// A signature is a string representation of an item's type signature, excluding // any body. It also includes ids for any defs or refs in the signature. For // example: // // ``` // fn foo(x: String) { // println!("{}", x); // } // ``` // The signature string is something like "fn foo(x: String) {}" and the signature // will have defs for `foo` and `x` and a ref for `String`. // // All signature text should parse in the correct context (i.e., in a module or // impl, etc.). Clients may want to trim trailing `{}` or `;`. The text of a // signature is not guaranteed to be stable (it may improve or change as the // syntax changes, or whitespace or punctuation may change). It is also likely // not to be pretty - no attempt is made to prettify the text. It is recommended // that clients run the text through Rustfmt. // // This module generates Signatures for items by walking the AST and looking up // references. // // Signatures do not include visibility info. I'm not sure if this is a feature // or an omission (FIXME). // // FIXME where clauses need implementing, defs/refs in generics are mostly missing. use crate::{id_from_def_id, id_from_hir_id, SaveContext}; use rls_data::{SigElement, Signature}; use rustc_ast::Mutability; use rustc_hir as hir; use rustc_hir::def::{DefKind, Res}; use rustc_hir_pretty::id_to_string; use rustc_hir_pretty::{bounds_to_string, path_segment_to_string, path_to_string, ty_to_string}; use rustc_span::symbol::{Ident, Symbol}; pub fn item_signature(item: &hir::Item<'_>, scx: &SaveContext<'_>) -> Option { if !scx.config.signatures { return None; } item.make(0, None, scx).ok() } pub fn foreign_item_signature( item: &hir::ForeignItem<'_>, scx: &SaveContext<'_>, ) -> Option { if !scx.config.signatures { return None; } item.make(0, None, scx).ok() } /// Signature for a struct or tuple field declaration. /// Does not include a trailing comma. pub fn field_signature(field: &hir::FieldDef<'_>, scx: &SaveContext<'_>) -> Option { if !scx.config.signatures { return None; } field.make(0, None, scx).ok() } /// Does not include a trailing comma. pub fn variant_signature(variant: &hir::Variant<'_>, scx: &SaveContext<'_>) -> Option { if !scx.config.signatures { return None; } variant.make(0, None, scx).ok() } pub fn method_signature( id: hir::HirId, ident: Ident, generics: &hir::Generics<'_>, m: &hir::FnSig<'_>, scx: &SaveContext<'_>, ) -> Option { if !scx.config.signatures { return None; } make_method_signature(id, ident, generics, m, scx).ok() } pub fn assoc_const_signature( id: hir::HirId, ident: Symbol, ty: &hir::Ty<'_>, default: Option<&hir::Expr<'_>>, scx: &SaveContext<'_>, ) -> Option { if !scx.config.signatures { return None; } make_assoc_const_signature(id, ident, ty, default, scx).ok() } pub fn assoc_type_signature( id: hir::HirId, ident: Ident, bounds: Option>, default: Option<&hir::Ty<'_>>, scx: &SaveContext<'_>, ) -> Option { if !scx.config.signatures { return None; } make_assoc_type_signature(id, ident, bounds, default, scx).ok() } type Result = std::result::Result; trait Sig { fn make(&self, offset: usize, id: Option, scx: &SaveContext<'_>) -> Result; } fn extend_sig( mut sig: Signature, text: String, defs: Vec, refs: Vec, ) -> Signature { sig.text = text; sig.defs.extend(defs.into_iter()); sig.refs.extend(refs.into_iter()); sig } fn replace_text(mut sig: Signature, text: String) -> Signature { sig.text = text; sig } fn merge_sigs(text: String, sigs: Vec) -> Signature { let mut result = Signature { text, defs: vec![], refs: vec![] }; let (defs, refs): (Vec<_>, Vec<_>) = sigs.into_iter().map(|s| (s.defs, s.refs)).unzip(); result.defs.extend(defs.into_iter().flat_map(|ds| ds.into_iter())); result.refs.extend(refs.into_iter().flat_map(|rs| rs.into_iter())); result } fn text_sig(text: String) -> Signature { Signature { text, defs: vec![], refs: vec![] } } impl<'hir> Sig for hir::Ty<'hir> { fn make(&self, offset: usize, _parent_id: Option, scx: &SaveContext<'_>) -> Result { let id = Some(self.hir_id); match self.kind { hir::TyKind::Slice(ref ty) => { let nested = ty.make(offset + 1, id, scx)?; let text = format!("[{}]", nested.text); Ok(replace_text(nested, text)) } hir::TyKind::Ptr(ref mt) => { let prefix = match mt.mutbl { hir::Mutability::Mut => "*mut ", hir::Mutability::Not => "*const ", }; let nested = mt.ty.make(offset + prefix.len(), id, scx)?; let text = format!("{}{}", prefix, nested.text); Ok(replace_text(nested, text)) } hir::TyKind::Ref(ref lifetime, ref mt) => { let mut prefix = "&".to_owned(); prefix.push_str(&lifetime.ident.to_string()); prefix.push(' '); if mt.mutbl.is_mut() { prefix.push_str("mut "); }; let nested = mt.ty.make(offset + prefix.len(), id, scx)?; let text = format!("{}{}", prefix, nested.text); Ok(replace_text(nested, text)) } hir::TyKind::Never => Ok(text_sig("!".to_owned())), hir::TyKind::Tup(ts) => { let mut text = "(".to_owned(); let mut defs = vec![]; let mut refs = vec![]; for t in ts { let nested = t.make(offset + text.len(), id, scx)?; text.push_str(&nested.text); text.push(','); defs.extend(nested.defs.into_iter()); refs.extend(nested.refs.into_iter()); } text.push(')'); Ok(Signature { text, defs, refs }) } hir::TyKind::BareFn(ref f) => { let mut text = String::new(); if !f.generic_params.is_empty() { // FIXME defs, bounds on lifetimes text.push_str("for<"); text.push_str( &f.generic_params .iter() .filter_map(|param| match param.kind { hir::GenericParamKind::Lifetime { .. } => { Some(param.name.ident().to_string()) } _ => None, }) .collect::>() .join(", "), ); text.push('>'); } if let hir::Unsafety::Unsafe = f.unsafety { text.push_str("unsafe "); } text.push_str("fn("); let mut defs = vec![]; let mut refs = vec![]; for i in f.decl.inputs { let nested = i.make(offset + text.len(), Some(i.hir_id), scx)?; text.push_str(&nested.text); text.push(','); defs.extend(nested.defs.into_iter()); refs.extend(nested.refs.into_iter()); } text.push(')'); if let hir::FnRetTy::Return(ref t) = f.decl.output { text.push_str(" -> "); let nested = t.make(offset + text.len(), None, scx)?; text.push_str(&nested.text); text.push(','); defs.extend(nested.defs.into_iter()); refs.extend(nested.refs.into_iter()); } Ok(Signature { text, defs, refs }) } hir::TyKind::Path(hir::QPath::Resolved(None, ref path)) => path.make(offset, id, scx), hir::TyKind::Path(hir::QPath::Resolved(Some(ref qself), ref path)) => { let nested_ty = qself.make(offset + 1, id, scx)?; let prefix = format!( "<{} as {}>::", nested_ty.text, path_segment_to_string(&path.segments[0]) ); let name = path_segment_to_string(path.segments.last().ok_or("Bad path")?); let res = scx.get_path_res(id.ok_or("Missing id for Path")?); let id = id_from_def_id(res.def_id()); if path.segments.len() == 2 { let start = offset + prefix.len(); let end = start + name.len(); Ok(Signature { text: prefix + &name, defs: vec![], refs: vec![SigElement { id, start, end }], }) } else { let start = offset + prefix.len() + 5; let end = start + name.len(); // FIXME should put the proper path in there, not ellipsis. Ok(Signature { text: prefix + "...::" + &name, defs: vec![], refs: vec![SigElement { id, start, end }], }) } } hir::TyKind::Path(hir::QPath::TypeRelative(ty, segment)) => { let nested_ty = ty.make(offset + 1, id, scx)?; let prefix = format!("<{}>::", nested_ty.text); let name = path_segment_to_string(segment); let res = scx.get_path_res(id.ok_or("Missing id for Path")?); let id = id_from_def_id(res.def_id()); let start = offset + prefix.len(); let end = start + name.len(); Ok(Signature { text: prefix + &name, defs: vec![], refs: vec![SigElement { id, start, end }], }) } hir::TyKind::Path(hir::QPath::LangItem(lang_item, _, _)) => { Ok(text_sig(format!("#[lang = \"{}\"]", lang_item.name()))) } hir::TyKind::TraitObject(bounds, ..) => { // FIXME recurse into bounds let bounds: Vec> = bounds .iter() .map(|hir::PolyTraitRef { bound_generic_params, trait_ref, span }| { hir::GenericBound::Trait( hir::PolyTraitRef { bound_generic_params, trait_ref: hir::TraitRef { path: trait_ref.path, hir_ref_id: trait_ref.hir_ref_id, }, span: *span, }, hir::TraitBoundModifier::None, ) }) .collect(); let nested = bounds_to_string(&bounds); Ok(text_sig(nested)) } hir::TyKind::Array(ref ty, ref length) => { let nested_ty = ty.make(offset + 1, id, scx)?; let expr = id_to_string(&scx.tcx.hir(), length.hir_id()).replace('\n', " "); let text = format!("[{}; {}]", nested_ty.text, expr); Ok(replace_text(nested_ty, text)) } hir::TyKind::OpaqueDef(item_id, _, _) => { let item = scx.tcx.hir().item(item_id); item.make(offset, Some(item_id.hir_id()), scx) } hir::TyKind::Typeof(_) | hir::TyKind::Infer | hir::TyKind::Err => Err("Ty"), } } } impl<'hir> Sig for hir::Item<'hir> { fn make(&self, offset: usize, _parent_id: Option, scx: &SaveContext<'_>) -> Result { let id = Some(self.hir_id()); match self.kind { hir::ItemKind::Static(ref ty, m, ref body) => { let mut text = "static ".to_owned(); if m.is_mut() { text.push_str("mut "); } let name = self.ident.to_string(); let defs = vec![SigElement { id: id_from_def_id(self.owner_id.to_def_id()), start: offset + text.len(), end: offset + text.len() + name.len(), }]; text.push_str(&name); text.push_str(": "); let ty = ty.make(offset + text.len(), id, scx)?; text.push_str(&ty.text); text.push_str(" = "); let expr = id_to_string(&scx.tcx.hir(), body.hir_id).replace('\n', " "); text.push_str(&expr); text.push(';'); Ok(extend_sig(ty, text, defs, vec![])) } hir::ItemKind::Const(ref ty, ref body) => { let mut text = "const ".to_owned(); let name = self.ident.to_string(); let defs = vec![SigElement { id: id_from_def_id(self.owner_id.to_def_id()), start: offset + text.len(), end: offset + text.len() + name.len(), }]; text.push_str(&name); text.push_str(": "); let ty = ty.make(offset + text.len(), id, scx)?; text.push_str(&ty.text); text.push_str(" = "); let expr = id_to_string(&scx.tcx.hir(), body.hir_id).replace('\n', " "); text.push_str(&expr); text.push(';'); Ok(extend_sig(ty, text, defs, vec![])) } hir::ItemKind::Fn(hir::FnSig { ref decl, header, span: _ }, ref generics, _) => { let mut text = String::new(); if let hir::Constness::Const = header.constness { text.push_str("const "); } if hir::IsAsync::Async == header.asyncness { text.push_str("async "); } if let hir::Unsafety::Unsafe = header.unsafety { text.push_str("unsafe "); } text.push_str("fn "); let mut sig = name_and_generics(text, offset, generics, self.hir_id(), self.ident, scx)?; sig.text.push('('); for i in decl.inputs { // FIXME should descend into patterns to add defs. sig.text.push_str(": "); let nested = i.make(offset + sig.text.len(), Some(i.hir_id), scx)?; sig.text.push_str(&nested.text); sig.text.push(','); sig.defs.extend(nested.defs.into_iter()); sig.refs.extend(nested.refs.into_iter()); } sig.text.push(')'); if let hir::FnRetTy::Return(ref t) = decl.output { sig.text.push_str(" -> "); let nested = t.make(offset + sig.text.len(), None, scx)?; sig.text.push_str(&nested.text); sig.defs.extend(nested.defs.into_iter()); sig.refs.extend(nested.refs.into_iter()); } sig.text.push_str(" {}"); Ok(sig) } hir::ItemKind::Macro(..) => { let mut text = "macro".to_owned(); let name = self.ident.to_string(); text.push_str(&name); text.push_str(&"! {}"); Ok(text_sig(text)) } hir::ItemKind::Mod(ref _mod) => { let mut text = "mod ".to_owned(); let name = self.ident.to_string(); let defs = vec![SigElement { id: id_from_def_id(self.owner_id.to_def_id()), start: offset + text.len(), end: offset + text.len() + name.len(), }]; text.push_str(&name); // Could be either `mod foo;` or `mod foo { ... }`, but we'll just pick one. text.push(';'); Ok(Signature { text, defs, refs: vec![] }) } hir::ItemKind::TyAlias(ref ty, ref generics) => { let text = "type ".to_owned(); let mut sig = name_and_generics(text, offset, generics, self.hir_id(), self.ident, scx)?; sig.text.push_str(" = "); let ty = ty.make(offset + sig.text.len(), id, scx)?; sig.text.push_str(&ty.text); sig.text.push(';'); Ok(merge_sigs(sig.text.clone(), vec![sig, ty])) } hir::ItemKind::Enum(_, ref generics) => { let text = "enum ".to_owned(); let mut sig = name_and_generics(text, offset, generics, self.hir_id(), self.ident, scx)?; sig.text.push_str(" {}"); Ok(sig) } hir::ItemKind::Struct(_, ref generics) => { let text = "struct ".to_owned(); let mut sig = name_and_generics(text, offset, generics, self.hir_id(), self.ident, scx)?; sig.text.push_str(" {}"); Ok(sig) } hir::ItemKind::Union(_, ref generics) => { let text = "union ".to_owned(); let mut sig = name_and_generics(text, offset, generics, self.hir_id(), self.ident, scx)?; sig.text.push_str(" {}"); Ok(sig) } hir::ItemKind::Trait(is_auto, unsafety, ref generics, bounds, _) => { let mut text = String::new(); if is_auto == hir::IsAuto::Yes { text.push_str("auto "); } if let hir::Unsafety::Unsafe = unsafety { text.push_str("unsafe "); } text.push_str("trait "); let mut sig = name_and_generics(text, offset, generics, self.hir_id(), self.ident, scx)?; if !bounds.is_empty() { sig.text.push_str(": "); sig.text.push_str(&bounds_to_string(bounds)); } // FIXME where clause sig.text.push_str(" {}"); Ok(sig) } hir::ItemKind::TraitAlias(ref generics, bounds) => { let mut text = String::new(); text.push_str("trait "); let mut sig = name_and_generics(text, offset, generics, self.hir_id(), self.ident, scx)?; if !bounds.is_empty() { sig.text.push_str(" = "); sig.text.push_str(&bounds_to_string(bounds)); } // FIXME where clause sig.text.push(';'); Ok(sig) } hir::ItemKind::Impl(hir::Impl { unsafety, polarity, defaultness, defaultness_span: _, constness, ref generics, ref of_trait, ref self_ty, items: _, }) => { let mut text = String::new(); if let hir::Defaultness::Default { .. } = defaultness { text.push_str("default "); } if let hir::Unsafety::Unsafe = unsafety { text.push_str("unsafe "); } text.push_str("impl"); if let hir::Constness::Const = constness { text.push_str(" const"); } let generics_sig = generics.make(offset + text.len(), id, scx)?; text.push_str(&generics_sig.text); text.push(' '); let trait_sig = if let Some(ref t) = *of_trait { if let hir::ImplPolarity::Negative(_) = polarity { text.push('!'); } let trait_sig = t.path.make(offset + text.len(), id, scx)?; text.push_str(&trait_sig.text); text.push_str(" for "); trait_sig } else { text_sig(String::new()) }; let ty_sig = self_ty.make(offset + text.len(), id, scx)?; text.push_str(&ty_sig.text); text.push_str(" {}"); Ok(merge_sigs(text, vec![generics_sig, trait_sig, ty_sig])) // FIXME where clause } hir::ItemKind::ForeignMod { .. } => Err("extern mod"), hir::ItemKind::GlobalAsm(_) => Err("global asm"), hir::ItemKind::ExternCrate(_) => Err("extern crate"), hir::ItemKind::OpaqueTy(ref opaque) => { if opaque.in_trait { Err("opaque type in trait") } else { Err("opaque type") } } // FIXME should implement this (e.g., pub use). hir::ItemKind::Use(..) => Err("import"), } } } impl<'hir> Sig for hir::Path<'hir> { fn make(&self, offset: usize, id: Option, scx: &SaveContext<'_>) -> Result { let res = scx.get_path_res(id.ok_or("Missing id for Path")?); let (name, start, end) = match res { Res::PrimTy(..) | Res::SelfTyParam { .. } | Res::SelfTyAlias { .. } | Res::Err => { return Ok(Signature { text: path_to_string(self), defs: vec![], refs: vec![] }); } Res::Def(DefKind::AssocConst | DefKind::Variant | DefKind::Ctor(..), _) => { let len = self.segments.len(); if len < 2 { return Err("Bad path"); } // FIXME: really we should descend into the generics here and add SigElements for // them. // FIXME: would be nice to have a def for the first path segment. let seg1 = path_segment_to_string(&self.segments[len - 2]); let seg2 = path_segment_to_string(&self.segments[len - 1]); let start = offset + seg1.len() + 2; (format!("{}::{}", seg1, seg2), start, start + seg2.len()) } _ => { let name = path_segment_to_string(self.segments.last().ok_or("Bad path")?); let end = offset + name.len(); (name, offset, end) } }; let id = id_from_def_id(res.def_id()); Ok(Signature { text: name, defs: vec![], refs: vec![SigElement { id, start, end }] }) } } // This does not cover the where clause, which must be processed separately. impl<'hir> Sig for hir::Generics<'hir> { fn make(&self, offset: usize, _parent_id: Option, scx: &SaveContext<'_>) -> Result { if self.params.is_empty() { return Ok(text_sig(String::new())); } let mut text = "<".to_owned(); let mut defs = Vec::with_capacity(self.params.len()); for param in self.params { let mut param_text = String::new(); if let hir::GenericParamKind::Const { .. } = param.kind { param_text.push_str("const "); } param_text.push_str(param.name.ident().as_str()); defs.push(SigElement { id: id_from_hir_id(param.hir_id, scx), start: offset + text.len(), end: offset + text.len() + param_text.as_str().len(), }); if let hir::GenericParamKind::Const { ref ty, default } = param.kind { param_text.push_str(": "); param_text.push_str(&ty_to_string(&ty)); if let Some(default) = default { param_text.push_str(" = "); param_text.push_str(&id_to_string(&scx.tcx.hir(), default.hir_id)); } } text.push_str(¶m_text); text.push(','); } text.push('>'); Ok(Signature { text, defs, refs: vec![] }) } } impl<'hir> Sig for hir::FieldDef<'hir> { fn make(&self, offset: usize, _parent_id: Option, scx: &SaveContext<'_>) -> Result { let mut text = String::new(); text.push_str(&self.ident.to_string()); let defs = Some(SigElement { id: id_from_hir_id(self.hir_id, scx), start: offset, end: offset + text.len(), }); text.push_str(": "); let mut ty_sig = self.ty.make(offset + text.len(), Some(self.hir_id), scx)?; text.push_str(&ty_sig.text); ty_sig.text = text; ty_sig.defs.extend(defs.into_iter()); Ok(ty_sig) } } impl<'hir> Sig for hir::Variant<'hir> { fn make(&self, offset: usize, parent_id: Option, scx: &SaveContext<'_>) -> Result { let mut text = self.ident.to_string(); match self.data { hir::VariantData::Struct(fields, r) => { let id = parent_id.ok_or("Missing id for Variant's parent")?; let name_def = SigElement { id: id_from_hir_id(id, scx), start: offset, end: offset + text.len(), }; text.push_str(" { "); let mut defs = vec![name_def]; let mut refs = vec![]; if r { text.push_str("/* parse error */ "); } else { for f in fields { let field_sig = f.make(offset + text.len(), Some(id), scx)?; text.push_str(&field_sig.text); text.push_str(", "); defs.extend(field_sig.defs.into_iter()); refs.extend(field_sig.refs.into_iter()); } } text.push('}'); Ok(Signature { text, defs, refs }) } hir::VariantData::Tuple(fields, id, _) => { let name_def = SigElement { id: id_from_hir_id(id, scx), start: offset, end: offset + text.len(), }; text.push('('); let mut defs = vec![name_def]; let mut refs = vec![]; for f in fields { let field_sig = f.make(offset + text.len(), Some(id), scx)?; text.push_str(&field_sig.text); text.push_str(", "); defs.extend(field_sig.defs.into_iter()); refs.extend(field_sig.refs.into_iter()); } text.push(')'); Ok(Signature { text, defs, refs }) } hir::VariantData::Unit(id, _) => { let name_def = SigElement { id: id_from_hir_id(id, scx), start: offset, end: offset + text.len(), }; Ok(Signature { text, defs: vec![name_def], refs: vec![] }) } } } } impl<'hir> Sig for hir::ForeignItem<'hir> { fn make(&self, offset: usize, _parent_id: Option, scx: &SaveContext<'_>) -> Result { let id = Some(self.hir_id()); match self.kind { hir::ForeignItemKind::Fn(decl, _, ref generics) => { let mut text = String::new(); text.push_str("fn "); let mut sig = name_and_generics(text, offset, generics, self.hir_id(), self.ident, scx)?; sig.text.push('('); for i in decl.inputs { sig.text.push_str(": "); let nested = i.make(offset + sig.text.len(), Some(i.hir_id), scx)?; sig.text.push_str(&nested.text); sig.text.push(','); sig.defs.extend(nested.defs.into_iter()); sig.refs.extend(nested.refs.into_iter()); } sig.text.push(')'); if let hir::FnRetTy::Return(ref t) = decl.output { sig.text.push_str(" -> "); let nested = t.make(offset + sig.text.len(), None, scx)?; sig.text.push_str(&nested.text); sig.defs.extend(nested.defs.into_iter()); sig.refs.extend(nested.refs.into_iter()); } sig.text.push(';'); Ok(sig) } hir::ForeignItemKind::Static(ref ty, m) => { let mut text = "static ".to_owned(); if m == Mutability::Mut { text.push_str("mut "); } let name = self.ident.to_string(); let defs = vec![SigElement { id: id_from_def_id(self.owner_id.to_def_id()), start: offset + text.len(), end: offset + text.len() + name.len(), }]; text.push_str(&name); text.push_str(": "); let ty_sig = ty.make(offset + text.len(), id, scx)?; text.push(';'); Ok(extend_sig(ty_sig, text, defs, vec![])) } hir::ForeignItemKind::Type => { let mut text = "type ".to_owned(); let name = self.ident.to_string(); let defs = vec![SigElement { id: id_from_def_id(self.owner_id.to_def_id()), start: offset + text.len(), end: offset + text.len() + name.len(), }]; text.push_str(&name); text.push(';'); Ok(Signature { text, defs, refs: vec![] }) } } } } fn name_and_generics( mut text: String, offset: usize, generics: &hir::Generics<'_>, id: hir::HirId, name: Ident, scx: &SaveContext<'_>, ) -> Result { let name = name.to_string(); let def = SigElement { id: id_from_hir_id(id, scx), start: offset + text.len(), end: offset + text.len() + name.len(), }; text.push_str(&name); let generics: Signature = generics.make(offset + text.len(), Some(id), scx)?; // FIXME where clause let text = format!("{}{}", text, generics.text); Ok(extend_sig(generics, text, vec![def], vec![])) } fn make_assoc_type_signature( id: hir::HirId, ident: Ident, bounds: Option>, default: Option<&hir::Ty<'_>>, scx: &SaveContext<'_>, ) -> Result { let mut text = "type ".to_owned(); let name = ident.to_string(); let mut defs = vec![SigElement { id: id_from_hir_id(id, scx), start: text.len(), end: text.len() + name.len(), }]; let mut refs = vec![]; text.push_str(&name); if let Some(bounds) = bounds { text.push_str(": "); // FIXME should descend into bounds text.push_str(&bounds_to_string(bounds)); } if let Some(default) = default { text.push_str(" = "); let ty_sig = default.make(text.len(), Some(id), scx)?; text.push_str(&ty_sig.text); defs.extend(ty_sig.defs.into_iter()); refs.extend(ty_sig.refs.into_iter()); } text.push(';'); Ok(Signature { text, defs, refs }) } fn make_assoc_const_signature( id: hir::HirId, ident: Symbol, ty: &hir::Ty<'_>, default: Option<&hir::Expr<'_>>, scx: &SaveContext<'_>, ) -> Result { let mut text = "const ".to_owned(); let name = ident.to_string(); let mut defs = vec![SigElement { id: id_from_hir_id(id, scx), start: text.len(), end: text.len() + name.len(), }]; let mut refs = vec![]; text.push_str(&name); text.push_str(": "); let ty_sig = ty.make(text.len(), Some(id), scx)?; text.push_str(&ty_sig.text); defs.extend(ty_sig.defs.into_iter()); refs.extend(ty_sig.refs.into_iter()); if let Some(default) = default { text.push_str(" = "); text.push_str(&id_to_string(&scx.tcx.hir(), default.hir_id)); } text.push(';'); Ok(Signature { text, defs, refs }) } fn make_method_signature( id: hir::HirId, ident: Ident, generics: &hir::Generics<'_>, m: &hir::FnSig<'_>, scx: &SaveContext<'_>, ) -> Result { // FIXME code dup with function signature let mut text = String::new(); if let hir::Constness::Const = m.header.constness { text.push_str("const "); } if hir::IsAsync::Async == m.header.asyncness { text.push_str("async "); } if let hir::Unsafety::Unsafe = m.header.unsafety { text.push_str("unsafe "); } text.push_str("fn "); let mut sig = name_and_generics(text, 0, generics, id, ident, scx)?; sig.text.push('('); for i in m.decl.inputs { sig.text.push_str(": "); let nested = i.make(sig.text.len(), Some(i.hir_id), scx)?; sig.text.push_str(&nested.text); sig.text.push(','); sig.defs.extend(nested.defs.into_iter()); sig.refs.extend(nested.refs.into_iter()); } sig.text.push(')'); if let hir::FnRetTy::Return(ref t) = m.decl.output { sig.text.push_str(" -> "); let nested = t.make(sig.text.len(), None, scx)?; sig.text.push_str(&nested.text); sig.defs.extend(nested.defs.into_iter()); sig.refs.extend(nested.refs.into_iter()); } sig.text.push_str(" {}"); Ok(sig) }