src/tools/clippy/clippy_lints/src/utils/ast_utils.rs - toolchain/rustc - Git at Google

 //! Utilities for manipulating and extracting information from `rustc_ast::ast`.
 //!
 //! - The `eq_foobar` functions test for semantic equality but ignores `NodeId`s and `Span`s.

 #![allow(clippy::similar_names, clippy::wildcard_imports, clippy::enum_glob_use)]

 use crate::utils::{both, over};
 use rustc_ast::ast::{self, *};
 use rustc_ast::ptr::P;
 use rustc_span::symbol::Ident;
 use std::mem;

 /// Checks if each element in the first slice is contained within the latter as per `eq_fn`.
 pub fn unordered_over<X>(left: &[X], right: &[X], mut eq_fn: impl FnMut(&X, &X) -> bool) -> bool {
     left.len() == right.len() && left.iter().all(|l| right.iter().any(|r| eq_fn(l, r)))
 }

 pub fn eq_id(l: Ident, r: Ident) -> bool {
     l.name == r.name
 }

 pub fn eq_pat(l: &Pat, r: &Pat) -> bool {
     use PatKind::*;
     match (&l.kind, &r.kind) {
         (Paren(l), _) => eq_pat(l, r),
         (_, Paren(r)) => eq_pat(l, r),
         (Wild, Wild) | (Rest, Rest) => true,
         (Lit(l), Lit(r)) => eq_expr(l, r),
         (Ident(b1, i1, s1), Ident(b2, i2, s2)) => b1 == b2 && eq_id(*i1, *i2) && both(s1, s2, |l, r| eq_pat(l, r)),
         (Range(lf, lt, le), Range(rf, rt, re)) => {
             eq_expr_opt(lf, rf) && eq_expr_opt(lt, rt) && eq_range_end(&le.node, &re.node)
         },
         (Box(l), Box(r))
         | (Ref(l, Mutability::Not), Ref(r, Mutability::Not))
         | (Ref(l, Mutability::Mut), Ref(r, Mutability::Mut)) => eq_pat(l, r),
         (Tuple(l), Tuple(r)) | (Slice(l), Slice(r)) => over(l, r, |l, r| eq_pat(l, r)),
         (Path(lq, lp), Path(rq, rp)) => both(lq, rq, |l, r| eq_qself(l, r)) && eq_path(lp, rp),
         (TupleStruct(lp, lfs), TupleStruct(rp, rfs)) => eq_path(lp, rp) && over(lfs, rfs, |l, r| eq_pat(l, r)),
         (Struct(lp, lfs, lr), Struct(rp, rfs, rr)) => {
             lr == rr && eq_path(lp, rp) && unordered_over(lfs, rfs, |lf, rf| eq_field_pat(lf, rf))
         },
         (Or(ls), Or(rs)) => unordered_over(ls, rs, |l, r| eq_pat(l, r)),
         (MacCall(l), MacCall(r)) => eq_mac_call(l, r),
         _ => false,
     }
 }

 pub fn eq_range_end(l: &RangeEnd, r: &RangeEnd) -> bool {
     match (l, r) {
         (RangeEnd::Excluded, RangeEnd::Excluded) => true,
         (RangeEnd::Included(l), RangeEnd::Included(r)) => {
             matches!(l, RangeSyntax::DotDotEq) == matches!(r, RangeSyntax::DotDotEq)
         },
         _ => false,
     }
 }

 pub fn eq_field_pat(l: &FieldPat, r: &FieldPat) -> bool {
     l.is_placeholder == r.is_placeholder
         && eq_id(l.ident, r.ident)
         && eq_pat(&l.pat, &r.pat)
         && over(&l.attrs, &r.attrs, |l, r| eq_attr(l, r))
 }

 pub fn eq_qself(l: &QSelf, r: &QSelf) -> bool {
     l.position == r.position && eq_ty(&l.ty, &r.ty)
 }

 pub fn eq_path(l: &Path, r: &Path) -> bool {
     over(&l.segments, &r.segments, |l, r| eq_path_seg(l, r))
 }

 pub fn eq_path_seg(l: &PathSegment, r: &PathSegment) -> bool {
     eq_id(l.ident, r.ident) && both(&l.args, &r.args, |l, r| eq_generic_args(l, r))
 }

 pub fn eq_generic_args(l: &GenericArgs, r: &GenericArgs) -> bool {
     match (l, r) {
         (GenericArgs::AngleBracketed(l), GenericArgs::AngleBracketed(r)) => {
             over(&l.args, &r.args, |l, r| eq_angle_arg(l, r))
         },
         (GenericArgs::Parenthesized(l), GenericArgs::Parenthesized(r)) => {
             over(&l.inputs, &r.inputs, |l, r| eq_ty(l, r)) && eq_fn_ret_ty(&l.output, &r.output)
         },
         _ => false,
     }
 }

 pub fn eq_angle_arg(l: &AngleBracketedArg, r: &AngleBracketedArg) -> bool {
     match (l, r) {
         (AngleBracketedArg::Arg(l), AngleBracketedArg::Arg(r)) => eq_generic_arg(l, r),
         (AngleBracketedArg::Constraint(l), AngleBracketedArg::Constraint(r)) => eq_assoc_constraint(l, r),
         _ => false,
     }
 }

 pub fn eq_generic_arg(l: &GenericArg, r: &GenericArg) -> bool {
     match (l, r) {
         (GenericArg::Lifetime(l), GenericArg::Lifetime(r)) => eq_id(l.ident, r.ident),
         (GenericArg::Type(l), GenericArg::Type(r)) => eq_ty(l, r),
         (GenericArg::Const(l), GenericArg::Const(r)) => eq_expr(&l.value, &r.value),
         _ => false,
     }
 }

 pub fn eq_expr_opt(l: &Option<P<Expr>>, r: &Option<P<Expr>>) -> bool {
     both(l, r, |l, r| eq_expr(l, r))
 }

 pub fn eq_expr(l: &Expr, r: &Expr) -> bool {
     use ExprKind::*;
     if !over(&l.attrs, &r.attrs, |l, r| eq_attr(l, r)) {
         return false;
     }
     match (&l.kind, &r.kind) {
         (Paren(l), _) => eq_expr(l, r),
         (_, Paren(r)) => eq_expr(l, r),
         (Err, Err) => true,
         (Box(l), Box(r)) | (Try(l), Try(r)) | (Await(l), Await(r)) => eq_expr(l, r),
         (Array(l), Array(r)) | (Tup(l), Tup(r)) => over(l, r, |l, r| eq_expr(l, r)),
         (Repeat(le, ls), Repeat(re, rs)) => eq_expr(le, re) && eq_expr(&ls.value, &rs.value),
         (Call(lc, la), Call(rc, ra)) => eq_expr(lc, rc) && over(la, ra, |l, r| eq_expr(l, r)),
         (MethodCall(lc, la, _), MethodCall(rc, ra, _)) => eq_path_seg(lc, rc) && over(la, ra, |l, r| eq_expr(l, r)),
         (Binary(lo, ll, lr), Binary(ro, rl, rr)) => lo.node == ro.node && eq_expr(ll, rl) && eq_expr(lr, rr),
         (Unary(lo, l), Unary(ro, r)) => mem::discriminant(lo) == mem::discriminant(ro) && eq_expr(l, r),
         (Lit(l), Lit(r)) => l.kind == r.kind,
         (Cast(l, lt), Cast(r, rt)) | (Type(l, lt), Type(r, rt)) => eq_expr(l, r) && eq_ty(lt, rt),
         (Let(lp, le), Let(rp, re)) => eq_pat(lp, rp) && eq_expr(le, re),
         (If(lc, lt, le), If(rc, rt, re)) => eq_expr(lc, rc) && eq_block(lt, rt) && eq_expr_opt(le, re),
         (While(lc, lt, ll), While(rc, rt, rl)) => eq_label(ll, rl) && eq_expr(lc, rc) && eq_block(lt, rt),
         (ForLoop(lp, li, lt, ll), ForLoop(rp, ri, rt, rl)) => {
             eq_label(ll, rl) && eq_pat(lp, rp) && eq_expr(li, ri) && eq_block(lt, rt)
         },
         (Loop(lt, ll), Loop(rt, rl)) => eq_label(ll, rl) && eq_block(lt, rt),
         (Block(lb, ll), Block(rb, rl)) => eq_label(ll, rl) && eq_block(lb, rb),
         (TryBlock(l), TryBlock(r)) => eq_block(l, r),
         (Yield(l), Yield(r)) | (Ret(l), Ret(r)) => eq_expr_opt(l, r),
         (Break(ll, le), Break(rl, re)) => eq_label(ll, rl) && eq_expr_opt(le, re),
         (Continue(ll), Continue(rl)) => eq_label(ll, rl),
         (Assign(l1, l2, _), Assign(r1, r2, _)) | (Index(l1, l2), Index(r1, r2)) => eq_expr(l1, r1) && eq_expr(l2, r2),
         (AssignOp(lo, lp, lv), AssignOp(ro, rp, rv)) => lo.node == ro.node && eq_expr(lp, rp) && eq_expr(lv, rv),
         (Field(lp, lf), Field(rp, rf)) => eq_id(*lf, *rf) && eq_expr(lp, rp),
         (Match(ls, la), Match(rs, ra)) => eq_expr(ls, rs) && over(la, ra, |l, r| eq_arm(l, r)),
         (Closure(lc, la, lm, lf, lb, _), Closure(rc, ra, rm, rf, rb, _)) => {
             lc == rc && la.is_async() == ra.is_async() && lm == rm && eq_fn_decl(lf, rf) && eq_expr(lb, rb)
         },
         (Async(lc, _, lb), Async(rc, _, rb)) => lc == rc && eq_block(lb, rb),
         (Range(lf, lt, ll), Range(rf, rt, rl)) => ll == rl && eq_expr_opt(lf, rf) && eq_expr_opt(lt, rt),
         (AddrOf(lbk, lm, le), AddrOf(rbk, rm, re)) => lbk == rbk && lm == rm && eq_expr(le, re),
         (Path(lq, lp), Path(rq, rp)) => both(lq, rq, |l, r| eq_qself(l, r)) && eq_path(lp, rp),
         (MacCall(l), MacCall(r)) => eq_mac_call(l, r),
         (Struct(lp, lfs, lb), Struct(rp, rfs, rb)) => {
             eq_path(lp, rp) && eq_expr_opt(lb, rb) && unordered_over(lfs, rfs, |l, r| eq_field(l, r))
         },
         _ => false,
     }
 }

 pub fn eq_field(l: &Field, r: &Field) -> bool {
     l.is_placeholder == r.is_placeholder
         && eq_id(l.ident, r.ident)
         && eq_expr(&l.expr, &r.expr)
         && over(&l.attrs, &r.attrs, |l, r| eq_attr(l, r))
 }

 pub fn eq_arm(l: &Arm, r: &Arm) -> bool {
     l.is_placeholder == r.is_placeholder
         && eq_pat(&l.pat, &r.pat)
         && eq_expr(&l.body, &r.body)
         && eq_expr_opt(&l.guard, &r.guard)
         && over(&l.attrs, &r.attrs, |l, r| eq_attr(l, r))
 }

 pub fn eq_label(l: &Option<Label>, r: &Option<Label>) -> bool {
     both(l, r, |l, r| eq_id(l.ident, r.ident))
 }

 pub fn eq_block(l: &Block, r: &Block) -> bool {
     l.rules == r.rules && over(&l.stmts, &r.stmts, |l, r| eq_stmt(l, r))
 }

 pub fn eq_stmt(l: &Stmt, r: &Stmt) -> bool {
     use StmtKind::*;
     match (&l.kind, &r.kind) {
         (Local(l), Local(r)) => {
             eq_pat(&l.pat, &r.pat)
                 && both(&l.ty, &r.ty, |l, r| eq_ty(l, r))
                 && eq_expr_opt(&l.init, &r.init)
                 && over(&l.attrs, &r.attrs, |l, r| eq_attr(l, r))
         },
         (Item(l), Item(r)) => eq_item(l, r, eq_item_kind),
         (Expr(l), Expr(r)) | (Semi(l), Semi(r)) => eq_expr(l, r),
         (Empty, Empty) => true,
         (MacCall(l), MacCall(r)) => l.1 == r.1 && eq_mac_call(&l.0, &r.0) && over(&l.2, &r.2, |l, r| eq_attr(l, r)),
         _ => false,
     }
 }

 pub fn eq_item<K>(l: &Item<K>, r: &Item<K>, mut eq_kind: impl FnMut(&K, &K) -> bool) -> bool {
     eq_id(l.ident, r.ident)
         && over(&l.attrs, &r.attrs, |l, r| eq_attr(l, r))
         && eq_vis(&l.vis, &r.vis)
         && eq_kind(&l.kind, &r.kind)
 }

 pub fn eq_item_kind(l: &ItemKind, r: &ItemKind) -> bool {
     use ItemKind::*;
     match (l, r) {
         (ExternCrate(l), ExternCrate(r)) => l == r,
         (Use(l), Use(r)) => eq_use_tree(l, r),
         (Static(lt, lm, le), Static(rt, rm, re)) => lm == rm && eq_ty(lt, rt) && eq_expr_opt(le, re),
         (Const(ld, lt, le), Const(rd, rt, re)) => eq_defaultness(*ld, *rd) && eq_ty(lt, rt) && eq_expr_opt(le, re),
         (Fn(ld, lf, lg, lb), Fn(rd, rf, rg, rb)) => {
             eq_defaultness(*ld, *rd) && eq_fn_sig(lf, rf) && eq_generics(lg, rg) && both(lb, rb, |l, r| eq_block(l, r))
         },
         (Mod(l), Mod(r)) => l.inline == r.inline && over(&l.items, &r.items, |l, r| eq_item(l, r, eq_item_kind)),
         (ForeignMod(l), ForeignMod(r)) => {
             both(&l.abi, &r.abi, |l, r| eq_str_lit(l, r))
                 && over(&l.items, &r.items, |l, r| eq_item(l, r, eq_foreign_item_kind))
         },
         (TyAlias(ld, lg, lb, lt), TyAlias(rd, rg, rb, rt)) => {
             eq_defaultness(*ld, *rd)
                 && eq_generics(lg, rg)
                 && over(lb, rb, |l, r| eq_generic_bound(l, r))
                 && both(lt, rt, |l, r| eq_ty(l, r))
         },
         (Enum(le, lg), Enum(re, rg)) => {
             over(&le.variants, &re.variants, |l, r| eq_variant(l, r)) && eq_generics(lg, rg)
         },
         (Struct(lv, lg), Struct(rv, rg)) | (Union(lv, lg), Union(rv, rg)) => {
             eq_variant_data(lv, rv) && eq_generics(lg, rg)
         },
         (Trait(la, lu, lg, lb, li), Trait(ra, ru, rg, rb, ri)) => {
             la == ra
                 && matches!(lu, Unsafe::No) == matches!(ru, Unsafe::No)
                 && eq_generics(lg, rg)
                 && over(lb, rb, |l, r| eq_generic_bound(l, r))
                 && over(li, ri, |l, r| eq_item(l, r, eq_assoc_item_kind))
         },
         (TraitAlias(lg, lb), TraitAlias(rg, rb)) => eq_generics(lg, rg) && over(lb, rb, |l, r| eq_generic_bound(l, r)),
         (
             Impl {
                 unsafety: lu,
                 polarity: lp,
                 defaultness: ld,
                 constness: lc,
                 generics: lg,
                 of_trait: lot,
                 self_ty: lst,
                 items: li,
             },
             Impl {
                 unsafety: ru,
                 polarity: rp,
                 defaultness: rd,
                 constness: rc,
                 generics: rg,
                 of_trait: rot,
                 self_ty: rst,
                 items: ri,
             },
         ) => {
             matches!(lu, Unsafe::No) == matches!(ru, Unsafe::No)
                 && matches!(lp, ImplPolarity::Positive) == matches!(rp, ImplPolarity::Positive)
                 && eq_defaultness(*ld, *rd)
                 && matches!(lc, ast::Const::No) == matches!(rc, ast::Const::No)
                 && eq_generics(lg, rg)
                 && both(lot, rot, |l, r| eq_path(&l.path, &r.path))
                 && eq_ty(lst, rst)
                 && over(li, ri, |l, r| eq_item(l, r, eq_assoc_item_kind))
         },
         (MacCall(l), MacCall(r)) => eq_mac_call(l, r),
         (MacroDef(l), MacroDef(r)) => l.macro_rules == r.macro_rules && eq_mac_args(&l.body, &r.body),
         _ => false,
     }
 }

 pub fn eq_foreign_item_kind(l: &ForeignItemKind, r: &ForeignItemKind) -> bool {
     use ForeignItemKind::*;
     match (l, r) {
         (Static(lt, lm, le), Static(rt, rm, re)) => lm == rm && eq_ty(lt, rt) && eq_expr_opt(le, re),
         (Fn(ld, lf, lg, lb), Fn(rd, rf, rg, rb)) => {
             eq_defaultness(*ld, *rd) && eq_fn_sig(lf, rf) && eq_generics(lg, rg) && both(lb, rb, |l, r| eq_block(l, r))
         },
         (TyAlias(ld, lg, lb, lt), TyAlias(rd, rg, rb, rt)) => {
             eq_defaultness(*ld, *rd)
                 && eq_generics(lg, rg)
                 && over(lb, rb, |l, r| eq_generic_bound(l, r))
                 && both(lt, rt, |l, r| eq_ty(l, r))
         },
         (MacCall(l), MacCall(r)) => eq_mac_call(l, r),
         _ => false,
     }
 }

 pub fn eq_assoc_item_kind(l: &AssocItemKind, r: &AssocItemKind) -> bool {
     use AssocItemKind::*;
     match (l, r) {
         (Const(ld, lt, le), Const(rd, rt, re)) => eq_defaultness(*ld, *rd) && eq_ty(lt, rt) && eq_expr_opt(le, re),
         (Fn(ld, lf, lg, lb), Fn(rd, rf, rg, rb)) => {
             eq_defaultness(*ld, *rd) && eq_fn_sig(lf, rf) && eq_generics(lg, rg) && both(lb, rb, |l, r| eq_block(l, r))
         },
         (TyAlias(ld, lg, lb, lt), TyAlias(rd, rg, rb, rt)) => {
             eq_defaultness(*ld, *rd)
                 && eq_generics(lg, rg)
                 && over(lb, rb, |l, r| eq_generic_bound(l, r))
                 && both(lt, rt, |l, r| eq_ty(l, r))
         },
         (MacCall(l), MacCall(r)) => eq_mac_call(l, r),
         _ => false,
     }
 }

 pub fn eq_variant(l: &Variant, r: &Variant) -> bool {
     l.is_placeholder == r.is_placeholder
         && over(&l.attrs, &r.attrs, |l, r| eq_attr(l, r))
         && eq_vis(&l.vis, &r.vis)
         && eq_id(l.ident, r.ident)
         && eq_variant_data(&l.data, &r.data)
         && both(&l.disr_expr, &r.disr_expr, |l, r| eq_expr(&l.value, &r.value))
 }

 pub fn eq_variant_data(l: &VariantData, r: &VariantData) -> bool {
     use VariantData::*;
     match (l, r) {
         (Unit(_), Unit(_)) => true,
         (Struct(l, _), Struct(r, _)) | (Tuple(l, _), Tuple(r, _)) => over(l, r, |l, r| eq_struct_field(l, r)),
         _ => false,
     }
 }

 pub fn eq_struct_field(l: &StructField, r: &StructField) -> bool {
     l.is_placeholder == r.is_placeholder
         && over(&l.attrs, &r.attrs, |l, r| eq_attr(l, r))
         && eq_vis(&l.vis, &r.vis)
         && both(&l.ident, &r.ident, |l, r| eq_id(*l, *r))
         && eq_ty(&l.ty, &r.ty)
 }

 pub fn eq_fn_sig(l: &FnSig, r: &FnSig) -> bool {
     eq_fn_decl(&l.decl, &r.decl) && eq_fn_header(&l.header, &r.header)
 }

 pub fn eq_fn_header(l: &FnHeader, r: &FnHeader) -> bool {
     matches!(l.unsafety, Unsafe::No) == matches!(r.unsafety, Unsafe::No)
         && l.asyncness.is_async() == r.asyncness.is_async()
         && matches!(l.constness, Const::No) == matches!(r.constness, Const::No)
         && eq_ext(&l.ext, &r.ext)
 }

 pub fn eq_generics(l: &Generics, r: &Generics) -> bool {
     over(&l.params, &r.params, |l, r| eq_generic_param(l, r))
         && over(&l.where_clause.predicates, &r.where_clause.predicates, |l, r| {
             eq_where_predicate(l, r)
         })
 }

 pub fn eq_where_predicate(l: &WherePredicate, r: &WherePredicate) -> bool {
     use WherePredicate::*;
     match (l, r) {
         (BoundPredicate(l), BoundPredicate(r)) => {
             over(&l.bound_generic_params, &r.bound_generic_params, |l, r| {
                 eq_generic_param(l, r)
             }) && eq_ty(&l.bounded_ty, &r.bounded_ty)
                 && over(&l.bounds, &r.bounds, |l, r| eq_generic_bound(l, r))
         },
         (RegionPredicate(l), RegionPredicate(r)) => {
             eq_id(l.lifetime.ident, r.lifetime.ident) && over(&l.bounds, &r.bounds, |l, r| eq_generic_bound(l, r))
         },
         (EqPredicate(l), EqPredicate(r)) => eq_ty(&l.lhs_ty, &r.lhs_ty) && eq_ty(&l.rhs_ty, &r.rhs_ty),
         _ => false,
     }
 }

 pub fn eq_use_tree(l: &UseTree, r: &UseTree) -> bool {
     eq_path(&l.prefix, &r.prefix) && eq_use_tree_kind(&l.kind, &r.kind)
 }

 pub fn eq_use_tree_kind(l: &UseTreeKind, r: &UseTreeKind) -> bool {
     use UseTreeKind::*;
     match (l, r) {
         (Glob, Glob) => true,
         (Simple(l, _, _), Simple(r, _, _)) => both(l, r, |l, r| eq_id(*l, *r)),
         (Nested(l), Nested(r)) => over(l, r, |(l, _), (r, _)| eq_use_tree(l, r)),
         _ => false,
     }
 }

 pub fn eq_defaultness(l: Defaultness, r: Defaultness) -> bool {
     match (l, r) {
         (Defaultness::Final, Defaultness::Final) | (Defaultness::Default(_), Defaultness::Default(_)) => true,
         _ => false,
     }
 }

 pub fn eq_vis(l: &Visibility, r: &Visibility) -> bool {
     use VisibilityKind::*;
     match (&l.node, &r.node) {
         (Public, Public) | (Inherited, Inherited) | (Crate(_), Crate(_)) => true,
         (Restricted { path: l, .. }, Restricted { path: r, .. }) => eq_path(l, r),
         _ => false,
     }
 }

 pub fn eq_fn_decl(l: &FnDecl, r: &FnDecl) -> bool {
     eq_fn_ret_ty(&l.output, &r.output)
         && over(&l.inputs, &r.inputs, |l, r| {
             l.is_placeholder == r.is_placeholder
                 && eq_pat(&l.pat, &r.pat)
                 && eq_ty(&l.ty, &r.ty)
                 && over(&l.attrs, &r.attrs, |l, r| eq_attr(l, r))
         })
 }

 pub fn eq_fn_ret_ty(l: &FnRetTy, r: &FnRetTy) -> bool {
     match (l, r) {
         (FnRetTy::Default(_), FnRetTy::Default(_)) => true,
         (FnRetTy::Ty(l), FnRetTy::Ty(r)) => eq_ty(l, r),
         _ => false,
     }
 }

 pub fn eq_ty(l: &Ty, r: &Ty) -> bool {
     use TyKind::*;
     match (&l.kind, &r.kind) {
         (Paren(l), _) => eq_ty(l, r),
         (_, Paren(r)) => eq_ty(l, r),
         (Never, Never) | (Infer, Infer) | (ImplicitSelf, ImplicitSelf) | (Err, Err) | (CVarArgs, CVarArgs) => true,
         (Slice(l), Slice(r)) => eq_ty(l, r),
         (Array(le, ls), Array(re, rs)) => eq_ty(le, re) && eq_expr(&ls.value, &rs.value),
         (Ptr(l), Ptr(r)) => l.mutbl == r.mutbl && eq_ty(&l.ty, &r.ty),
         (Rptr(ll, l), Rptr(rl, r)) => {
             both(ll, rl, |l, r| eq_id(l.ident, r.ident)) && l.mutbl == r.mutbl && eq_ty(&l.ty, &r.ty)
         },
         (BareFn(l), BareFn(r)) => {
             l.unsafety == r.unsafety
                 && eq_ext(&l.ext, &r.ext)
                 && over(&l.generic_params, &r.generic_params, |l, r| eq_generic_param(l, r))
                 && eq_fn_decl(&l.decl, &r.decl)
         },
         (Tup(l), Tup(r)) => over(l, r, |l, r| eq_ty(l, r)),
         (Path(lq, lp), Path(rq, rp)) => both(lq, rq, |l, r| eq_qself(l, r)) && eq_path(lp, rp),
         (TraitObject(lg, ls), TraitObject(rg, rs)) => ls == rs && over(lg, rg, |l, r| eq_generic_bound(l, r)),
         (ImplTrait(_, lg), ImplTrait(_, rg)) => over(lg, rg, |l, r| eq_generic_bound(l, r)),
         (Typeof(l), Typeof(r)) => eq_expr(&l.value, &r.value),
         (MacCall(l), MacCall(r)) => eq_mac_call(l, r),
         _ => false,
     }
 }

 pub fn eq_ext(l: &Extern, r: &Extern) -> bool {
     use Extern::*;
     match (l, r) {
         (None, None) | (Implicit, Implicit) => true,
         (Explicit(l), Explicit(r)) => eq_str_lit(l, r),
         _ => false,
     }
 }

 pub fn eq_str_lit(l: &StrLit, r: &StrLit) -> bool {
     l.style == r.style && l.symbol == r.symbol && l.suffix == r.suffix
 }

 pub fn eq_poly_ref_trait(l: &PolyTraitRef, r: &PolyTraitRef) -> bool {
     eq_path(&l.trait_ref.path, &r.trait_ref.path)
         && over(&l.bound_generic_params, &r.bound_generic_params, |l, r| {
             eq_generic_param(l, r)
         })
 }

 pub fn eq_generic_param(l: &GenericParam, r: &GenericParam) -> bool {
     use GenericParamKind::*;
     l.is_placeholder == r.is_placeholder
         && eq_id(l.ident, r.ident)
         && over(&l.bounds, &r.bounds, |l, r| eq_generic_bound(l, r))
         && match (&l.kind, &r.kind) {
             (Lifetime, Lifetime) => true,
             (Type { default: l }, Type { default: r }) => both(l, r, |l, r| eq_ty(l, r)),
             (Const { ty: l, kw_span: _ }, Const { ty: r, kw_span: _ }) => eq_ty(l, r),
             _ => false,
         }
         && over(&l.attrs, &r.attrs, |l, r| eq_attr(l, r))
 }

 pub fn eq_generic_bound(l: &GenericBound, r: &GenericBound) -> bool {
     use GenericBound::*;
     match (l, r) {
         (Trait(ptr1, tbm1), Trait(ptr2, tbm2)) => tbm1 == tbm2 && eq_poly_ref_trait(ptr1, ptr2),
         (Outlives(l), Outlives(r)) => eq_id(l.ident, r.ident),
         _ => false,
     }
 }

 pub fn eq_assoc_constraint(l: &AssocTyConstraint, r: &AssocTyConstraint) -> bool {
     use AssocTyConstraintKind::*;
     eq_id(l.ident, r.ident)
         && match (&l.kind, &r.kind) {
             (Equality { ty: l }, Equality { ty: r }) => eq_ty(l, r),
             (Bound { bounds: l }, Bound { bounds: r }) => over(l, r, |l, r| eq_generic_bound(l, r)),
             _ => false,
         }
 }

 pub fn eq_mac_call(l: &MacCall, r: &MacCall) -> bool {
     eq_path(&l.path, &r.path) && eq_mac_args(&l.args, &r.args)
 }

 pub fn eq_attr(l: &Attribute, r: &Attribute) -> bool {
     use AttrKind::*;
     l.style == r.style
         && match (&l.kind, &r.kind) {
             (DocComment(l), DocComment(r)) => l == r,
             (Normal(l), Normal(r)) => eq_path(&l.path, &r.path) && eq_mac_args(&l.args, &r.args),
             _ => false,
         }
 }

 pub fn eq_mac_args(l: &MacArgs, r: &MacArgs) -> bool {
     use MacArgs::*;
     match (l, r) {
         (Empty, Empty) => true,
         (Delimited(_, ld, lts), Delimited(_, rd, rts)) => ld == rd && lts.eq_unspanned(rts),
         (Eq(_, lts), Eq(_, rts)) => lts.eq_unspanned(rts),
         _ => false,
     }
 }
	//! Utilities for manipulating and extracting information from `rustc_ast::ast`.
	//!
	//! - The `eq_foobar` functions test for semantic equality but ignores `NodeId`s and `Span`s.

	#![allow(clippy::similar_names, clippy::wildcard_imports, clippy::enum_glob_use)]

	use crate::utils::{both, over};
	use rustc_ast::ast::{self, *};
	use rustc_ast::ptr::P;
	use rustc_span::symbol::Ident;
	use std::mem;

	/// Checks if each element in the first slice is contained within the latter as per `eq_fn`.
	pub fn unordered_over<X>(left: &[X], right: &[X], mut eq_fn: impl FnMut(&X, &X) -> bool) -> bool {
	left.len() == right.len() && left.iter().all(\|l\| right.iter().any(\|r\| eq_fn(l, r)))
	}

	pub fn eq_id(l: Ident, r: Ident) -> bool {
	l.name == r.name
	}

	pub fn eq_pat(l: &Pat, r: &Pat) -> bool {
	use PatKind::*;
	match (&l.kind, &r.kind) {
	(Paren(l), _) => eq_pat(l, r),
	(_, Paren(r)) => eq_pat(l, r),
	(Wild, Wild) \| (Rest, Rest) => true,
	(Lit(l), Lit(r)) => eq_expr(l, r),
	(Ident(b1, i1, s1), Ident(b2, i2, s2)) => b1 == b2 && eq_id(i1, i2) && both(s1, s2, \|l, r\| eq_pat(l, r)),
	(Range(lf, lt, le), Range(rf, rt, re)) => {
	eq_expr_opt(lf, rf) && eq_expr_opt(lt, rt) && eq_range_end(&le.node, &re.node)
	},
	(Box(l), Box(r))
	\| (Ref(l, Mutability::Not), Ref(r, Mutability::Not))
	\| (Ref(l, Mutability::Mut), Ref(r, Mutability::Mut)) => eq_pat(l, r),
	(Tuple(l), Tuple(r)) \| (Slice(l), Slice(r)) => over(l, r, \|l, r\| eq_pat(l, r)),
	(Path(lq, lp), Path(rq, rp)) => both(lq, rq, \|l, r\| eq_qself(l, r)) && eq_path(lp, rp),
	(TupleStruct(lp, lfs), TupleStruct(rp, rfs)) => eq_path(lp, rp) && over(lfs, rfs, \|l, r\| eq_pat(l, r)),
	(Struct(lp, lfs, lr), Struct(rp, rfs, rr)) => {
	lr == rr && eq_path(lp, rp) && unordered_over(lfs, rfs, \|lf, rf\| eq_field_pat(lf, rf))
	},
	(Or(ls), Or(rs)) => unordered_over(ls, rs, \|l, r\| eq_pat(l, r)),
	(MacCall(l), MacCall(r)) => eq_mac_call(l, r),
	_ => false,
	}
	}

	pub fn eq_range_end(l: &RangeEnd, r: &RangeEnd) -> bool {
	match (l, r) {
	(RangeEnd::Excluded, RangeEnd::Excluded) => true,
	(RangeEnd::Included(l), RangeEnd::Included(r)) => {
	matches!(l, RangeSyntax::DotDotEq) == matches!(r, RangeSyntax::DotDotEq)
	},
	_ => false,
	}
	}

	pub fn eq_field_pat(l: &FieldPat, r: &FieldPat) -> bool {
	l.is_placeholder == r.is_placeholder
	&& eq_id(l.ident, r.ident)
	&& eq_pat(&l.pat, &r.pat)
	&& over(&l.attrs, &r.attrs, \|l, r\| eq_attr(l, r))
	}

	pub fn eq_qself(l: &QSelf, r: &QSelf) -> bool {
	l.position == r.position && eq_ty(&l.ty, &r.ty)
	}

	pub fn eq_path(l: &Path, r: &Path) -> bool {
	over(&l.segments, &r.segments, \|l, r\| eq_path_seg(l, r))
	}

	pub fn eq_path_seg(l: &PathSegment, r: &PathSegment) -> bool {
	eq_id(l.ident, r.ident) && both(&l.args, &r.args, \|l, r\| eq_generic_args(l, r))
	}

	pub fn eq_generic_args(l: &GenericArgs, r: &GenericArgs) -> bool {
	match (l, r) {
	(GenericArgs::AngleBracketed(l), GenericArgs::AngleBracketed(r)) => {
	over(&l.args, &r.args, \|l, r\| eq_angle_arg(l, r))
	},
	(GenericArgs::Parenthesized(l), GenericArgs::Parenthesized(r)) => {
	over(&l.inputs, &r.inputs, \|l, r\| eq_ty(l, r)) && eq_fn_ret_ty(&l.output, &r.output)
	},
	_ => false,
	}
	}

	pub fn eq_angle_arg(l: &AngleBracketedArg, r: &AngleBracketedArg) -> bool {
	match (l, r) {
	(AngleBracketedArg::Arg(l), AngleBracketedArg::Arg(r)) => eq_generic_arg(l, r),
	(AngleBracketedArg::Constraint(l), AngleBracketedArg::Constraint(r)) => eq_assoc_constraint(l, r),
	_ => false,
	}
	}

	pub fn eq_generic_arg(l: &GenericArg, r: &GenericArg) -> bool {
	match (l, r) {
	(GenericArg::Lifetime(l), GenericArg::Lifetime(r)) => eq_id(l.ident, r.ident),
	(GenericArg::Type(l), GenericArg::Type(r)) => eq_ty(l, r),
	(GenericArg::Const(l), GenericArg::Const(r)) => eq_expr(&l.value, &r.value),
	_ => false,
	}
	}

	pub fn eq_expr_opt(l: &Option<P<Expr>>, r: &Option<P<Expr>>) -> bool {
	both(l, r, \|l, r\| eq_expr(l, r))
	}

	pub fn eq_expr(l: &Expr, r: &Expr) -> bool {
	use ExprKind::*;
	if !over(&l.attrs, &r.attrs, \|l, r\| eq_attr(l, r)) {
	return false;
	}
	match (&l.kind, &r.kind) {
	(Paren(l), _) => eq_expr(l, r),
	(_, Paren(r)) => eq_expr(l, r),
	(Err, Err) => true,
	(Box(l), Box(r)) \| (Try(l), Try(r)) \| (Await(l), Await(r)) => eq_expr(l, r),
	(Array(l), Array(r)) \| (Tup(l), Tup(r)) => over(l, r, \|l, r\| eq_expr(l, r)),
	(Repeat(le, ls), Repeat(re, rs)) => eq_expr(le, re) && eq_expr(&ls.value, &rs.value),
	(Call(lc, la), Call(rc, ra)) => eq_expr(lc, rc) && over(la, ra, \|l, r\| eq_expr(l, r)),
	(MethodCall(lc, la, _), MethodCall(rc, ra, _)) => eq_path_seg(lc, rc) && over(la, ra, \|l, r\| eq_expr(l, r)),
	(Binary(lo, ll, lr), Binary(ro, rl, rr)) => lo.node == ro.node && eq_expr(ll, rl) && eq_expr(lr, rr),
	(Unary(lo, l), Unary(ro, r)) => mem::discriminant(lo) == mem::discriminant(ro) && eq_expr(l, r),
	(Lit(l), Lit(r)) => l.kind == r.kind,
	(Cast(l, lt), Cast(r, rt)) \| (Type(l, lt), Type(r, rt)) => eq_expr(l, r) && eq_ty(lt, rt),
	(Let(lp, le), Let(rp, re)) => eq_pat(lp, rp) && eq_expr(le, re),
	(If(lc, lt, le), If(rc, rt, re)) => eq_expr(lc, rc) && eq_block(lt, rt) && eq_expr_opt(le, re),
	(While(lc, lt, ll), While(rc, rt, rl)) => eq_label(ll, rl) && eq_expr(lc, rc) && eq_block(lt, rt),
	(ForLoop(lp, li, lt, ll), ForLoop(rp, ri, rt, rl)) => {
	eq_label(ll, rl) && eq_pat(lp, rp) && eq_expr(li, ri) && eq_block(lt, rt)
	},
	(Loop(lt, ll), Loop(rt, rl)) => eq_label(ll, rl) && eq_block(lt, rt),
	(Block(lb, ll), Block(rb, rl)) => eq_label(ll, rl) && eq_block(lb, rb),
	(TryBlock(l), TryBlock(r)) => eq_block(l, r),
	(Yield(l), Yield(r)) \| (Ret(l), Ret(r)) => eq_expr_opt(l, r),
	(Break(ll, le), Break(rl, re)) => eq_label(ll, rl) && eq_expr_opt(le, re),
	(Continue(ll), Continue(rl)) => eq_label(ll, rl),
	(Assign(l1, l2, _), Assign(r1, r2, _)) \| (Index(l1, l2), Index(r1, r2)) => eq_expr(l1, r1) && eq_expr(l2, r2),
	(AssignOp(lo, lp, lv), AssignOp(ro, rp, rv)) => lo.node == ro.node && eq_expr(lp, rp) && eq_expr(lv, rv),
	(Field(lp, lf), Field(rp, rf)) => eq_id(lf, rf) && eq_expr(lp, rp),
	(Match(ls, la), Match(rs, ra)) => eq_expr(ls, rs) && over(la, ra, \|l, r\| eq_arm(l, r)),
	(Closure(lc, la, lm, lf, lb, _), Closure(rc, ra, rm, rf, rb, _)) => {
	lc == rc && la.is_async() == ra.is_async() && lm == rm && eq_fn_decl(lf, rf) && eq_expr(lb, rb)
	},
	(Async(lc, _, lb), Async(rc, _, rb)) => lc == rc && eq_block(lb, rb),
	(Range(lf, lt, ll), Range(rf, rt, rl)) => ll == rl && eq_expr_opt(lf, rf) && eq_expr_opt(lt, rt),
	(AddrOf(lbk, lm, le), AddrOf(rbk, rm, re)) => lbk == rbk && lm == rm && eq_expr(le, re),
	(Path(lq, lp), Path(rq, rp)) => both(lq, rq, \|l, r\| eq_qself(l, r)) && eq_path(lp, rp),
	(MacCall(l), MacCall(r)) => eq_mac_call(l, r),
	(Struct(lp, lfs, lb), Struct(rp, rfs, rb)) => {
	eq_path(lp, rp) && eq_expr_opt(lb, rb) && unordered_over(lfs, rfs, \|l, r\| eq_field(l, r))
	},
	_ => false,
	}
	}

	pub fn eq_field(l: &Field, r: &Field) -> bool {
	l.is_placeholder == r.is_placeholder
	&& eq_id(l.ident, r.ident)
	&& eq_expr(&l.expr, &r.expr)
	&& over(&l.attrs, &r.attrs, \|l, r\| eq_attr(l, r))
	}

	pub fn eq_arm(l: &Arm, r: &Arm) -> bool {
	l.is_placeholder == r.is_placeholder
	&& eq_pat(&l.pat, &r.pat)
	&& eq_expr(&l.body, &r.body)
	&& eq_expr_opt(&l.guard, &r.guard)
	&& over(&l.attrs, &r.attrs, \|l, r\| eq_attr(l, r))
	}

	pub fn eq_label(l: &Option<Label>, r: &Option<Label>) -> bool {
	both(l, r, \|l, r\| eq_id(l.ident, r.ident))
	}

	pub fn eq_block(l: &Block, r: &Block) -> bool {
	l.rules == r.rules && over(&l.stmts, &r.stmts, \|l, r\| eq_stmt(l, r))
	}

	pub fn eq_stmt(l: &Stmt, r: &Stmt) -> bool {
	use StmtKind::*;
	match (&l.kind, &r.kind) {
	(Local(l), Local(r)) => {
	eq_pat(&l.pat, &r.pat)
	&& both(&l.ty, &r.ty, \|l, r\| eq_ty(l, r))
	&& eq_expr_opt(&l.init, &r.init)
	&& over(&l.attrs, &r.attrs, \|l, r\| eq_attr(l, r))
	},
	(Item(l), Item(r)) => eq_item(l, r, eq_item_kind),
	(Expr(l), Expr(r)) \| (Semi(l), Semi(r)) => eq_expr(l, r),
	(Empty, Empty) => true,
	(MacCall(l), MacCall(r)) => l.1 == r.1 && eq_mac_call(&l.0, &r.0) && over(&l.2, &r.2, \|l, r\| eq_attr(l, r)),
	_ => false,
	}
	}

	pub fn eq_item<K>(l: &Item<K>, r: &Item<K>, mut eq_kind: impl FnMut(&K, &K) -> bool) -> bool {
	eq_id(l.ident, r.ident)
	&& over(&l.attrs, &r.attrs, \|l, r\| eq_attr(l, r))
	&& eq_vis(&l.vis, &r.vis)
	&& eq_kind(&l.kind, &r.kind)
	}

	pub fn eq_item_kind(l: &ItemKind, r: &ItemKind) -> bool {
	use ItemKind::*;
	match (l, r) {
	(ExternCrate(l), ExternCrate(r)) => l == r,
	(Use(l), Use(r)) => eq_use_tree(l, r),
	(Static(lt, lm, le), Static(rt, rm, re)) => lm == rm && eq_ty(lt, rt) && eq_expr_opt(le, re),
	(Const(ld, lt, le), Const(rd, rt, re)) => eq_defaultness(ld, rd) && eq_ty(lt, rt) && eq_expr_opt(le, re),
	(Fn(ld, lf, lg, lb), Fn(rd, rf, rg, rb)) => {
	eq_defaultness(ld, rd) && eq_fn_sig(lf, rf) && eq_generics(lg, rg) && both(lb, rb, \|l, r\| eq_block(l, r))
	},
	(Mod(l), Mod(r)) => l.inline == r.inline && over(&l.items, &r.items, \|l, r\| eq_item(l, r, eq_item_kind)),
	(ForeignMod(l), ForeignMod(r)) => {
	both(&l.abi, &r.abi, \|l, r\| eq_str_lit(l, r))
	&& over(&l.items, &r.items, \|l, r\| eq_item(l, r, eq_foreign_item_kind))
	},
	(TyAlias(ld, lg, lb, lt), TyAlias(rd, rg, rb, rt)) => {
	eq_defaultness(ld, rd)
	&& eq_generics(lg, rg)
	&& over(lb, rb, \|l, r\| eq_generic_bound(l, r))
	&& both(lt, rt, \|l, r\| eq_ty(l, r))
	},
	(Enum(le, lg), Enum(re, rg)) => {
	over(&le.variants, &re.variants, \|l, r\| eq_variant(l, r)) && eq_generics(lg, rg)
	},
	(Struct(lv, lg), Struct(rv, rg)) \| (Union(lv, lg), Union(rv, rg)) => {
	eq_variant_data(lv, rv) && eq_generics(lg, rg)
	},
	(Trait(la, lu, lg, lb, li), Trait(ra, ru, rg, rb, ri)) => {
	la == ra
	&& matches!(lu, Unsafe::No) == matches!(ru, Unsafe::No)
	&& eq_generics(lg, rg)
	&& over(lb, rb, \|l, r\| eq_generic_bound(l, r))
	&& over(li, ri, \|l, r\| eq_item(l, r, eq_assoc_item_kind))
	},
	(TraitAlias(lg, lb), TraitAlias(rg, rb)) => eq_generics(lg, rg) && over(lb, rb, \|l, r\| eq_generic_bound(l, r)),
	(
	Impl {
	unsafety: lu,
	polarity: lp,
	defaultness: ld,
	constness: lc,
	generics: lg,
	of_trait: lot,
	self_ty: lst,
	items: li,
	},
	Impl {
	unsafety: ru,
	polarity: rp,
	defaultness: rd,
	constness: rc,
	generics: rg,
	of_trait: rot,
	self_ty: rst,
	items: ri,
	},
	) => {
	matches!(lu, Unsafe::No) == matches!(ru, Unsafe::No)
	&& matches!(lp, ImplPolarity::Positive) == matches!(rp, ImplPolarity::Positive)
	&& eq_defaultness(ld, rd)
	&& matches!(lc, ast::Const::No) == matches!(rc, ast::Const::No)
	&& eq_generics(lg, rg)
	&& both(lot, rot, \|l, r\| eq_path(&l.path, &r.path))
	&& eq_ty(lst, rst)
	&& over(li, ri, \|l, r\| eq_item(l, r, eq_assoc_item_kind))
	},
	(MacCall(l), MacCall(r)) => eq_mac_call(l, r),
	(MacroDef(l), MacroDef(r)) => l.macro_rules == r.macro_rules && eq_mac_args(&l.body, &r.body),
	_ => false,
	}
	}

	pub fn eq_foreign_item_kind(l: &ForeignItemKind, r: &ForeignItemKind) -> bool {
	use ForeignItemKind::*;
	match (l, r) {
	(Static(lt, lm, le), Static(rt, rm, re)) => lm == rm && eq_ty(lt, rt) && eq_expr_opt(le, re),
	(Fn(ld, lf, lg, lb), Fn(rd, rf, rg, rb)) => {
	eq_defaultness(ld, rd) && eq_fn_sig(lf, rf) && eq_generics(lg, rg) && both(lb, rb, \|l, r\| eq_block(l, r))
	},
	(TyAlias(ld, lg, lb, lt), TyAlias(rd, rg, rb, rt)) => {
	eq_defaultness(ld, rd)
	&& eq_generics(lg, rg)
	&& over(lb, rb, \|l, r\| eq_generic_bound(l, r))
	&& both(lt, rt, \|l, r\| eq_ty(l, r))
	},
	(MacCall(l), MacCall(r)) => eq_mac_call(l, r),
	_ => false,
	}
	}

	pub fn eq_assoc_item_kind(l: &AssocItemKind, r: &AssocItemKind) -> bool {
	use AssocItemKind::*;
	match (l, r) {
	(Const(ld, lt, le), Const(rd, rt, re)) => eq_defaultness(ld, rd) && eq_ty(lt, rt) && eq_expr_opt(le, re),
	(Fn(ld, lf, lg, lb), Fn(rd, rf, rg, rb)) => {
	eq_defaultness(ld, rd) && eq_fn_sig(lf, rf) && eq_generics(lg, rg) && both(lb, rb, \|l, r\| eq_block(l, r))
	},
	(TyAlias(ld, lg, lb, lt), TyAlias(rd, rg, rb, rt)) => {
	eq_defaultness(ld, rd)
	&& eq_generics(lg, rg)
	&& over(lb, rb, \|l, r\| eq_generic_bound(l, r))
	&& both(lt, rt, \|l, r\| eq_ty(l, r))
	},
	(MacCall(l), MacCall(r)) => eq_mac_call(l, r),
	_ => false,
	}
	}

	pub fn eq_variant(l: &Variant, r: &Variant) -> bool {
	l.is_placeholder == r.is_placeholder
	&& over(&l.attrs, &r.attrs, \|l, r\| eq_attr(l, r))
	&& eq_vis(&l.vis, &r.vis)
	&& eq_id(l.ident, r.ident)
	&& eq_variant_data(&l.data, &r.data)
	&& both(&l.disr_expr, &r.disr_expr, \|l, r\| eq_expr(&l.value, &r.value))
	}

	pub fn eq_variant_data(l: &VariantData, r: &VariantData) -> bool {
	use VariantData::*;
	match (l, r) {
	(Unit(_), Unit(_)) => true,
	(Struct(l, _), Struct(r, _)) \| (Tuple(l, _), Tuple(r, _)) => over(l, r, \|l, r\| eq_struct_field(l, r)),
	_ => false,
	}
	}

	pub fn eq_struct_field(l: &StructField, r: &StructField) -> bool {
	l.is_placeholder == r.is_placeholder
	&& over(&l.attrs, &r.attrs, \|l, r\| eq_attr(l, r))
	&& eq_vis(&l.vis, &r.vis)
	&& both(&l.ident, &r.ident, \|l, r\| eq_id(l, r))
	&& eq_ty(&l.ty, &r.ty)
	}

	pub fn eq_fn_sig(l: &FnSig, r: &FnSig) -> bool {
	eq_fn_decl(&l.decl, &r.decl) && eq_fn_header(&l.header, &r.header)
	}

	pub fn eq_fn_header(l: &FnHeader, r: &FnHeader) -> bool {
	matches!(l.unsafety, Unsafe::No) == matches!(r.unsafety, Unsafe::No)
	&& l.asyncness.is_async() == r.asyncness.is_async()
	&& matches!(l.constness, Const::No) == matches!(r.constness, Const::No)
	&& eq_ext(&l.ext, &r.ext)
	}

	pub fn eq_generics(l: &Generics, r: &Generics) -> bool {
	over(&l.params, &r.params, \|l, r\| eq_generic_param(l, r))
	&& over(&l.where_clause.predicates, &r.where_clause.predicates, \|l, r\| {
	eq_where_predicate(l, r)
	})
	}

	pub fn eq_where_predicate(l: &WherePredicate, r: &WherePredicate) -> bool {
	use WherePredicate::*;
	match (l, r) {
	(BoundPredicate(l), BoundPredicate(r)) => {
	over(&l.bound_generic_params, &r.bound_generic_params, \|l, r\| {
	eq_generic_param(l, r)
	}) && eq_ty(&l.bounded_ty, &r.bounded_ty)
	&& over(&l.bounds, &r.bounds, \|l, r\| eq_generic_bound(l, r))
	},
	(RegionPredicate(l), RegionPredicate(r)) => {
	eq_id(l.lifetime.ident, r.lifetime.ident) && over(&l.bounds, &r.bounds, \|l, r\| eq_generic_bound(l, r))
	},
	(EqPredicate(l), EqPredicate(r)) => eq_ty(&l.lhs_ty, &r.lhs_ty) && eq_ty(&l.rhs_ty, &r.rhs_ty),
	_ => false,
	}
	}

	pub fn eq_use_tree(l: &UseTree, r: &UseTree) -> bool {
	eq_path(&l.prefix, &r.prefix) && eq_use_tree_kind(&l.kind, &r.kind)
	}

	pub fn eq_use_tree_kind(l: &UseTreeKind, r: &UseTreeKind) -> bool {
	use UseTreeKind::*;
	match (l, r) {
	(Glob, Glob) => true,
	(Simple(l, _, _), Simple(r, _, _)) => both(l, r, \|l, r\| eq_id(l, r)),
	(Nested(l), Nested(r)) => over(l, r, \|(l, _), (r, _)\| eq_use_tree(l, r)),
	_ => false,
	}
	}

	pub fn eq_defaultness(l: Defaultness, r: Defaultness) -> bool {
	match (l, r) {
	(Defaultness::Final, Defaultness::Final) \| (Defaultness::Default(_), Defaultness::Default(_)) => true,
	_ => false,
	}
	}

	pub fn eq_vis(l: &Visibility, r: &Visibility) -> bool {
	use VisibilityKind::*;
	match (&l.node, &r.node) {
	(Public, Public) \| (Inherited, Inherited) \| (Crate(_), Crate(_)) => true,
	(Restricted { path: l, .. }, Restricted { path: r, .. }) => eq_path(l, r),
	_ => false,
	}
	}

	pub fn eq_fn_decl(l: &FnDecl, r: &FnDecl) -> bool {
	eq_fn_ret_ty(&l.output, &r.output)
	&& over(&l.inputs, &r.inputs, \|l, r\| {
	l.is_placeholder == r.is_placeholder
	&& eq_pat(&l.pat, &r.pat)
	&& eq_ty(&l.ty, &r.ty)
	&& over(&l.attrs, &r.attrs, \|l, r\| eq_attr(l, r))
	})
	}

	pub fn eq_fn_ret_ty(l: &FnRetTy, r: &FnRetTy) -> bool {
	match (l, r) {
	(FnRetTy::Default(_), FnRetTy::Default(_)) => true,
	(FnRetTy::Ty(l), FnRetTy::Ty(r)) => eq_ty(l, r),
	_ => false,
	}
	}

	pub fn eq_ty(l: &Ty, r: &Ty) -> bool {
	use TyKind::*;
	match (&l.kind, &r.kind) {
	(Paren(l), _) => eq_ty(l, r),
	(_, Paren(r)) => eq_ty(l, r),
	(Never, Never) \| (Infer, Infer) \| (ImplicitSelf, ImplicitSelf) \| (Err, Err) \| (CVarArgs, CVarArgs) => true,
	(Slice(l), Slice(r)) => eq_ty(l, r),
	(Array(le, ls), Array(re, rs)) => eq_ty(le, re) && eq_expr(&ls.value, &rs.value),
	(Ptr(l), Ptr(r)) => l.mutbl == r.mutbl && eq_ty(&l.ty, &r.ty),
	(Rptr(ll, l), Rptr(rl, r)) => {
	both(ll, rl, \|l, r\| eq_id(l.ident, r.ident)) && l.mutbl == r.mutbl && eq_ty(&l.ty, &r.ty)
	},
	(BareFn(l), BareFn(r)) => {
	l.unsafety == r.unsafety
	&& eq_ext(&l.ext, &r.ext)
	&& over(&l.generic_params, &r.generic_params, \|l, r\| eq_generic_param(l, r))
	&& eq_fn_decl(&l.decl, &r.decl)
	},
	(Tup(l), Tup(r)) => over(l, r, \|l, r\| eq_ty(l, r)),
	(Path(lq, lp), Path(rq, rp)) => both(lq, rq, \|l, r\| eq_qself(l, r)) && eq_path(lp, rp),
	(TraitObject(lg, ls), TraitObject(rg, rs)) => ls == rs && over(lg, rg, \|l, r\| eq_generic_bound(l, r)),
	(ImplTrait(_, lg), ImplTrait(_, rg)) => over(lg, rg, \|l, r\| eq_generic_bound(l, r)),
	(Typeof(l), Typeof(r)) => eq_expr(&l.value, &r.value),
	(MacCall(l), MacCall(r)) => eq_mac_call(l, r),
	_ => false,
	}
	}

	pub fn eq_ext(l: &Extern, r: &Extern) -> bool {
	use Extern::*;
	match (l, r) {
	(None, None) \| (Implicit, Implicit) => true,
	(Explicit(l), Explicit(r)) => eq_str_lit(l, r),
	_ => false,
	}
	}

	pub fn eq_str_lit(l: &StrLit, r: &StrLit) -> bool {
	l.style == r.style && l.symbol == r.symbol && l.suffix == r.suffix
	}

	pub fn eq_poly_ref_trait(l: &PolyTraitRef, r: &PolyTraitRef) -> bool {
	eq_path(&l.trait_ref.path, &r.trait_ref.path)
	&& over(&l.bound_generic_params, &r.bound_generic_params, \|l, r\| {
	eq_generic_param(l, r)
	})
	}

	pub fn eq_generic_param(l: &GenericParam, r: &GenericParam) -> bool {
	use GenericParamKind::*;
	l.is_placeholder == r.is_placeholder
	&& eq_id(l.ident, r.ident)
	&& over(&l.bounds, &r.bounds, \|l, r\| eq_generic_bound(l, r))
	&& match (&l.kind, &r.kind) {
	(Lifetime, Lifetime) => true,
	(Type { default: l }, Type { default: r }) => both(l, r, \|l, r\| eq_ty(l, r)),
	(Const { ty: l, kw_span: _ }, Const { ty: r, kw_span: _ }) => eq_ty(l, r),
	_ => false,
	}
	&& over(&l.attrs, &r.attrs, \|l, r\| eq_attr(l, r))
	}

	pub fn eq_generic_bound(l: &GenericBound, r: &GenericBound) -> bool {
	use GenericBound::*;
	match (l, r) {
	(Trait(ptr1, tbm1), Trait(ptr2, tbm2)) => tbm1 == tbm2 && eq_poly_ref_trait(ptr1, ptr2),
	(Outlives(l), Outlives(r)) => eq_id(l.ident, r.ident),
	_ => false,
	}
	}

	pub fn eq_assoc_constraint(l: &AssocTyConstraint, r: &AssocTyConstraint) -> bool {
	use AssocTyConstraintKind::*;
	eq_id(l.ident, r.ident)
	&& match (&l.kind, &r.kind) {
	(Equality { ty: l }, Equality { ty: r }) => eq_ty(l, r),
	(Bound { bounds: l }, Bound { bounds: r }) => over(l, r, \|l, r\| eq_generic_bound(l, r)),
	_ => false,
	}
	}

	pub fn eq_mac_call(l: &MacCall, r: &MacCall) -> bool {
	eq_path(&l.path, &r.path) && eq_mac_args(&l.args, &r.args)
	}

	pub fn eq_attr(l: &Attribute, r: &Attribute) -> bool {
	use AttrKind::*;
	l.style == r.style
	&& match (&l.kind, &r.kind) {
	(DocComment(l), DocComment(r)) => l == r,
	(Normal(l), Normal(r)) => eq_path(&l.path, &r.path) && eq_mac_args(&l.args, &r.args),
	_ => false,
	}
	}

	pub fn eq_mac_args(l: &MacArgs, r: &MacArgs) -> bool {
	use MacArgs::*;
	match (l, r) {
	(Empty, Empty) => true,
	(Delimited(_, ld, lts), Delimited(_, rd, rts)) => ld == rd && lts.eq_unspanned(rts),
	(Eq(_, lts), Eq(_, rts)) => lts.eq_unspanned(rts),
	_ => false,
	}
	}