }
    }
    walk_list!(visitor, visit_param_bound, param.bounds);
}

pub fn walk_const_param_default<'v, V: Visitor<'v>>(visitor: &mut V, ct: &'v AnonConst) {
    visitor.visit_anon_const(ct)
}

pub fn walk_generics<'v, V: Visitor<'v>>(visitor: &mut V, generics: &'v Generics<'v>) {
    walk_list!(visitor, visit_generic_param, generics.params);
    walk_list!(visitor, visit_where_predicate, generics.where_clause.predicates);
}

pub fn walk_where_predicate<'v, V: Visitor<'v>>(
    visitor: &mut V,
    predicate: &'v WherePredicate<'v>,
) {
    match *predicate {
        WherePredicate::BoundPredicate(WhereBoundPredicate {
            ref bounded_ty,
            bounds,
            bound_generic_params,
            ..
        }) => {
            visitor.visit_ty(bounded_ty);
            walk_list!(visitor, visit_param_bound, bounds);
            walk_list!(visitor, visit_generic_param, bound_generic_params);
        }
        WherePredicate::RegionPredicate(WhereRegionPredicate { ref lifetime, bounds, .. }) => {
            visitor.visit_lifetime(lifetime);
            walk_list!(visitor, visit_param_bound, bounds);
        }
        WherePredicate::EqPredicate(WhereEqPredicate {
            hir_id, ref lhs_ty, ref rhs_ty, ..
        }) => {
            visitor.visit_id(hir_id);
            visitor.visit_ty(lhs_ty);
            visitor.visit_ty(rhs_ty);
        }
    }
}

pub fn walk_fn_ret_ty<'v, V: Visitor<'v>>(visitor: &mut V, ret_ty: &'v FnRetTy<'v>) {
    if let FnRetTy::Return(ref output_ty) = *ret_ty {
        visitor.visit_ty(output_ty)
    }
}

pub fn walk_fn_decl<'v, V: Visitor<'v>>(visitor: &mut V, function_declaration: &'v FnDecl<'v>) {
    for ty in function_declaration.inputs {
        visitor.visit_ty(ty)
    }
    walk_fn_ret_ty(visitor, &function_declaration.output)
}

pub fn walk_fn_kind<'v, V: Visitor<'v>>(visitor: &mut V, function_kind: FnKind<'v>) {
    match function_kind {
        FnKind::ItemFn(_, generics, ..) => {
            visitor.visit_generics(generics);
        }
        FnKind::Method(..) | FnKind::Closure => {}
    }
}

pub fn walk_fn<'v, V: Visitor<'v>>(
    visitor: &mut V,
    function_kind: FnKind<'v>,
    function_declaration: &'v FnDecl<'v>,
    body_id: BodyId,
    _span: Span,
    id: HirId,
) {
    visitor.visit_id(id);
    visitor.visit_fn_decl(function_declaration);
    walk_fn_kind(visitor, function_kind);
    visitor.visit_nested_body(body_id)
}

pub fn walk_trait_item<'v, V: Visitor<'v>>(visitor: &mut V, trait_item: &'v TraitItem<'v>) {
    visitor.visit_ident(trait_item.ident);
    visitor.visit_generics(&trait_item.generics);
    match trait_item.kind {
        TraitItemKind::Const(ref ty, default) => {
            visitor.visit_id(trait_item.hir_id());
            visitor.visit_ty(ty);
            walk_list!(visitor, visit_nested_body, default);
        }
        TraitItemKind::Fn(ref sig, TraitFn::Required(param_names)) => {
            visitor.visit_id(trait_item.hir_id());
            visitor.visit_fn_decl(&sig.decl);
            for &param_name in param_names {
                visitor.visit_ident(param_name);
            }
        }
        TraitItemKind::Fn(ref sig, TraitFn::Provided(body_id)) => {
            visitor.visit_fn(
                FnKind::Method(trait_item.ident, sig, None),
                &sig.decl,
                body_id,
                trait_item.span,
                trait_item.hir_id(),
            );
        }
        TraitItemKind::Type(bounds, ref default) => {
            visitor.visit_id(trait_item.hir_id());
            walk_list!(visitor, visit_param_bound, bounds);
            walk_list!(visitor, visit_ty, default);
        }
    }
}

pub fn walk_trait_item_ref<'v, V: Visitor<'v>>(visitor: &mut V, trait_item_ref: &'v TraitItemRef) {
    // N.B., deliberately force a compilation error if/when new fields are added.
    let TraitItemRef { id, ident, ref kind, span: _, ref defaultness } = *trait_item_ref;
    visitor.visit_nested_trait_item(id);
    visitor.visit_ident(ident);
    visitor.visit_associated_item_kind(kind);
    visitor.visit_defaultness(defaultness);
}

pub fn walk_impl_item<'v, V: Visitor<'v>>(visitor: &mut V, impl_item: &'v ImplItem<'v>) {
    // N.B., deliberately force a compilation error if/when new fields are added.
    let ImplItem { def_id: _, ident, ref vis, ref defaultness, ref generics, ref kind, span: _ } =
        *impl_item;

    visitor.visit_ident(ident);
    visitor.visit_vis(vis);
    visitor.visit_defaultness(defaultness);
    visitor.visit_generics(generics);
    match *kind {
        ImplItemKind::Const(ref ty, body) => {
            visitor.visit_id(impl_item.hir_id());
            visitor.visit_ty(ty);
            visitor.visit_nested_body(body);
        }
        ImplItemKind::Fn(ref sig, body_id) => {
            visitor.visit_fn(
                FnKind::Method(impl_item.ident, sig, Some(&impl_item.vis)),
                &sig.decl,
                body_id,
                impl_item.span,
                impl_item.hir_id(),
            );
        }
        ImplItemKind::TyAlias(ref ty) => {
            visitor.visit_id(impl_item.hir_id());
            visitor.visit_ty(ty);
        }
    }
}

pub fn walk_foreign_item_ref<'v, V: Visitor<'v>>(
    visitor: &mut V,
    foreign_item_ref: &'v ForeignItemRef<'v>,
) {
    // N.B., deliberately force a compilation error if/when new fields are added.
    let ForeignItemRef { id, ident, span: _, ref vis } = *foreign_item_ref;
    visitor.visit_nested_foreign_item(id);
    visitor.visit_ident(ident);
    visitor.visit_vis(vis);
}

pub fn walk_impl_item_ref<'v, V: Visitor<'v>>(visitor: &mut V, impl_item_ref: &'v ImplItemRef<'v>) {
    // N.B., deliberately force a compilation error if/when new fields are added.
    let ImplItemRef { id, ident, ref kind, span: _, ref vis, ref defaultness } = *impl_item_ref;
    visitor.visit_nested_impl_item(id);
    visitor.visit_ident(ident);
    visitor.visit_associated_item_kind(kind);
    visitor.visit_vis(vis);
    visitor.visit_defaultness(defaultness);
}

pub fn walk_struct_def<'v, V: Visitor<'v>>(
    visitor: &mut V,
    struct_definition: &'v VariantData<'v>,
) {
    walk_list!(visitor, visit_id, struct_definition.ctor_hir_id());
    walk_list!(visitor, visit_field_def, struct_definition.fields());
}

pub fn walk_field_def<'v, V: Visitor<'v>>(visitor: &mut V, field: &'v FieldDef<'v>) {
    visitor.visit_id(field.hir_id);
    visitor.visit_vis(&field.vis);
    visitor.visit_ident(field.ident);
    visitor.visit_ty(&field.ty);
}

pub fn walk_block<'v, V: Visitor<'v>>(visitor: &mut V, block: &'v Block<'v>) {
    visitor.visit_id(block.hir_id);
    walk_list!(visitor, visit_stmt, block.stmts);
    walk_list!(visitor, visit_expr, &block.expr);
}

pub fn walk_stmt<'v, V: Visitor<'v>>(visitor: &mut V, statement: &'v Stmt<'v>) {
    visitor.visit_id(statement.hir_id);
    match statement.kind {
        StmtKind::Local(ref local) => visitor.visit_local(local),
        StmtKind::Item(item) => visitor.visit_nested_item(item),
        StmtKind::Expr(ref expression) | StmtKind::Semi(ref expression) => {
            visitor.visit_expr(expression)
        }
    }
}

pub fn walk_anon_const<'v, V: Visitor<'v>>(visitor: &mut V, constant: &'v AnonConst) {
    visitor.visit_id(constant.hir_id);
    visitor.visit_nested_body(constant.body);
}

pub fn walk_expr<'v, V: Visitor<'v>>(visitor: &mut V, expression: &'v Expr<'v>) {
    visitor.visit_id(expression.hir_id);
    match expression.kind {
        ExprKind::Box(ref subexpression) => visitor.visit_expr(subexpression),
        ExprKind::Array(subexpressions) => {
            walk_list!(visitor, visit_expr, subexpressions);
        }
        ExprKind::ConstBlock(ref anon_const) => visitor.visit_anon_const(anon_const),
        ExprKind::Repeat(ref element, ref count) => {
            visitor.visit_expr(element);
            visitor.visit_anon_const(count)
        }
        ExprKind::Struct(ref qpath, fields, ref optional_base) => {
            visitor.visit_qpath(qpath, expression.hir_id, expression.span);
            for field in fields {
                visitor.visit_id(field.hir_id);
                visitor.visit_ident(field.ident);
                visitor.visit_expr(&field.expr)
            }
            walk_list!(visitor, visit_expr, optional_base);
        }
        ExprKind::Tup(subexpressions) => {
            walk_list!(visitor, visit_expr, subexpressions);
        }
        ExprKind::Call(ref callee_expression, arguments) => {
            visitor.visit_expr(callee_expression);
            walk_list!(visitor, visit_expr, arguments);
        }
        ExprKind::MethodCall(ref segment, _, arguments, _) => {
            visitor.visit_path_segment(expression.span, segment);
            walk_list!(visitor, visit_expr, arguments);
        }
        ExprKind::Binary(_, ref left_expression, ref right_expression) => {
            visitor.visit_expr(left_expression);
            visitor.visit_expr(right_expression)
        }
        ExprKind::AddrOf(_, _, ref subexpression) | ExprKind::Unary(_, ref subexpression) => {
            visitor.visit_expr(subexpression)
        }
        ExprKind::Cast(ref subexpression, ref typ) | ExprKind::Type(ref subexpression, ref typ) => {
            visitor.visit_expr(subexpression);
            visitor.visit_ty(typ)
        }
        ExprKind::DropTemps(ref subexpression) => {
            visitor.visit_expr(subexpression);
        }
        ExprKind::Let(ref pat, ref expr, _) => {
            visitor.visit_expr(expr);
            visitor.visit_pat(pat);
        }
        ExprKind::If(ref cond, ref then, ref else_opt) => {
            visitor.visit_expr(cond);
            visitor.visit_expr(then);
            walk_list!(visitor, visit_expr, else_opt);
        }
        ExprKind::Loop(ref block, ref opt_label, _, _) => {
            walk_list!(visitor, visit_label, opt_label);
            visitor.visit_block(block);
        }
        ExprKind::Match(ref subexpression, arms, _) => {
            visitor.visit_expr(subexpression);
            walk_list!(visitor, visit_arm, arms);
        }
        ExprKind::Closure(_, ref function_declaration, body, _fn_decl_span, _gen) => visitor
            .visit_fn(
                FnKind::Closure,
                function_declaration,
                body,
                expression.span,
                expression.hir_id,
            ),
        ExprKind::Block(ref block, ref opt_label) => {
            walk_list!(visitor, visit_label, opt_label);
            visitor.visit_block(block);
        }
        ExprKind::Assign(ref lhs, ref rhs, _) => {
            visitor.visit_expr(rhs);
            visitor.visit_expr(lhs)
        }
        ExprKind::AssignOp(_, ref left_expression, ref right_expression) => {
            visitor.visit_expr(right_expression);
            visitor.visit_expr(left_expression);
        }
        ExprKind::Field(ref subexpression, ident) => {
            visitor.visit_expr(subexpression);
            visitor.visit_ident(ident);
        }
        ExprKind::Index(ref main_expression, ref index_expression) => {
            visitor.visit_expr(main_expression);
            visitor.visit_expr(index_expression)
        }
        ExprKind::Path(ref qpath) => {
            visitor.visit_qpath(qpath, expression.hir_id, expression.span);
        }
        ExprKind::Break(ref destination, ref opt_expr) => {
            walk_list!(visitor, visit_label, &destination.label);
            walk_list!(visitor, visit_expr, opt_expr);
        }
        ExprKind::Continue(ref destination) => {
            walk_list!(visitor, visit_label, &destination.label);
        }
        ExprKind::Ret(ref optional_expression) => {
            walk_list!(visitor, visit_expr, optional_expression);
        }
        ExprKind::InlineAsm(ref asm) => {
            walk_inline_asm(visitor, asm);
        }
        ExprKind::LlvmInlineAsm(ref asm) => {
            walk_list!(visitor, visit_expr, asm.outputs_exprs);
            walk_list!(visitor, visit_expr, asm.inputs_exprs);
        }
        ExprKind::Yield(ref subexpression, _) => {
            visitor.visit_expr(subexpression);
        }
        ExprKind::Lit(_) | ExprKind::Err => {}
    }
}

pub fn walk_arm<'v, V: Visitor<'v>>(visitor: &mut V, arm: &'v Arm<'v>) {
    visitor.visit_id(arm.hir_id);
    visitor.visit_pat(&arm.pat);
    if let Some(ref g) = arm.guard {
        match g {
            Guard::If(ref e) => visitor.visit_expr(e),
            Guard::IfLet(ref pat, ref e) => {
                visitor.visit_pat(pat);
                visitor.visit_expr(e);
            }
        }
    }
    visitor.visit_expr(&arm.body);
}

pub fn walk_vis<'v, V: Visitor<'v>>(visitor: &mut V, vis: &'v Visibility<'v>) {
    if let VisibilityKind::Restricted { ref path, hir_id } = vis.node {
        visitor.visit_id(hir_id);
        visitor.visit_path(path, hir_id)
    }
}

pub fn walk_associated_item_kind<'v, V: Visitor<'v>>(_: &mut V, _: &'v AssocItemKind) {
    // No visitable content here: this fn exists so you can call it if
    // the right thing to do, should content be added in the future,
    // would be to walk it.
}

pub fn walk_defaultness<'v, V: Visitor<'v>>(_: &mut V, _: &'v Defaultness) {
    // No visitable content here: this fn exists so you can call it if
    // the right thing to do, should content be added in the future,
    // would be to walk it.
}