//! A MutVisitor represents an AST modification; it accepts an AST piece and //! and mutates it in place. So, for instance, macro expansion is a MutVisitor //! that walks over an AST and modifies it. //! //! Note: using a MutVisitor (other than the MacroExpander MutVisitor) on //! an AST before macro expansion is probably a bad idea. For instance, //! a MutVisitor renaming item names in a module will miss all of those //! that are created by the expansion of a macro. use crate::ast::*; use crate::source_map::{Spanned, respan}; use crate::parse::token::{self, Token}; use crate::ptr::P; use crate::ThinVec; use crate::tokenstream::*; use crate::util::map_in_place::MapInPlace; use smallvec::{smallvec, Array, SmallVec}; use syntax_pos::Span; use rustc_data_structures::sync::Lrc; use std::ops::DerefMut; use std::{panic, process, ptr}; #[cfg(test)] mod tests; pub trait ExpectOne { fn expect_one(self, err: &'static str) -> A::Item; } impl ExpectOne for SmallVec { fn expect_one(self, err: &'static str) -> A::Item { assert!(self.len() == 1, err); self.into_iter().next().unwrap() } } pub trait MutVisitor: Sized { // Methods in this trait have one of three forms: // // fn visit_t(&mut self, t: &mut T); // common // fn flat_map_t(&mut self, t: T) -> SmallVec<[T; 1]>; // rare // fn filter_map_t(&mut self, t: T) -> Option; // rarest // // Any additions to this trait should happen in form of a call to a public // `noop_*` function that only calls out to the visitor again, not other // `noop_*` functions. This is a necessary API workaround to the problem of // not being able to call out to the super default method in an overridden // default method. // // When writing these methods, it is better to use destructuring like this: // // fn visit_abc(&mut self, ABC { a, b, c: _ }: &mut ABC) { // visit_a(a); // visit_b(b); // } // // than to use field access like this: // // fn visit_abc(&mut self, abc: &mut ABC) { // visit_a(&mut abc.a); // visit_b(&mut abc.b); // // ignore abc.c // } // // As well as being more concise, the former is explicit about which fields // are skipped. Furthermore, if a new field is added, the destructuring // version will cause a compile error, which is good. In comparison, the // field access version will continue working and it would be easy to // forget to add handling for it. fn visit_crate(&mut self, c: &mut Crate) { noop_visit_crate(c, self) } fn visit_meta_list_item(&mut self, list_item: &mut NestedMetaItem) { noop_visit_meta_list_item(list_item, self); } fn visit_meta_item(&mut self, meta_item: &mut MetaItem) { noop_visit_meta_item(meta_item, self); } fn visit_use_tree(&mut self, use_tree: &mut UseTree) { noop_visit_use_tree(use_tree, self); } fn flat_map_foreign_item(&mut self, ni: ForeignItem) -> SmallVec<[ForeignItem; 1]> { noop_flat_map_foreign_item(ni, self) } fn flat_map_item(&mut self, i: P) -> SmallVec<[P; 1]> { noop_flat_map_item(i, self) } fn visit_fn_header(&mut self, header: &mut FnHeader) { noop_visit_fn_header(header, self); } fn flat_map_struct_field(&mut self, sf: StructField) -> SmallVec<[StructField; 1]> { noop_flat_map_struct_field(sf, self) } fn visit_item_kind(&mut self, i: &mut ItemKind) { noop_visit_item_kind(i, self); } fn flat_map_trait_item(&mut self, i: TraitItem) -> SmallVec<[TraitItem; 1]> { noop_flat_map_trait_item(i, self) } fn flat_map_impl_item(&mut self, i: ImplItem) -> SmallVec<[ImplItem; 1]> { noop_flat_map_impl_item(i, self) } fn visit_fn_decl(&mut self, d: &mut P) { noop_visit_fn_decl(d, self); } fn visit_asyncness(&mut self, a: &mut IsAsync) { noop_visit_asyncness(a, self); } fn visit_block(&mut self, b: &mut P) { noop_visit_block(b, self); } fn flat_map_stmt(&mut self, s: Stmt) -> SmallVec<[Stmt; 1]> { noop_flat_map_stmt(s, self) } fn flat_map_arm(&mut self, arm: Arm) -> SmallVec<[Arm; 1]> { noop_flat_map_arm(arm, self) } fn visit_pat(&mut self, p: &mut P) { noop_visit_pat(p, self); } fn visit_anon_const(&mut self, c: &mut AnonConst) { noop_visit_anon_const(c, self); } fn visit_expr(&mut self, e: &mut P) { noop_visit_expr(e, self); } fn filter_map_expr(&mut self, e: P) -> Option> { noop_filter_map_expr(e, self) } fn visit_generic_arg(&mut self, arg: &mut GenericArg) { noop_visit_generic_arg(arg, self); } fn visit_ty(&mut self, t: &mut P) { noop_visit_ty(t, self); } fn visit_lifetime(&mut self, l: &mut Lifetime) { noop_visit_lifetime(l, self); } fn visit_ty_constraint(&mut self, t: &mut AssocTyConstraint) { noop_visit_ty_constraint(t, self); } fn visit_mod(&mut self, m: &mut Mod) { noop_visit_mod(m, self); } fn visit_foreign_mod(&mut self, nm: &mut ForeignMod) { noop_visit_foreign_mod(nm, self); } fn flat_map_variant(&mut self, v: Variant) -> SmallVec<[Variant; 1]> { noop_flat_map_variant(v, self) } fn visit_ident(&mut self, i: &mut Ident) { noop_visit_ident(i, self); } fn visit_path(&mut self, p: &mut Path) { noop_visit_path(p, self); } fn visit_qself(&mut self, qs: &mut Option) { noop_visit_qself(qs, self); } fn visit_generic_args(&mut self, p: &mut GenericArgs) { noop_visit_generic_args(p, self); } fn visit_angle_bracketed_parameter_data(&mut self, p: &mut AngleBracketedArgs) { noop_visit_angle_bracketed_parameter_data(p, self); } fn visit_parenthesized_parameter_data(&mut self, p: &mut ParenthesizedArgs) { noop_visit_parenthesized_parameter_data(p, self); } fn visit_local(&mut self, l: &mut P) { noop_visit_local(l, self); } fn visit_mac(&mut self, _mac: &mut Mac) { panic!("visit_mac disabled by default"); // N.B., see note about macros above. If you really want a visitor that // works on macros, use this definition in your trait impl: // mut_visit::noop_visit_mac(_mac, self); } fn visit_macro_def(&mut self, def: &mut MacroDef) { noop_visit_macro_def(def, self); } fn visit_label(&mut self, label: &mut Label) { noop_visit_label(label, self); } fn visit_attribute(&mut self, at: &mut Attribute) { noop_visit_attribute(at, self); } fn flat_map_param(&mut self, param: Param) -> SmallVec<[Param; 1]> { noop_flat_map_param(param, self) } fn visit_generics(&mut self, generics: &mut Generics) { noop_visit_generics(generics, self); } fn visit_trait_ref(&mut self, tr: &mut TraitRef) { noop_visit_trait_ref(tr, self); } fn visit_poly_trait_ref(&mut self, p: &mut PolyTraitRef) { noop_visit_poly_trait_ref(p, self); } fn visit_variant_data(&mut self, vdata: &mut VariantData) { noop_visit_variant_data(vdata, self); } fn flat_map_generic_param(&mut self, param: GenericParam) -> SmallVec<[GenericParam; 1]> { noop_flat_map_generic_param(param, self) } fn visit_tt(&mut self, tt: &mut TokenTree) { noop_visit_tt(tt, self); } fn visit_tts(&mut self, tts: &mut TokenStream) { noop_visit_tts(tts, self); } fn visit_token(&mut self, t: &mut Token) { noop_visit_token(t, self); } fn visit_interpolated(&mut self, nt: &mut token::Nonterminal) { noop_visit_interpolated(nt, self); } fn visit_param_bound(&mut self, tpb: &mut GenericBound) { noop_visit_param_bound(tpb, self); } fn visit_mt(&mut self, mt: &mut MutTy) { noop_visit_mt(mt, self); } fn flat_map_field(&mut self, f: Field) -> SmallVec<[Field; 1]> { noop_flat_map_field(f, self) } fn visit_where_clause(&mut self, where_clause: &mut WhereClause) { noop_visit_where_clause(where_clause, self); } fn visit_where_predicate(&mut self, where_predicate: &mut WherePredicate) { noop_visit_where_predicate(where_predicate, self); } fn visit_vis(&mut self, vis: &mut Visibility) { noop_visit_vis(vis, self); } fn visit_id(&mut self, _id: &mut NodeId) { // Do nothing. } fn visit_span(&mut self, _sp: &mut Span) { // Do nothing. } fn flat_map_field_pattern(&mut self, fp: FieldPat) -> SmallVec<[FieldPat; 1]> { noop_flat_map_field_pattern(fp, self) } } /// Use a map-style function (`FnOnce(T) -> T`) to overwrite a `&mut T`. Useful /// when using a `flat_map_*` or `filter_map_*` method within a `visit_` /// method. Abort the program if the closure panics. // // No `noop_` prefix because there isn't a corresponding method in `MutVisitor`. pub fn visit_clobber(t: &mut T, f: F) where F: FnOnce(T) -> T { unsafe { // Safe because `t` is used in a read-only fashion by `read()` before // being overwritten by `write()`. let old_t = ptr::read(t); let new_t = panic::catch_unwind(panic::AssertUnwindSafe(|| f(old_t))) .unwrap_or_else(|_| process::abort()); ptr::write(t, new_t); } } // No `noop_` prefix because there isn't a corresponding method in `MutVisitor`. #[inline] pub fn visit_vec(elems: &mut Vec, mut visit_elem: F) where F: FnMut(&mut T) { for elem in elems { visit_elem(elem); } } // No `noop_` prefix because there isn't a corresponding method in `MutVisitor`. #[inline] pub fn visit_opt(opt: &mut Option, mut visit_elem: F) where F: FnMut(&mut T) { if let Some(elem) = opt { visit_elem(elem); } } // No `noop_` prefix because there isn't a corresponding method in `MutVisitor`. pub fn visit_attrs(attrs: &mut Vec, vis: &mut T) { visit_vec(attrs, |attr| vis.visit_attribute(attr)); } // No `noop_` prefix because there isn't a corresponding method in `MutVisitor`. pub fn visit_thin_attrs(attrs: &mut ThinVec, vis: &mut T) { for attr in attrs.iter_mut() { vis.visit_attribute(attr); } } // No `noop_` prefix because there isn't a corresponding method in `MutVisitor`. pub fn visit_exprs(exprs: &mut Vec>, vis: &mut T) { exprs.flat_map_in_place(|expr| vis.filter_map_expr(expr)) } // No `noop_` prefix because there isn't a corresponding method in `MutVisitor`. pub fn visit_bounds(bounds: &mut GenericBounds, vis: &mut T) { visit_vec(bounds, |bound| vis.visit_param_bound(bound)); } // No `noop_` prefix because there isn't a corresponding method in `MutVisitor`. pub fn visit_method_sig(MethodSig { header, decl }: &mut MethodSig, vis: &mut T) { vis.visit_fn_header(header); vis.visit_fn_decl(decl); } pub fn noop_flat_map_field_pattern( mut fp: FieldPat, vis: &mut T, ) -> SmallVec<[FieldPat; 1]> { let FieldPat { attrs, id, ident, is_shorthand: _, pat, span, } = &mut fp; vis.visit_id(id); vis.visit_ident(ident); vis.visit_pat(pat); vis.visit_span(span); visit_thin_attrs(attrs, vis); smallvec![fp] } pub fn noop_visit_use_tree(use_tree: &mut UseTree, vis: &mut T) { let UseTree { prefix, kind, span } = use_tree; vis.visit_path(prefix); match kind { UseTreeKind::Simple(rename, id1, id2) => { visit_opt(rename, |rename| vis.visit_ident(rename)); vis.visit_id(id1); vis.visit_id(id2); } UseTreeKind::Nested(items) => { for (tree, id) in items { vis.visit_use_tree(tree); vis.visit_id(id); } } UseTreeKind::Glob => {} } vis.visit_span(span); } pub fn noop_flat_map_arm( mut arm: Arm, vis: &mut T, ) -> SmallVec<[Arm; 1]> { let Arm { attrs, pats, guard, body, span, id } = &mut arm; visit_attrs(attrs, vis); vis.visit_id(id); visit_vec(pats, |pat| vis.visit_pat(pat)); visit_opt(guard, |guard| vis.visit_expr(guard)); vis.visit_expr(body); vis.visit_span(span); smallvec![arm] } pub fn noop_visit_ty_constraint( AssocTyConstraint { id, ident, kind, span }: &mut AssocTyConstraint, vis: &mut T ) { vis.visit_id(id); vis.visit_ident(ident); match kind { AssocTyConstraintKind::Equality { ref mut ty } => { vis.visit_ty(ty); } AssocTyConstraintKind::Bound { ref mut bounds } => { visit_bounds(bounds, vis); } } vis.visit_span(span); } pub fn noop_visit_ty(ty: &mut P, vis: &mut T) { let Ty { id, node, span } = ty.deref_mut(); vis.visit_id(id); match node { TyKind::Infer | TyKind::ImplicitSelf | TyKind::Err | TyKind::Never | TyKind::CVarArgs => {} TyKind::Slice(ty) => vis.visit_ty(ty), TyKind::Ptr(mt) => vis.visit_mt(mt), TyKind::Rptr(lt, mt) => { visit_opt(lt, |lt| noop_visit_lifetime(lt, vis)); vis.visit_mt(mt); } TyKind::BareFn(bft) => { let BareFnTy { unsafety: _, abi: _, generic_params, decl } = bft.deref_mut(); generic_params.flat_map_in_place(|param| vis.flat_map_generic_param(param)); vis.visit_fn_decl(decl); } TyKind::Tup(tys) => visit_vec(tys, |ty| vis.visit_ty(ty)), TyKind::Paren(ty) => vis.visit_ty(ty), TyKind::Path(qself, path) => { vis.visit_qself(qself); vis.visit_path(path); } TyKind::Array(ty, length) => { vis.visit_ty(ty); vis.visit_anon_const(length); } TyKind::Typeof(expr) => vis.visit_anon_const(expr), TyKind::TraitObject(bounds, _syntax) => visit_vec(bounds, |bound| vis.visit_param_bound(bound)), TyKind::ImplTrait(id, bounds) => { vis.visit_id(id); visit_vec(bounds, |bound| vis.visit_param_bound(bound)); } TyKind::Mac(mac) => vis.visit_mac(mac), } vis.visit_span(span); } pub fn noop_visit_foreign_mod(foreign_mod: &mut ForeignMod, vis: &mut T) { let ForeignMod { abi: _, items} = foreign_mod; items.flat_map_in_place(|item| vis.flat_map_foreign_item(item)); } pub fn noop_flat_map_variant(mut variant: Variant, vis: &mut T) -> SmallVec<[Variant; 1]> { let Variant { ident, attrs, id, data, disr_expr, span } = &mut variant; vis.visit_ident(ident); visit_attrs(attrs, vis); vis.visit_id(id); vis.visit_variant_data(data); visit_opt(disr_expr, |disr_expr| vis.visit_anon_const(disr_expr)); vis.visit_span(span); smallvec![variant] } pub fn noop_visit_ident(Ident { name: _, span }: &mut Ident, vis: &mut T) { vis.visit_span(span); } pub fn noop_visit_path(Path { segments, span }: &mut Path, vis: &mut T) { vis.visit_span(span); for PathSegment { ident, id, args } in segments { vis.visit_ident(ident); vis.visit_id(id); visit_opt(args, |args| vis.visit_generic_args(args)); } } pub fn noop_visit_qself(qself: &mut Option, vis: &mut T) { visit_opt(qself, |QSelf { ty, path_span, position: _ }| { vis.visit_ty(ty); vis.visit_span(path_span); }) } pub fn noop_visit_generic_args(generic_args: &mut GenericArgs, vis: &mut T) { match generic_args { GenericArgs::AngleBracketed(data) => vis.visit_angle_bracketed_parameter_data(data), GenericArgs::Parenthesized(data) => vis.visit_parenthesized_parameter_data(data), } } pub fn noop_visit_generic_arg(arg: &mut GenericArg, vis: &mut T) { match arg { GenericArg::Lifetime(lt) => vis.visit_lifetime(lt), GenericArg::Type(ty) => vis.visit_ty(ty), GenericArg::Const(ct) => vis.visit_anon_const(ct), } } pub fn noop_visit_angle_bracketed_parameter_data(data: &mut AngleBracketedArgs, vis: &mut T) { let AngleBracketedArgs { args, constraints, span } = data; visit_vec(args, |arg| vis.visit_generic_arg(arg)); visit_vec(constraints, |constraint| vis.visit_ty_constraint(constraint)); vis.visit_span(span); } pub fn noop_visit_parenthesized_parameter_data(args: &mut ParenthesizedArgs, vis: &mut T) { let ParenthesizedArgs { inputs, output, span } = args; visit_vec(inputs, |input| vis.visit_ty(input)); visit_opt(output, |output| vis.visit_ty(output)); vis.visit_span(span); } pub fn noop_visit_local(local: &mut P, vis: &mut T) { let Local { id, pat, ty, init, span, attrs } = local.deref_mut(); vis.visit_id(id); vis.visit_pat(pat); visit_opt(ty, |ty| vis.visit_ty(ty)); visit_opt(init, |init| vis.visit_expr(init)); vis.visit_span(span); visit_thin_attrs(attrs, vis); } pub fn noop_visit_attribute(attr: &mut Attribute, vis: &mut T) { let Attribute { id: _, style: _, path, tokens, is_sugared_doc: _, span } = attr; vis.visit_path(path); vis.visit_tts(tokens); vis.visit_span(span); } pub fn noop_visit_mac(mac: &mut Mac, vis: &mut T) { let Mac { path, delim: _, tts, span, prior_type_ascription: _ } = mac; vis.visit_path(path); vis.visit_tts(tts); vis.visit_span(span); } pub fn noop_visit_macro_def(macro_def: &mut MacroDef, vis: &mut T) { let MacroDef { tokens, legacy: _ } = macro_def; vis.visit_tts(tokens); } pub fn noop_visit_meta_list_item(li: &mut NestedMetaItem, vis: &mut T) { match li { NestedMetaItem::MetaItem(mi) => vis.visit_meta_item(mi), NestedMetaItem::Literal(_lit) => {} } } pub fn noop_visit_meta_item(mi: &mut MetaItem, vis: &mut T) { let MetaItem { path: _, node, span } = mi; match node { MetaItemKind::Word => {} MetaItemKind::List(mis) => visit_vec(mis, |mi| vis.visit_meta_list_item(mi)), MetaItemKind::NameValue(_s) => {} } vis.visit_span(span); } pub fn noop_flat_map_param(mut param: Param, vis: &mut T) -> SmallVec<[Param; 1]> { let Param { attrs, id, pat, span, ty } = &mut param; vis.visit_id(id); visit_thin_attrs(attrs, vis); vis.visit_pat(pat); vis.visit_span(span); vis.visit_ty(ty); smallvec![param] } pub fn noop_visit_tt(tt: &mut TokenTree, vis: &mut T) { match tt { TokenTree::Token(token) => { vis.visit_token(token); } TokenTree::Delimited(DelimSpan { open, close }, _delim, tts) => { vis.visit_span(open); vis.visit_span(close); vis.visit_tts(tts); } } } pub fn noop_visit_tts(TokenStream(tts): &mut TokenStream, vis: &mut T) { visit_opt(tts, |tts| { let tts = Lrc::make_mut(tts); visit_vec(tts, |(tree, _is_joint)| vis.visit_tt(tree)); }) } // Apply ident visitor if it's an ident, apply other visits to interpolated nodes. // In practice the ident part is not actually used by specific visitors right now, // but there's a test below checking that it works. pub fn noop_visit_token(t: &mut Token, vis: &mut T) { let Token { kind, span } = t; match kind { token::Ident(name, _) | token::Lifetime(name) => { let mut ident = Ident::new(*name, *span); vis.visit_ident(&mut ident); *name = ident.name; *span = ident.span; return; // avoid visiting the span for the second time } token::Interpolated(nt) => { let mut nt = Lrc::make_mut(nt); vis.visit_interpolated(&mut nt); } _ => {} } vis.visit_span(span); } /// Apply visitor to elements of interpolated nodes. // // N.B., this can occur only when applying a visitor to partially expanded // code, where parsed pieces have gotten implanted ito *other* macro // invocations. This is relevant for macro hygiene, but possibly not elsewhere. // // One problem here occurs because the types for flat_map_item, flat_map_stmt, // etc. allow the visitor to return *multiple* items; this is a problem for the // nodes here, because they insist on having exactly one piece. One solution // would be to mangle the MutVisitor trait to include one-to-many and // one-to-one versions of these entry points, but that would probably confuse a // lot of people and help very few. Instead, I'm just going to put in dynamic // checks. I think the performance impact of this will be pretty much // nonexistent. The danger is that someone will apply a MutVisitor to a // partially expanded node, and will be confused by the fact that their // "flat_map_item" or "flat_map_stmt" isn't getting called on NtItem or NtStmt // nodes. Hopefully they'll wind up reading this comment, and doing something // appropriate. // // BTW, design choice: I considered just changing the type of, e.g., NtItem to // contain multiple items, but decided against it when I looked at // parse_item_or_view_item and tried to figure out what I would do with // multiple items there.... pub fn noop_visit_interpolated(nt: &mut token::Nonterminal, vis: &mut T) { match nt { token::NtItem(item) => visit_clobber(item, |item| { // This is probably okay, because the only visitors likely to // peek inside interpolated nodes will be renamings/markings, // which map single items to single items. vis.flat_map_item(item).expect_one("expected visitor to produce exactly one item") }), token::NtBlock(block) => vis.visit_block(block), token::NtStmt(stmt) => visit_clobber(stmt, |stmt| { // See reasoning above. vis.flat_map_stmt(stmt).expect_one("expected visitor to produce exactly one item") }), token::NtPat(pat) => vis.visit_pat(pat), token::NtExpr(expr) => vis.visit_expr(expr), token::NtTy(ty) => vis.visit_ty(ty), token::NtIdent(ident, _is_raw) => vis.visit_ident(ident), token::NtLifetime(ident) => vis.visit_ident(ident), token::NtLiteral(expr) => vis.visit_expr(expr), token::NtMeta(meta) => vis.visit_meta_item(meta), token::NtPath(path) => vis.visit_path(path), token::NtTT(tt) => vis.visit_tt(tt), token::NtImplItem(item) => visit_clobber(item, |item| { // See reasoning above. vis.flat_map_impl_item(item) .expect_one("expected visitor to produce exactly one item") }), token::NtTraitItem(item) => visit_clobber(item, |item| { // See reasoning above. vis.flat_map_trait_item(item) .expect_one("expected visitor to produce exactly one item") }), token::NtVis(visib) => vis.visit_vis(visib), token::NtForeignItem(item) => visit_clobber(item, |item| { // See reasoning above. vis.flat_map_foreign_item(item) .expect_one("expected visitor to produce exactly one item") }), } } pub fn noop_visit_asyncness(asyncness: &mut IsAsync, vis: &mut T) { match asyncness { IsAsync::Async { closure_id, return_impl_trait_id } => { vis.visit_id(closure_id); vis.visit_id(return_impl_trait_id); } IsAsync::NotAsync => {} } } pub fn noop_visit_fn_decl(decl: &mut P, vis: &mut T) { let FnDecl { inputs, output, c_variadic: _ } = decl.deref_mut(); inputs.flat_map_in_place(|param| vis.flat_map_param(param)); match output { FunctionRetTy::Default(span) => vis.visit_span(span), FunctionRetTy::Ty(ty) => vis.visit_ty(ty), } } pub fn noop_visit_param_bound(pb: &mut GenericBound, vis: &mut T) { match pb { GenericBound::Trait(ty, _modifier) => vis.visit_poly_trait_ref(ty), GenericBound::Outlives(lifetime) => noop_visit_lifetime(lifetime, vis), } } pub fn noop_flat_map_generic_param( mut param: GenericParam, vis: &mut T ) -> SmallVec<[GenericParam; 1]> { let GenericParam { id, ident, attrs, bounds, kind } = &mut param; vis.visit_id(id); vis.visit_ident(ident); visit_thin_attrs(attrs, vis); visit_vec(bounds, |bound| noop_visit_param_bound(bound, vis)); match kind { GenericParamKind::Lifetime => {} GenericParamKind::Type { default } => { visit_opt(default, |default| vis.visit_ty(default)); } GenericParamKind::Const { ty } => { vis.visit_ty(ty); } } smallvec![param] } pub fn noop_visit_label(Label { ident }: &mut Label, vis: &mut T) { vis.visit_ident(ident); } fn noop_visit_lifetime(Lifetime { id, ident }: &mut Lifetime, vis: &mut T) { vis.visit_id(id); vis.visit_ident(ident); } pub fn noop_visit_generics(generics: &mut Generics, vis: &mut T) { let Generics { params, where_clause, span } = generics; params.flat_map_in_place(|param| vis.flat_map_generic_param(param)); vis.visit_where_clause(where_clause); vis.visit_span(span); } pub fn noop_visit_where_clause(wc: &mut WhereClause, vis: &mut T) { let WhereClause { predicates, span } = wc; visit_vec(predicates, |predicate| vis.visit_where_predicate(predicate)); vis.visit_span(span); } pub fn noop_visit_where_predicate(pred: &mut WherePredicate, vis: &mut T) { match pred { WherePredicate::BoundPredicate(bp) => { let WhereBoundPredicate { span, bound_generic_params, bounded_ty, bounds } = bp; vis.visit_span(span); bound_generic_params.flat_map_in_place(|param| vis.flat_map_generic_param(param)); vis.visit_ty(bounded_ty); visit_vec(bounds, |bound| vis.visit_param_bound(bound)); } WherePredicate::RegionPredicate(rp) => { let WhereRegionPredicate { span, lifetime, bounds } = rp; vis.visit_span(span); noop_visit_lifetime(lifetime, vis); visit_vec(bounds, |bound| noop_visit_param_bound(bound, vis)); } WherePredicate::EqPredicate(ep) => { let WhereEqPredicate { id, span, lhs_ty, rhs_ty } = ep; vis.visit_id(id); vis.visit_span(span); vis.visit_ty(lhs_ty); vis.visit_ty(rhs_ty); } } } pub fn noop_visit_variant_data(vdata: &mut VariantData, vis: &mut T) { match vdata { VariantData::Struct(fields, ..) => { fields.flat_map_in_place(|field| vis.flat_map_struct_field(field)); }, VariantData::Tuple(fields, id) => { fields.flat_map_in_place(|field| vis.flat_map_struct_field(field)); vis.visit_id(id); }, VariantData::Unit(id) => vis.visit_id(id), } } pub fn noop_visit_trait_ref(TraitRef { path, ref_id }: &mut TraitRef, vis: &mut T) { vis.visit_path(path); vis.visit_id(ref_id); } pub fn noop_visit_poly_trait_ref(p: &mut PolyTraitRef, vis: &mut T) { let PolyTraitRef { bound_generic_params, trait_ref, span } = p; bound_generic_params.flat_map_in_place(|param| vis.flat_map_generic_param(param)); vis.visit_trait_ref(trait_ref); vis.visit_span(span); } pub fn noop_flat_map_struct_field(mut sf: StructField, visitor: &mut T) -> SmallVec<[StructField; 1]> { let StructField { span, ident, vis, id, ty, attrs } = &mut sf; visitor.visit_span(span); visit_opt(ident, |ident| visitor.visit_ident(ident)); visitor.visit_vis(vis); visitor.visit_id(id); visitor.visit_ty(ty); visit_attrs(attrs, visitor); smallvec![sf] } pub fn noop_flat_map_field(mut f: Field, vis: &mut T) -> SmallVec<[Field; 1]> { let Field { ident, expr, span, is_shorthand: _, attrs, id } = &mut f; vis.visit_ident(ident); vis.visit_expr(expr); vis.visit_id(id); vis.visit_span(span); visit_thin_attrs(attrs, vis); smallvec![f] } pub fn noop_visit_mt(MutTy { ty, mutbl: _ }: &mut MutTy, vis: &mut T) { vis.visit_ty(ty); } pub fn noop_visit_block(block: &mut P, vis: &mut T) { let Block { id, stmts, rules: _, span } = block.deref_mut(); vis.visit_id(id); stmts.flat_map_in_place(|stmt| vis.flat_map_stmt(stmt)); vis.visit_span(span); } pub fn noop_visit_item_kind(kind: &mut ItemKind, vis: &mut T) { match kind { ItemKind::ExternCrate(_orig_name) => {} ItemKind::Use(use_tree) => vis.visit_use_tree(use_tree), ItemKind::Static(ty, _mut, expr) => { vis.visit_ty(ty); vis.visit_expr(expr); } ItemKind::Const(ty, expr) => { vis.visit_ty(ty); vis.visit_expr(expr); } ItemKind::Fn(decl, header, generics, body) => { vis.visit_fn_decl(decl); vis.visit_fn_header(header); vis.visit_generics(generics); vis.visit_block(body); } ItemKind::Mod(m) => vis.visit_mod(m), ItemKind::ForeignMod(nm) => vis.visit_foreign_mod(nm), ItemKind::GlobalAsm(_ga) => {} ItemKind::TyAlias(ty, generics) => { vis.visit_ty(ty); vis.visit_generics(generics); } ItemKind::OpaqueTy(bounds, generics) => { visit_bounds(bounds, vis); vis.visit_generics(generics); } ItemKind::Enum(EnumDef { variants }, generics) => { variants.flat_map_in_place(|variant| vis.flat_map_variant(variant)); vis.visit_generics(generics); } ItemKind::Struct(variant_data, generics) | ItemKind::Union(variant_data, generics) => { vis.visit_variant_data(variant_data); vis.visit_generics(generics); } ItemKind::Impl(_unsafety, _polarity, _defaultness, generics, trait_ref, ty, items) => { vis.visit_generics(generics); visit_opt(trait_ref, |trait_ref| vis.visit_trait_ref(trait_ref)); vis.visit_ty(ty); items.flat_map_in_place(|item| vis.flat_map_impl_item(item)); } ItemKind::Trait(_is_auto, _unsafety, generics, bounds, items) => { vis.visit_generics(generics); visit_bounds(bounds, vis); items.flat_map_in_place(|item| vis.flat_map_trait_item(item)); } ItemKind::TraitAlias(generics, bounds) => { vis.visit_generics(generics); visit_bounds(bounds, vis); } ItemKind::Mac(m) => vis.visit_mac(m), ItemKind::MacroDef(def) => vis.visit_macro_def(def), } } pub fn noop_flat_map_trait_item(mut item: TraitItem, vis: &mut T) -> SmallVec<[TraitItem; 1]> { let TraitItem { id, ident, attrs, generics, node, span, tokens: _ } = &mut item; vis.visit_id(id); vis.visit_ident(ident); visit_attrs(attrs, vis); vis.visit_generics(generics); match node { TraitItemKind::Const(ty, default) => { vis.visit_ty(ty); visit_opt(default, |default| vis.visit_expr(default)); } TraitItemKind::Method(sig, body) => { visit_method_sig(sig, vis); visit_opt(body, |body| vis.visit_block(body)); } TraitItemKind::Type(bounds, default) => { visit_bounds(bounds, vis); visit_opt(default, |default| vis.visit_ty(default)); } TraitItemKind::Macro(mac) => { vis.visit_mac(mac); } } vis.visit_span(span); smallvec![item] } pub fn noop_flat_map_impl_item(mut item: ImplItem, visitor: &mut T) -> SmallVec<[ImplItem; 1]> { let ImplItem { id, ident, vis, defaultness: _, attrs, generics, node, span, tokens: _ } = &mut item; visitor.visit_id(id); visitor.visit_ident(ident); visitor.visit_vis(vis); visit_attrs(attrs, visitor); visitor.visit_generics(generics); match node { ImplItemKind::Const(ty, expr) => { visitor.visit_ty(ty); visitor.visit_expr(expr); } ImplItemKind::Method(sig, body) => { visit_method_sig(sig, visitor); visitor.visit_block(body); } ImplItemKind::TyAlias(ty) => visitor.visit_ty(ty), ImplItemKind::OpaqueTy(bounds) => visit_bounds(bounds, visitor), ImplItemKind::Macro(mac) => visitor.visit_mac(mac), } visitor.visit_span(span); smallvec![item] } pub fn noop_visit_fn_header(header: &mut FnHeader, vis: &mut T) { let FnHeader { unsafety: _, asyncness, constness: _, abi: _ } = header; vis.visit_asyncness(&mut asyncness.node); } pub fn noop_visit_mod(Mod { inner, items, inline: _ }: &mut Mod, vis: &mut T) { vis.visit_span(inner); items.flat_map_in_place(|item| vis.flat_map_item(item)); } pub fn noop_visit_crate(krate: &mut Crate, vis: &mut T) { visit_clobber(krate, |Crate { module, attrs, span }| { let item = P(Item { ident: Ident::invalid(), attrs, id: DUMMY_NODE_ID, vis: respan(span.shrink_to_lo(), VisibilityKind::Public), span, node: ItemKind::Mod(module), tokens: None, }); let items = vis.flat_map_item(item); let len = items.len(); if len == 0 { let module = Mod { inner: span, items: vec![], inline: true }; Crate { module, attrs: vec![], span } } else if len == 1 { let Item { attrs, span, node, .. } = items.into_iter().next().unwrap().into_inner(); match node { ItemKind::Mod(module) => Crate { module, attrs, span }, _ => panic!("visitor converted a module to not a module"), } } else { panic!("a crate cannot expand to more than one item"); } }); } // Mutate one item into possibly many items. pub fn noop_flat_map_item(mut item: P, visitor: &mut T) -> SmallVec<[P; 1]> { let Item { ident, attrs, id, node, vis, span, tokens: _ } = item.deref_mut(); visitor.visit_ident(ident); visit_attrs(attrs, visitor); visitor.visit_id(id); visitor.visit_item_kind(node); visitor.visit_vis(vis); visitor.visit_span(span); // FIXME: if `tokens` is modified with a call to `vis.visit_tts` it causes // an ICE during resolve... odd! smallvec![item] } pub fn noop_flat_map_foreign_item(mut item: ForeignItem, visitor: &mut T) -> SmallVec<[ForeignItem; 1]> { let ForeignItem { ident, attrs, node, id, span, vis } = &mut item; visitor.visit_ident(ident); visit_attrs(attrs, visitor); match node { ForeignItemKind::Fn(fdec, generics) => { visitor.visit_fn_decl(fdec); visitor.visit_generics(generics); } ForeignItemKind::Static(t, _m) => visitor.visit_ty(t), ForeignItemKind::Ty => {} ForeignItemKind::Macro(mac) => visitor.visit_mac(mac), } visitor.visit_id(id); visitor.visit_span(span); visitor.visit_vis(vis); smallvec![item] } pub fn noop_visit_pat(pat: &mut P, vis: &mut T) { let Pat { id, node, span } = pat.deref_mut(); vis.visit_id(id); match node { PatKind::Wild | PatKind::Rest => {} PatKind::Ident(_binding_mode, ident, sub) => { vis.visit_ident(ident); visit_opt(sub, |sub| vis.visit_pat(sub)); } PatKind::Lit(e) => vis.visit_expr(e), PatKind::TupleStruct(path, elems) => { vis.visit_path(path); visit_vec(elems, |elem| vis.visit_pat(elem)); } PatKind::Path(qself, path) => { vis.visit_qself(qself); vis.visit_path(path); } PatKind::Struct(path, fields, _etc) => { vis.visit_path(path); fields.flat_map_in_place(|field| vis.flat_map_field_pattern(field)); } PatKind::Box(inner) => vis.visit_pat(inner), PatKind::Ref(inner, _mutbl) => vis.visit_pat(inner), PatKind::Range(e1, e2, Spanned { span: _, node: _ }) => { vis.visit_expr(e1); vis.visit_expr(e2); vis.visit_span(span); } PatKind::Tuple(elems) | PatKind::Slice(elems) | PatKind::Or(elems) => visit_vec(elems, |elem| vis.visit_pat(elem)), PatKind::Paren(inner) => vis.visit_pat(inner), PatKind::Mac(mac) => vis.visit_mac(mac), } vis.visit_span(span); } pub fn noop_visit_anon_const(AnonConst { id, value }: &mut AnonConst, vis: &mut T) { vis.visit_id(id); vis.visit_expr(value); } pub fn noop_visit_expr(Expr { node, id, span, attrs }: &mut Expr, vis: &mut T) { match node { ExprKind::Box(expr) => vis.visit_expr(expr), ExprKind::Array(exprs) => visit_exprs(exprs, vis), ExprKind::Repeat(expr, count) => { vis.visit_expr(expr); vis.visit_anon_const(count); } ExprKind::Tup(exprs) => visit_exprs(exprs, vis), ExprKind::Call(f, args) => { vis.visit_expr(f); visit_exprs(args, vis); } ExprKind::MethodCall(PathSegment { ident, id, args }, exprs) => { vis.visit_ident(ident); vis.visit_id(id); visit_opt(args, |args| vis.visit_generic_args(args)); visit_exprs(exprs, vis); } ExprKind::Binary(_binop, lhs, rhs) => { vis.visit_expr(lhs); vis.visit_expr(rhs); } ExprKind::Unary(_unop, ohs) => vis.visit_expr(ohs), ExprKind::Cast(expr, ty) => { vis.visit_expr(expr); vis.visit_ty(ty); } ExprKind::Type(expr, ty) => { vis.visit_expr(expr); vis.visit_ty(ty); } ExprKind::AddrOf(_m, ohs) => vis.visit_expr(ohs), ExprKind::Let(pats, scrutinee) => { visit_vec(pats, |pat| vis.visit_pat(pat)); vis.visit_expr(scrutinee); } ExprKind::If(cond, tr, fl) => { vis.visit_expr(cond); vis.visit_block(tr); visit_opt(fl, |fl| vis.visit_expr(fl)); } ExprKind::While(cond, body, label) => { vis.visit_expr(cond); vis.visit_block(body); visit_opt(label, |label| vis.visit_label(label)); } ExprKind::ForLoop(pat, iter, body, label) => { vis.visit_pat(pat); vis.visit_expr(iter); vis.visit_block(body); visit_opt(label, |label| vis.visit_label(label)); } ExprKind::Loop(body, label) => { vis.visit_block(body); visit_opt(label, |label| vis.visit_label(label)); } ExprKind::Match(expr, arms) => { vis.visit_expr(expr); arms.flat_map_in_place(|arm| vis.flat_map_arm(arm)); } ExprKind::Closure(_capture_by, asyncness, _movability, decl, body, span) => { vis.visit_asyncness(asyncness); vis.visit_fn_decl(decl); vis.visit_expr(body); vis.visit_span(span); } ExprKind::Block(blk, label) => { vis.visit_block(blk); visit_opt(label, |label| vis.visit_label(label)); } ExprKind::Async(_capture_by, node_id, body) => { vis.visit_id(node_id); vis.visit_block(body); } ExprKind::Await(expr) => vis.visit_expr(expr), ExprKind::Assign(el, er) => { vis.visit_expr(el); vis.visit_expr(er); } ExprKind::AssignOp(_op, el, er) => { vis.visit_expr(el); vis.visit_expr(er); } ExprKind::Field(el, ident) => { vis.visit_expr(el); vis.visit_ident(ident); } ExprKind::Index(el, er) => { vis.visit_expr(el); vis.visit_expr(er); } ExprKind::Range(e1, e2, _lim) => { visit_opt(e1, |e1| vis.visit_expr(e1)); visit_opt(e2, |e2| vis.visit_expr(e2)); } ExprKind::Path(qself, path) => { vis.visit_qself(qself); vis.visit_path(path); } ExprKind::Break(label, expr) => { visit_opt(label, |label| vis.visit_label(label)); visit_opt(expr, |expr| vis.visit_expr(expr)); } ExprKind::Continue(label) => { visit_opt(label, |label| vis.visit_label(label)); } ExprKind::Ret(expr) => { visit_opt(expr, |expr| vis.visit_expr(expr)); } ExprKind::InlineAsm(asm) => { let InlineAsm { asm: _, asm_str_style: _, outputs, inputs, clobbers: _, volatile: _, alignstack: _, dialect: _ } = asm.deref_mut(); for out in outputs { let InlineAsmOutput { constraint: _, expr, is_rw: _, is_indirect: _ } = out; vis.visit_expr(expr); } visit_vec(inputs, |(_c, expr)| vis.visit_expr(expr)); } ExprKind::Mac(mac) => vis.visit_mac(mac), ExprKind::Struct(path, fields, expr) => { vis.visit_path(path); fields.flat_map_in_place(|field| vis.flat_map_field(field)); visit_opt(expr, |expr| vis.visit_expr(expr)); }, ExprKind::Paren(expr) => { vis.visit_expr(expr); // Nodes that are equal modulo `Paren` sugar no-ops should have the same ids. *id = expr.id; vis.visit_span(span); visit_thin_attrs(attrs, vis); return; } ExprKind::Yield(expr) => { visit_opt(expr, |expr| vis.visit_expr(expr)); } ExprKind::Try(expr) => vis.visit_expr(expr), ExprKind::TryBlock(body) => vis.visit_block(body), ExprKind::Lit(_) | ExprKind::Err => {} } vis.visit_id(id); vis.visit_span(span); visit_thin_attrs(attrs, vis); } pub fn noop_filter_map_expr(mut e: P, vis: &mut T) -> Option> { Some({ vis.visit_expr(&mut e); e }) } pub fn noop_flat_map_stmt(Stmt { node, mut span, mut id }: Stmt, vis: &mut T) -> SmallVec<[Stmt; 1]> { vis.visit_id(&mut id); vis.visit_span(&mut span); noop_flat_map_stmt_kind(node, vis).into_iter().map(|node| { Stmt { id, node, span } }).collect() } pub fn noop_flat_map_stmt_kind(node: StmtKind, vis: &mut T) -> SmallVec<[StmtKind; 1]> { match node { StmtKind::Local(mut local) => smallvec![StmtKind::Local({ vis.visit_local(&mut local); local })], StmtKind::Item(item) => vis.flat_map_item(item).into_iter().map(StmtKind::Item).collect(), StmtKind::Expr(expr) => { vis.filter_map_expr(expr).into_iter().map(StmtKind::Expr).collect() } StmtKind::Semi(expr) => { vis.filter_map_expr(expr).into_iter().map(StmtKind::Semi).collect() } StmtKind::Mac(mut mac) => { let (mac_, _semi, attrs) = mac.deref_mut(); vis.visit_mac(mac_); visit_thin_attrs(attrs, vis); smallvec![StmtKind::Mac(mac)] } } } pub fn noop_visit_vis(Spanned { node, span }: &mut Visibility, vis: &mut T) { match node { VisibilityKind::Public | VisibilityKind::Crate(_) | VisibilityKind::Inherited => {} VisibilityKind::Restricted { path, id } => { vis.visit_path(path); vis.visit_id(id); } } vis.visit_span(span); }