1 #![doc(html_root_url = "https://doc.rust-lang.org/nightly/nightly-rustc/")]
3 #![recursion_limit = "256"]
12 use rustc_ast::util::comments::beautify_doc_string;
13 use rustc_ast_pretty::pprust::attribute_to_string;
15 use rustc_hir::def::{DefKind as HirDefKind, Res};
16 use rustc_hir::def_id::{DefId, LOCAL_CRATE};
17 use rustc_hir::intravisit::{self, Visitor};
19 use rustc_hir_pretty::{enum_def_to_string, fn_to_string, ty_to_string};
20 use rustc_middle::hir::map::Map;
21 use rustc_middle::middle::cstore::ExternCrate;
22 use rustc_middle::middle::privacy::AccessLevels;
23 use rustc_middle::ty::{self, print::with_no_trimmed_paths, DefIdTree, TyCtxt};
24 use rustc_middle::{bug, span_bug};
25 use rustc_session::config::{CrateType, Input, OutputType};
26 use rustc_session::output::{filename_for_metadata, out_filename};
27 use rustc_span::source_map::Spanned;
28 use rustc_span::symbol::Ident;
32 use std::default::Default;
35 use std::io::BufWriter;
36 use std::path::{Path, PathBuf};
38 use dump_visitor::DumpVisitor;
39 use span_utils::SpanUtils;
41 use rls_data::config::Config;
43 Analysis, Def, DefKind, ExternalCrateData, GlobalCrateId, Impl, ImplKind, MacroRef, Ref,
44 RefKind, Relation, RelationKind, SpanData,
47 use tracing::{debug, error, info};
49 pub struct SaveContext<'tcx> {
51 maybe_typeck_results: Option<&'tcx ty::TypeckResults<'tcx>>,
52 access_levels: &'tcx AccessLevels,
53 span_utils: SpanUtils<'tcx>,
55 impl_counter: Cell<u32>,
62 RelationData(Relation, Impl),
65 impl<'tcx> SaveContext<'tcx> {
66 /// Gets the type-checking results for the current body.
67 /// As this will ICE if called outside bodies, only call when working with
68 /// `Expr` or `Pat` nodes (they are guaranteed to be found only in bodies).
70 fn typeck_results(&self) -> &'tcx ty::TypeckResults<'tcx> {
71 self.maybe_typeck_results.expect("`SaveContext::typeck_results` called outside of body")
74 fn span_from_span(&self, span: Span) -> SpanData {
75 use rls_span::{Column, Row};
77 let sm = self.tcx.sess.source_map();
78 let start = sm.lookup_char_pos(span.lo());
79 let end = sm.lookup_char_pos(span.hi());
82 file_name: start.file.name.prefer_remapped().to_string().into(),
83 byte_start: span.lo().0,
84 byte_end: span.hi().0,
85 line_start: Row::new_one_indexed(start.line as u32),
86 line_end: Row::new_one_indexed(end.line as u32),
87 column_start: Column::new_one_indexed(start.col.0 as u32 + 1),
88 column_end: Column::new_one_indexed(end.col.0 as u32 + 1),
92 // Returns path to the compilation output (e.g., libfoo-12345678.rmeta)
93 pub fn compilation_output(&self, crate_name: &str) -> PathBuf {
94 let sess = &self.tcx.sess;
95 // Save-analysis is emitted per whole session, not per each crate type
96 let crate_type = sess.crate_types()[0];
97 let outputs = &*self.tcx.output_filenames(());
99 if outputs.outputs.contains_key(&OutputType::Metadata) {
100 filename_for_metadata(sess, crate_name, outputs)
101 } else if outputs.outputs.should_codegen() {
102 out_filename(sess, crate_type, outputs, crate_name)
104 // Otherwise it's only a DepInfo, in which case we return early and
105 // not even reach the analysis stage.
110 // List external crates used by the current crate.
111 pub fn get_external_crates(&self) -> Vec<ExternalCrateData> {
112 let mut result = Vec::with_capacity(self.tcx.crates(()).len());
114 for &n in self.tcx.crates(()).iter() {
115 let span = match self.tcx.extern_crate(n.as_def_id()) {
116 Some(&ExternCrate { span, .. }) => span,
118 debug!("skipping crate {}, no data", n);
122 let lo_loc = self.span_utils.sess.source_map().lookup_char_pos(span.lo());
123 result.push(ExternalCrateData {
124 // FIXME: change file_name field to PathBuf in rls-data
125 // https://github.com/nrc/rls-data/issues/7
126 file_name: self.span_utils.make_filename_string(&lo_loc.file),
129 name: self.tcx.crate_name(n).to_string(),
131 self.tcx.def_path_hash(n.as_def_id()).stable_crate_id().to_u64(),
141 pub fn get_extern_item_data(&self, item: &hir::ForeignItem<'_>) -> Option<Data> {
142 let def_id = item.def_id.to_def_id();
143 let qualname = format!("::{}", self.tcx.def_path_str(def_id));
144 let attrs = self.tcx.hir().attrs(item.hir_id());
146 hir::ForeignItemKind::Fn(ref decl, arg_names, ref generics) => {
147 filter!(self.span_utils, item.ident.span);
149 Some(Data::DefData(Def {
150 kind: DefKind::ForeignFunction,
151 id: id_from_def_id(def_id),
152 span: self.span_from_span(item.ident.span),
153 name: item.ident.to_string(),
158 // functions in extern block are implicitly unsafe
159 unsafety: hir::Unsafety::Unsafe,
160 // functions in extern block cannot be const
161 constness: hir::Constness::NotConst,
162 abi: self.tcx.hir().get_foreign_abi(item.hir_id()),
163 // functions in extern block cannot be async
164 asyncness: hir::IsAsync::NotAsync,
166 Some(item.ident.name),
175 docs: self.docs_for_attrs(attrs),
176 sig: sig::foreign_item_signature(item, self),
177 attributes: lower_attributes(attrs.to_vec(), self),
180 hir::ForeignItemKind::Static(ref ty, _) => {
181 filter!(self.span_utils, item.ident.span);
183 let id = id_from_def_id(def_id);
184 let span = self.span_from_span(item.ident.span);
186 Some(Data::DefData(Def {
187 kind: DefKind::ForeignStatic,
190 name: item.ident.to_string(),
192 value: ty_to_string(ty),
196 docs: self.docs_for_attrs(attrs),
197 sig: sig::foreign_item_signature(item, self),
198 attributes: lower_attributes(attrs.to_vec(), self),
201 // FIXME(plietar): needs a new DefKind in rls-data
202 hir::ForeignItemKind::Type => None,
206 pub fn get_item_data(&self, item: &hir::Item<'_>) -> Option<Data> {
207 let def_id = item.def_id.to_def_id();
208 let attrs = self.tcx.hir().attrs(item.hir_id());
210 hir::ItemKind::Fn(ref sig, ref generics, _) => {
211 let qualname = format!("::{}", self.tcx.def_path_str(def_id));
212 filter!(self.span_utils, item.ident.span);
213 Some(Data::DefData(Def {
214 kind: DefKind::Function,
215 id: id_from_def_id(def_id),
216 span: self.span_from_span(item.ident.span),
217 name: item.ident.to_string(),
222 Some(item.ident.name),
231 docs: self.docs_for_attrs(attrs),
232 sig: sig::item_signature(item, self),
233 attributes: lower_attributes(attrs.to_vec(), self),
236 hir::ItemKind::Static(ref typ, ..) => {
237 let qualname = format!("::{}", self.tcx.def_path_str(def_id));
239 filter!(self.span_utils, item.ident.span);
241 let id = id_from_def_id(def_id);
242 let span = self.span_from_span(item.ident.span);
244 Some(Data::DefData(Def {
245 kind: DefKind::Static,
248 name: item.ident.to_string(),
250 value: ty_to_string(&typ),
254 docs: self.docs_for_attrs(attrs),
255 sig: sig::item_signature(item, self),
256 attributes: lower_attributes(attrs.to_vec(), self),
259 hir::ItemKind::Const(ref typ, _) => {
260 let qualname = format!("::{}", self.tcx.def_path_str(def_id));
261 filter!(self.span_utils, item.ident.span);
263 let id = id_from_def_id(def_id);
264 let span = self.span_from_span(item.ident.span);
266 Some(Data::DefData(Def {
267 kind: DefKind::Const,
270 name: item.ident.to_string(),
272 value: ty_to_string(typ),
276 docs: self.docs_for_attrs(attrs),
277 sig: sig::item_signature(item, self),
278 attributes: lower_attributes(attrs.to_vec(), self),
281 hir::ItemKind::Mod(ref m) => {
282 let qualname = format!("::{}", self.tcx.def_path_str(def_id));
284 let sm = self.tcx.sess.source_map();
285 let filename = sm.span_to_filename(m.inner);
287 filter!(self.span_utils, item.ident.span);
289 Some(Data::DefData(Def {
291 id: id_from_def_id(def_id),
292 name: item.ident.to_string(),
294 span: self.span_from_span(item.ident.span),
295 value: filename.prefer_remapped().to_string(),
300 .map(|i| id_from_def_id(i.def_id.to_def_id()))
303 docs: self.docs_for_attrs(attrs),
304 sig: sig::item_signature(item, self),
305 attributes: lower_attributes(attrs.to_vec(), self),
308 hir::ItemKind::Enum(ref def, ref generics) => {
309 let name = item.ident.to_string();
310 let qualname = format!("::{}", self.tcx.def_path_str(def_id));
311 filter!(self.span_utils, item.ident.span);
313 enum_def_to_string(def, generics, item.ident.name, item.span, &item.vis);
314 Some(Data::DefData(Def {
316 id: id_from_def_id(def_id),
317 span: self.span_from_span(item.ident.span),
322 children: def.variants.iter().map(|v| id_from_hir_id(v.id, self)).collect(),
324 docs: self.docs_for_attrs(attrs),
325 sig: sig::item_signature(item, self),
326 attributes: lower_attributes(attrs.to_vec(), self),
329 hir::ItemKind::Impl(hir::Impl { ref of_trait, ref self_ty, ref items, .. }) => {
330 if let hir::TyKind::Path(hir::QPath::Resolved(_, ref path)) = self_ty.kind {
331 // Common case impl for a struct or something basic.
332 if generated_code(path.span) {
335 let sub_span = path.segments.last().unwrap().ident.span;
336 filter!(self.span_utils, sub_span);
338 let impl_id = self.next_impl_id();
339 let span = self.span_from_span(sub_span);
341 let type_data = self.lookup_def_id(self_ty.hir_id);
342 type_data.map(|type_data| {
345 kind: RelationKind::Impl { id: impl_id },
347 from: id_from_def_id(type_data),
350 .and_then(|t| self.lookup_def_id(t.hir_ref_id))
352 .unwrap_or_else(null_id),
356 kind: match *of_trait {
357 Some(_) => ImplKind::Direct,
358 None => ImplKind::Inherent,
361 value: String::new(),
365 .map(|i| id_from_def_id(i.id.def_id.to_def_id()))
384 pub fn get_field_data(&self, field: &hir::FieldDef<'_>, scope: hir::HirId) -> Option<Def> {
385 let name = field.ident.to_string();
386 let scope_def_id = self.tcx.hir().local_def_id(scope).to_def_id();
387 let qualname = format!("::{}::{}", self.tcx.def_path_str(scope_def_id), field.ident);
388 filter!(self.span_utils, field.ident.span);
389 let field_def_id = self.tcx.hir().local_def_id(field.hir_id).to_def_id();
390 let typ = self.tcx.type_of(field_def_id).to_string();
392 let id = id_from_def_id(field_def_id);
393 let span = self.span_from_span(field.ident.span);
394 let attrs = self.tcx.hir().attrs(field.hir_id);
397 kind: DefKind::Field,
403 parent: Some(id_from_def_id(scope_def_id)),
406 docs: self.docs_for_attrs(attrs),
407 sig: sig::field_signature(field, self),
408 attributes: lower_attributes(attrs.to_vec(), self),
412 // FIXME would be nice to take a MethodItem here, but the ast provides both
413 // trait and impl flavours, so the caller must do the disassembly.
414 pub fn get_method_data(&self, hir_id: hir::HirId, ident: Ident, span: Span) -> Option<Def> {
415 // The qualname for a method is the trait name or name of the struct in an impl in
416 // which the method is declared in, followed by the method's name.
417 let def_id = self.tcx.hir().local_def_id(hir_id).to_def_id();
418 let (qualname, parent_scope, decl_id, docs, attributes) =
419 match self.tcx.impl_of_method(def_id) {
420 Some(impl_id) => match self.tcx.hir().get_if_local(impl_id) {
421 Some(Node::Item(item)) => match item.kind {
422 hir::ItemKind::Impl(hir::Impl { ref self_ty, .. }) => {
423 let hir = self.tcx.hir();
425 let mut qualname = String::from("<");
427 .push_str(&rustc_hir_pretty::id_to_string(&hir, self_ty.hir_id));
429 let trait_id = self.tcx.trait_id_of_impl(impl_id);
430 let mut docs = String::new();
431 let mut attrs = vec![];
432 if let Some(Node::ImplItem(_)) = hir.find(hir_id) {
433 attrs = self.tcx.hir().attrs(hir_id).to_vec();
434 docs = self.docs_for_attrs(&attrs);
437 let mut decl_id = None;
438 if let Some(def_id) = trait_id {
439 // A method in a trait impl.
440 qualname.push_str(" as ");
441 qualname.push_str(&self.tcx.def_path_str(def_id));
445 .associated_items(def_id)
446 .filter_by_name_unhygienic(ident.name)
448 .map(|item| item.def_id);
452 (qualname, trait_id, decl_id, docs, attrs)
457 "Container {:?} for method {} not an impl?",
466 "Container {:?} for method {} is not a node item {:?}",
473 None => match self.tcx.trait_of_item(def_id) {
475 let mut docs = String::new();
476 let mut attrs = vec![];
478 if let Some(Node::TraitItem(_)) = self.tcx.hir().find(hir_id) {
479 attrs = self.tcx.hir().attrs(hir_id).to_vec();
480 docs = self.docs_for_attrs(&attrs);
484 format!("::{}", self.tcx.def_path_str(def_id)),
492 debug!("could not find container for method {} at {:?}", hir_id, span);
493 // This is not necessarily a bug, if there was a compilation error,
494 // the typeck results we need might not exist.
500 let qualname = format!("{}::{}", qualname, ident.name);
502 filter!(self.span_utils, ident.span);
505 kind: DefKind::Method,
506 id: id_from_def_id(def_id),
507 span: self.span_from_span(ident.span),
508 name: ident.name.to_string(),
510 // FIXME you get better data here by using the visitor.
511 value: String::new(),
512 parent: parent_scope.map(id_from_def_id),
514 decl_id: decl_id.map(id_from_def_id),
517 attributes: lower_attributes(attributes, self),
521 pub fn get_expr_data(&self, expr: &hir::Expr<'_>) -> Option<Data> {
522 let ty = self.typeck_results().expr_ty_adjusted_opt(expr)?;
523 if matches!(ty.kind(), ty::Error(_)) {
527 hir::ExprKind::Field(ref sub_ex, ident) => {
528 match self.typeck_results().expr_ty_adjusted(&sub_ex).kind() {
529 ty::Adt(def, _) if !def.is_enum() => {
530 let variant = &def.non_enum_variant();
531 filter!(self.span_utils, ident.span);
532 let span = self.span_from_span(ident.span);
533 Some(Data::RefData(Ref {
534 kind: RefKind::Variable,
538 .find_field_index(ident, variant)
539 .map(|index| id_from_def_id(variant.fields[index].did))
540 .unwrap_or_else(null_id),
543 ty::Tuple(..) => None,
545 debug!("expected struct or union type, found {:?}", ty);
550 hir::ExprKind::Struct(qpath, ..) => match ty.kind() {
552 let sub_span = qpath.last_segment_span();
553 filter!(self.span_utils, sub_span);
554 let span = self.span_from_span(sub_span);
555 Some(Data::RefData(Ref {
558 ref_id: id_from_def_id(def.did),
562 debug!("expected adt, found {:?}", ty);
566 hir::ExprKind::MethodCall(ref seg, ..) => {
567 let method_id = match self.typeck_results().type_dependent_def_id(expr.hir_id) {
570 debug!("could not resolve method id for {:?}", expr);
574 let (def_id, decl_id) = match self.tcx.associated_item(method_id).container {
575 ty::ImplContainer(_) => (Some(method_id), None),
576 ty::TraitContainer(_) => (None, Some(method_id)),
578 let sub_span = seg.ident.span;
579 filter!(self.span_utils, sub_span);
580 let span = self.span_from_span(sub_span);
581 Some(Data::RefData(Ref {
582 kind: RefKind::Function,
584 ref_id: def_id.or(decl_id).map(id_from_def_id).unwrap_or_else(null_id),
587 hir::ExprKind::Path(ref path) => {
588 self.get_path_data(expr.hir_id, path).map(Data::RefData)
592 bug!("invalid expression: {:?}", expr);
597 pub fn get_path_res(&self, hir_id: hir::HirId) -> Res {
598 match self.tcx.hir().get(hir_id) {
599 Node::TraitRef(tr) => tr.path.res,
601 Node::Item(&hir::Item { kind: hir::ItemKind::Use(path, _), .. }) => path.res,
602 Node::Visibility(&Spanned {
603 node: hir::VisibilityKind::Restricted { ref path, .. },
607 Node::PathSegment(seg) => match seg.res {
608 Some(res) if res != Res::Err => res,
610 let parent_node = self.tcx.hir().get_parent_node(hir_id);
611 self.get_path_res(parent_node)
615 Node::Expr(&hir::Expr { kind: hir::ExprKind::Struct(ref qpath, ..), .. }) => {
616 self.typeck_results().qpath_res(qpath, hir_id)
619 Node::Expr(&hir::Expr { kind: hir::ExprKind::Path(ref qpath), .. })
620 | Node::Pat(&hir::Pat {
622 hir::PatKind::Path(ref qpath)
623 | hir::PatKind::Struct(ref qpath, ..)
624 | hir::PatKind::TupleStruct(ref qpath, ..),
627 | Node::Ty(&hir::Ty { kind: hir::TyKind::Path(ref qpath), .. }) => match qpath {
628 hir::QPath::Resolved(_, path) => path.res,
629 hir::QPath::TypeRelative(..) | hir::QPath::LangItem(..) => {
630 // #75962: `self.typeck_results` may be different from the `hir_id`'s result.
631 if self.tcx.has_typeck_results(hir_id.owner.to_def_id()) {
632 self.tcx.typeck(hir_id.owner).qpath_res(qpath, hir_id)
639 Node::Binding(&hir::Pat {
640 kind: hir::PatKind::Binding(_, canonical_id, ..), ..
641 }) => Res::Local(canonical_id),
647 pub fn get_path_data(&self, id: hir::HirId, path: &hir::QPath<'_>) -> Option<Ref> {
648 let segment = match path {
649 hir::QPath::Resolved(_, path) => path.segments.last(),
650 hir::QPath::TypeRelative(_, segment) => Some(*segment),
651 hir::QPath::LangItem(..) => None,
653 segment.and_then(|seg| {
654 self.get_path_segment_data(seg).or_else(|| self.get_path_segment_data_with_id(seg, id))
658 pub fn get_path_segment_data(&self, path_seg: &hir::PathSegment<'_>) -> Option<Ref> {
659 self.get_path_segment_data_with_id(path_seg, path_seg.hir_id?)
662 pub fn get_path_segment_data_with_id(
664 path_seg: &hir::PathSegment<'_>,
667 // Returns true if the path is function type sugar, e.g., `Fn(A) -> B`.
668 fn fn_type(seg: &hir::PathSegment<'_>) -> bool {
669 seg.args.map_or(false, |args| args.parenthesized)
672 let res = self.get_path_res(id);
673 let span = path_seg.ident.span;
674 filter!(self.span_utils, span);
675 let span = self.span_from_span(span);
679 Some(Ref { kind: RefKind::Variable, span, ref_id: id_from_hir_id(id, self) })
681 Res::Def(HirDefKind::Trait, def_id) if fn_type(path_seg) => {
682 Some(Ref { kind: RefKind::Type, span, ref_id: id_from_def_id(def_id) })
686 | HirDefKind::Variant
689 | HirDefKind::TyAlias
690 | HirDefKind::ForeignTy
691 | HirDefKind::TraitAlias
692 | HirDefKind::AssocTy
694 | HirDefKind::OpaqueTy
695 | HirDefKind::TyParam,
697 ) => Some(Ref { kind: RefKind::Type, span, ref_id: id_from_def_id(def_id) }),
698 Res::Def(HirDefKind::ConstParam, def_id) => {
699 Some(Ref { kind: RefKind::Variable, span, ref_id: id_from_def_id(def_id) })
701 Res::Def(HirDefKind::Ctor(..), def_id) => {
702 // This is a reference to a tuple struct or an enum variant where the def_id points
703 // to an invisible constructor function. That is not a very useful
704 // def, so adjust to point to the tuple struct or enum variant itself.
705 let parent_def_id = self.tcx.parent(def_id).unwrap();
706 Some(Ref { kind: RefKind::Type, span, ref_id: id_from_def_id(parent_def_id) })
708 Res::Def(HirDefKind::Static | HirDefKind::Const | HirDefKind::AssocConst, _) => {
709 Some(Ref { kind: RefKind::Variable, span, ref_id: id_from_def_id(res.def_id()) })
711 Res::Def(HirDefKind::AssocFn, decl_id) => {
712 let def_id = if decl_id.is_local() {
713 let ti = self.tcx.associated_item(decl_id);
716 .associated_items(ti.container.id())
717 .filter_by_name_unhygienic(ti.ident.name)
718 .find(|item| item.defaultness.has_value())
719 .map(|item| item.def_id)
724 kind: RefKind::Function,
726 ref_id: id_from_def_id(def_id.unwrap_or(decl_id)),
729 Res::Def(HirDefKind::Fn, def_id) => {
730 Some(Ref { kind: RefKind::Function, span, ref_id: id_from_def_id(def_id) })
732 Res::Def(HirDefKind::Mod, def_id) => {
733 Some(Ref { kind: RefKind::Mod, span, ref_id: id_from_def_id(def_id) })
737 HirDefKind::Macro(..)
738 | HirDefKind::ExternCrate
739 | HirDefKind::ForeignMod
740 | HirDefKind::LifetimeParam
741 | HirDefKind::AnonConst
744 | HirDefKind::GlobalAsm
746 | HirDefKind::Closure
747 | HirDefKind::Generator,
753 | Res::NonMacroAttr(..)
759 pub fn get_field_ref_data(
761 field_ref: &hir::ExprField<'_>,
762 variant: &ty::VariantDef,
764 filter!(self.span_utils, field_ref.ident.span);
765 self.tcx.find_field_index(field_ref.ident, variant).map(|index| {
766 let span = self.span_from_span(field_ref.ident.span);
767 Ref { kind: RefKind::Variable, span, ref_id: id_from_def_id(variant.fields[index].did) }
771 /// Attempt to return MacroRef for any AST node.
773 /// For a given piece of AST defined by the supplied Span and NodeId,
774 /// returns `None` if the node is not macro-generated or the span is malformed,
775 /// else uses the expansion callsite and callee to return some MacroRef.
777 /// FIXME: [`DumpVisitor::process_macro_use`] should actually dump this data
779 fn get_macro_use_data(&self, span: Span) -> Option<MacroRef> {
780 if !generated_code(span) {
783 // Note we take care to use the source callsite/callee, to handle
784 // nested expansions and ensure we only generate data for source-visible
786 let callsite = span.source_callsite();
787 let callsite_span = self.span_from_span(callsite);
788 let callee = span.source_callee()?;
790 let mac_name = match callee.kind {
791 ExpnKind::Macro(kind, name) => match kind {
792 MacroKind::Bang => name,
794 // Ignore attribute macros, their spans are usually mangled
795 // FIXME(eddyb) is this really the case anymore?
796 MacroKind::Attr | MacroKind::Derive => return None,
799 // These are not macros.
800 // FIXME(eddyb) maybe there is a way to handle them usefully?
801 ExpnKind::Inlined | ExpnKind::Root | ExpnKind::AstPass(_) | ExpnKind::Desugaring(_) => {
806 let callee_span = self.span_from_span(callee.def_site);
809 qualname: mac_name.to_string(), // FIXME: generate the real qualname
814 fn lookup_def_id(&self, ref_id: hir::HirId) -> Option<DefId> {
815 match self.get_path_res(ref_id) {
816 Res::PrimTy(_) | Res::SelfTy(..) | Res::Err => None,
817 def => def.opt_def_id(),
821 fn docs_for_attrs(&self, attrs: &[ast::Attribute]) -> String {
822 let mut result = String::new();
825 if let Some(val) = attr.doc_str() {
826 // FIXME: Should save-analysis beautify doc strings itself or leave it to users?
827 result.push_str(&beautify_doc_string(val).as_str());
832 if !self.config.full_docs {
833 if let Some(index) = result.find("\n\n") {
834 result.truncate(index);
841 fn next_impl_id(&self) -> u32 {
842 let next = self.impl_counter.get();
843 self.impl_counter.set(next + 1);
848 // An AST visitor for collecting paths (e.g., the names of structs) and formal
849 // variables (idents) from patterns.
850 struct PathCollector<'l> {
852 collected_paths: Vec<(hir::HirId, &'l hir::QPath<'l>)>,
853 collected_idents: Vec<(hir::HirId, Ident, hir::Mutability)>,
856 impl<'l> PathCollector<'l> {
857 fn new(tcx: TyCtxt<'l>) -> PathCollector<'l> {
858 PathCollector { tcx, collected_paths: vec![], collected_idents: vec![] }
862 impl<'l> Visitor<'l> for PathCollector<'l> {
865 fn nested_visit_map(&mut self) -> intravisit::NestedVisitorMap<Self::Map> {
866 intravisit::NestedVisitorMap::All(self.tcx.hir())
869 fn visit_pat(&mut self, p: &'l hir::Pat<'l>) {
871 hir::PatKind::Struct(ref path, ..) => {
872 self.collected_paths.push((p.hir_id, path));
874 hir::PatKind::TupleStruct(ref path, ..) | hir::PatKind::Path(ref path) => {
875 self.collected_paths.push((p.hir_id, path));
877 hir::PatKind::Binding(bm, _, ident, _) => {
879 "PathCollector, visit ident in pat {}: {:?} {:?}",
880 ident, p.span, ident.span
882 let immut = match bm {
883 // Even if the ref is mut, you can't change the ref, only
884 // the data pointed at, so showing the initialising expression
885 // is still worthwhile.
886 hir::BindingAnnotation::Unannotated | hir::BindingAnnotation::Ref => {
889 hir::BindingAnnotation::Mutable | hir::BindingAnnotation::RefMut => {
893 self.collected_idents.push((p.hir_id, ident, immut));
897 intravisit::walk_pat(self, p);
901 /// Defines what to do with the results of saving the analysis.
902 pub trait SaveHandler {
903 fn save(&mut self, save_ctxt: &SaveContext<'_>, analysis: &Analysis);
906 /// Dump the save-analysis results to a file.
907 pub struct DumpHandler<'a> {
908 odir: Option<&'a Path>,
912 impl<'a> DumpHandler<'a> {
913 pub fn new(odir: Option<&'a Path>, cratename: &str) -> DumpHandler<'a> {
914 DumpHandler { odir, cratename: cratename.to_owned() }
917 fn output_file(&self, ctx: &SaveContext<'_>) -> (BufWriter<File>, PathBuf) {
918 let sess = &ctx.tcx.sess;
919 let file_name = match ctx.config.output_file {
920 Some(ref s) => PathBuf::from(s),
922 let mut root_path = match self.odir {
923 Some(val) => val.join("save-analysis"),
924 None => PathBuf::from("save-analysis-temp"),
927 if let Err(e) = std::fs::create_dir_all(&root_path) {
928 error!("Could not create directory {}: {}", root_path.display(), e);
931 let executable = sess.crate_types().iter().any(|ct| *ct == CrateType::Executable);
932 let mut out_name = if executable { String::new() } else { "lib".to_owned() };
933 out_name.push_str(&self.cratename);
934 out_name.push_str(&sess.opts.cg.extra_filename);
935 out_name.push_str(".json");
936 root_path.push(&out_name);
942 info!("Writing output to {}", file_name.display());
944 let output_file = BufWriter::new(File::create(&file_name).unwrap_or_else(|e| {
945 sess.fatal(&format!("Could not open {}: {}", file_name.display(), e))
948 (output_file, file_name)
952 impl SaveHandler for DumpHandler<'_> {
953 fn save(&mut self, save_ctxt: &SaveContext<'_>, analysis: &Analysis) {
954 let sess = &save_ctxt.tcx.sess;
955 let (output, file_name) = self.output_file(&save_ctxt);
956 if let Err(e) = serde_json::to_writer(output, &analysis) {
957 error!("Can't serialize save-analysis: {:?}", e);
960 if sess.opts.json_artifact_notifications {
961 sess.parse_sess.span_diagnostic.emit_artifact_notification(&file_name, "save-analysis");
966 /// Call a callback with the results of save-analysis.
967 pub struct CallbackHandler<'b> {
968 pub callback: &'b mut dyn FnMut(&rls_data::Analysis),
971 impl SaveHandler for CallbackHandler<'_> {
972 fn save(&mut self, _: &SaveContext<'_>, analysis: &Analysis) {
973 (self.callback)(analysis)
977 pub fn process_crate<'l, 'tcx, H: SaveHandler>(
981 config: Option<Config>,
984 with_no_trimmed_paths(|| {
985 tcx.dep_graph.with_ignore(|| {
986 info!("Dumping crate {}", cratename);
988 // Privacy checking requires and is done after type checking; use a
989 // fallback in case the access levels couldn't have been correctly computed.
990 let access_levels = match tcx.sess.compile_status() {
991 Ok(..) => tcx.privacy_access_levels(()),
992 Err(..) => tcx.arena.alloc(AccessLevels::default()),
995 let save_ctxt = SaveContext {
997 maybe_typeck_results: None,
998 access_levels: &access_levels,
999 span_utils: SpanUtils::new(&tcx.sess),
1000 config: find_config(config),
1001 impl_counter: Cell::new(0),
1004 let mut visitor = DumpVisitor::new(save_ctxt);
1006 visitor.dump_crate_info(cratename, tcx.hir().krate());
1007 visitor.dump_compilation_options(input, cratename);
1008 visitor.process_crate(tcx.hir().krate());
1010 handler.save(&visitor.save_ctxt, &visitor.analysis())
1015 fn find_config(supplied: Option<Config>) -> Config {
1016 if let Some(config) = supplied {
1020 match env::var_os("RUST_SAVE_ANALYSIS_CONFIG") {
1021 None => Config::default(),
1022 Some(config) => config
1025 .map_err(|_| error!("`RUST_SAVE_ANALYSIS_CONFIG` isn't UTF-8"))
1027 serde_json::from_str(cfg)
1028 .map_err(|_| error!("Could not deserialize save-analysis config"))
1030 .unwrap_or_default(),
1034 // Utility functions for the module.
1036 // Helper function to escape quotes in a string
1037 fn escape(s: String) -> String {
1038 s.replace("\"", "\"\"")
1041 // Helper function to determine if a span came from a
1042 // macro expansion or syntax extension.
1043 fn generated_code(span: Span) -> bool {
1044 span.from_expansion() || span.is_dummy()
1047 // DefId::index is a newtype and so the JSON serialisation is ugly. Therefore
1048 // we use our own Id which is the same, but without the newtype.
1049 fn id_from_def_id(id: DefId) -> rls_data::Id {
1050 rls_data::Id { krate: id.krate.as_u32(), index: id.index.as_u32() }
1053 fn id_from_hir_id(id: hir::HirId, scx: &SaveContext<'_>) -> rls_data::Id {
1054 let def_id = scx.tcx.hir().opt_local_def_id(id);
1055 def_id.map(|id| id_from_def_id(id.to_def_id())).unwrap_or_else(|| {
1056 // Create a *fake* `DefId` out of a `HirId` by combining the owner
1057 // `local_def_index` and the `local_id`.
1058 // This will work unless you have *billions* of definitions in a single
1059 // crate (very unlikely to actually happen).
1061 krate: LOCAL_CRATE.as_u32(),
1062 index: id.owner.local_def_index.as_u32() | id.local_id.as_u32().reverse_bits(),
1067 fn null_id() -> rls_data::Id {
1068 rls_data::Id { krate: u32::MAX, index: u32::MAX }
1071 fn lower_attributes(attrs: Vec<ast::Attribute>, scx: &SaveContext<'_>) -> Vec<rls_data::Attribute> {
1074 // Only retain real attributes. Doc comments are lowered separately.
1075 .filter(|attr| !attr.has_name(sym::doc))
1077 // Remove the surrounding '#[..]' or '#![..]' of the pretty printed
1078 // attribute. First normalize all inner attribute (#![..]) to outer
1079 // ones (#[..]), then remove the two leading and the one trailing character.
1080 attr.style = ast::AttrStyle::Outer;
1081 let value = attribute_to_string(&attr);
1082 // This str slicing works correctly, because the leading and trailing characters
1083 // are in the ASCII range and thus exactly one byte each.
1084 let value = value[2..value.len() - 1].to_string();
1086 rls_data::Attribute { value, span: scx.span_from_span(attr.span) }