From 698f8c2f01ea549d77d7dc3338a12e04c11057b9 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Wed, 17 Apr 2024 14:02:58 +0200 Subject: Adding upstream version 1.64.0+dfsg1. Signed-off-by: Daniel Baumann --- compiler/rustc_save_analysis/src/dump_visitor.rs | 1463 ++++++++++++++++++++++ 1 file changed, 1463 insertions(+) create mode 100644 compiler/rustc_save_analysis/src/dump_visitor.rs (limited to 'compiler/rustc_save_analysis/src/dump_visitor.rs') diff --git a/compiler/rustc_save_analysis/src/dump_visitor.rs b/compiler/rustc_save_analysis/src/dump_visitor.rs new file mode 100644 index 000000000..e2e0e1f5b --- /dev/null +++ b/compiler/rustc_save_analysis/src/dump_visitor.rs @@ -0,0 +1,1463 @@ +//! Write the output of rustc's analysis to an implementor of Dump. +//! +//! Dumping the analysis is implemented by walking the AST and getting a bunch of +//! info out from all over the place. We use `DefId`s to identify objects. The +//! tricky part is getting syntactic (span, source text) and semantic (reference +//! `DefId`s) information for parts of expressions which the compiler has discarded. +//! E.g., in a path `foo::bar::baz`, the compiler only keeps a span for the whole +//! path and a reference to `baz`, but we want spans and references for all three +//! idents. +//! +//! SpanUtils is used to manipulate spans. In particular, to extract sub-spans +//! from spans (e.g., the span for `bar` from the above example path). +//! DumpVisitor walks the AST and processes it, and Dumper is used for +//! recording the output. + +use rustc_ast as ast; +use rustc_ast::walk_list; +use rustc_data_structures::fx::FxHashSet; +use rustc_hir as hir; +use rustc_hir::def::{DefKind as HirDefKind, Res}; +use rustc_hir::def_id::{DefId, LocalDefId, CRATE_DEF_ID}; +use rustc_hir::intravisit::{self, Visitor}; +use rustc_hir_pretty::{bounds_to_string, fn_to_string, generic_params_to_string, ty_to_string}; +use rustc_middle::hir::nested_filter; +use rustc_middle::span_bug; +use rustc_middle::ty::{self, DefIdTree, TyCtxt}; +use rustc_session::config::Input; +use rustc_span::symbol::Ident; +use rustc_span::*; + +use std::env; +use std::path::Path; + +use crate::dumper::{Access, Dumper}; +use crate::sig; +use crate::span_utils::SpanUtils; +use crate::{ + escape, generated_code, id_from_def_id, id_from_hir_id, lower_attributes, PathCollector, + SaveContext, +}; + +use rls_data::{ + CompilationOptions, CratePreludeData, Def, DefKind, GlobalCrateId, Import, ImportKind, Ref, + RefKind, Relation, RelationKind, SpanData, +}; + +use tracing::{debug, error}; + +#[rustfmt::skip] // https://github.com/rust-lang/rustfmt/issues/5213 +macro_rules! down_cast_data { + ($id:ident, $kind:ident, $sp:expr) => { + let super::Data::$kind($id) = $id else { + span_bug!($sp, "unexpected data kind: {:?}", $id); + }; + }; +} + +macro_rules! access_from { + ($save_ctxt:expr, $id:expr) => { + Access { + public: $save_ctxt.tcx.visibility($id).is_public(), + reachable: $save_ctxt.access_levels.is_reachable($id), + } + }; +} + +pub struct DumpVisitor<'tcx> { + pub save_ctxt: SaveContext<'tcx>, + tcx: TyCtxt<'tcx>, + dumper: Dumper, + + span: SpanUtils<'tcx>, + // Set of macro definition (callee) spans, and the set + // of macro use (callsite) spans. We store these to ensure + // we only write one macro def per unique macro definition, and + // one macro use per unique callsite span. + // mac_defs: FxHashSet, + // macro_calls: FxHashSet, +} + +impl<'tcx> DumpVisitor<'tcx> { + pub fn new(save_ctxt: SaveContext<'tcx>) -> DumpVisitor<'tcx> { + let span_utils = SpanUtils::new(&save_ctxt.tcx.sess); + let dumper = Dumper::new(save_ctxt.config.clone()); + DumpVisitor { tcx: save_ctxt.tcx, save_ctxt, dumper, span: span_utils } + } + + pub fn analysis(&self) -> &rls_data::Analysis { + self.dumper.analysis() + } + + fn nest_typeck_results(&mut self, item_def_id: LocalDefId, f: F) + where + F: FnOnce(&mut Self), + { + let typeck_results = if self.tcx.has_typeck_results(item_def_id) { + Some(self.tcx.typeck(item_def_id)) + } else { + None + }; + + let old_maybe_typeck_results = self.save_ctxt.maybe_typeck_results; + self.save_ctxt.maybe_typeck_results = typeck_results; + f(self); + self.save_ctxt.maybe_typeck_results = old_maybe_typeck_results; + } + + fn span_from_span(&self, span: Span) -> SpanData { + self.save_ctxt.span_from_span(span) + } + + fn lookup_def_id(&self, ref_id: hir::HirId) -> Option { + self.save_ctxt.lookup_def_id(ref_id) + } + + pub fn dump_crate_info(&mut self, name: &str) { + let source_file = self.tcx.sess.local_crate_source_file.as_ref(); + let crate_root = source_file.map(|source_file| { + let source_file = Path::new(source_file); + match source_file.file_name() { + Some(_) => source_file.parent().unwrap().display(), + None => source_file.display(), + } + .to_string() + }); + + let data = CratePreludeData { + crate_id: GlobalCrateId { + name: name.into(), + disambiguator: (self.tcx.sess.local_stable_crate_id().to_u64(), 0), + }, + crate_root: crate_root.unwrap_or_else(|| "".to_owned()), + external_crates: self.save_ctxt.get_external_crates(), + span: self.span_from_span(self.tcx.def_span(CRATE_DEF_ID)), + }; + + self.dumper.crate_prelude(data); + } + + pub fn dump_compilation_options(&mut self, input: &Input, crate_name: &str) { + // Apply possible `remap-path-prefix` remapping to the input source file + // (and don't include remapping args anymore) + let (program, arguments) = { + let remap_arg_indices = { + let mut indices = FxHashSet::default(); + // Args are guaranteed to be valid UTF-8 (checked early) + for (i, e) in env::args().enumerate() { + if e.starts_with("--remap-path-prefix=") { + indices.insert(i); + } else if e == "--remap-path-prefix" { + indices.insert(i); + indices.insert(i + 1); + } + } + indices + }; + + let mut args = env::args() + .enumerate() + .filter(|(i, _)| !remap_arg_indices.contains(i)) + .map(|(_, arg)| match input { + Input::File(ref path) if path == Path::new(&arg) => { + let mapped = &self.tcx.sess.local_crate_source_file; + mapped.as_ref().unwrap().to_string_lossy().into() + } + _ => arg, + }); + + (args.next().unwrap(), args.collect()) + }; + + let data = CompilationOptions { + directory: self.tcx.sess.opts.working_dir.remapped_path_if_available().into(), + program, + arguments, + output: self.save_ctxt.compilation_output(crate_name), + }; + + self.dumper.compilation_opts(data); + } + + fn write_segments(&mut self, segments: impl IntoIterator>) { + for seg in segments { + if let Some(data) = self.save_ctxt.get_path_segment_data(seg) { + self.dumper.dump_ref(data); + } + } + } + + fn write_sub_paths(&mut self, path: &'tcx hir::Path<'tcx>) { + self.write_segments(path.segments) + } + + // As write_sub_paths, but does not process the last ident in the path (assuming it + // will be processed elsewhere). See note on write_sub_paths about global. + fn write_sub_paths_truncated(&mut self, path: &'tcx hir::Path<'tcx>) { + if let [segments @ .., _] = path.segments { + self.write_segments(segments) + } + } + + fn process_formals(&mut self, formals: &'tcx [hir::Param<'tcx>], qualname: &str) { + for arg in formals { + self.visit_pat(&arg.pat); + let mut collector = PathCollector::new(self.tcx); + collector.visit_pat(&arg.pat); + + for (hir_id, ident, ..) in collector.collected_idents { + let typ = match self.save_ctxt.typeck_results().node_type_opt(hir_id) { + Some(s) => s.to_string(), + None => continue, + }; + if !self.span.filter_generated(ident.span) { + let id = id_from_hir_id(hir_id, &self.save_ctxt); + let span = self.span_from_span(ident.span); + + self.dumper.dump_def( + &Access { public: false, reachable: false }, + Def { + kind: DefKind::Local, + id, + span, + name: ident.to_string(), + qualname: format!("{}::{}", qualname, ident), + value: typ, + parent: None, + children: vec![], + decl_id: None, + docs: String::new(), + sig: None, + attributes: vec![], + }, + ); + } + } + } + } + + fn process_method( + &mut self, + sig: &'tcx hir::FnSig<'tcx>, + body: Option, + def_id: LocalDefId, + ident: Ident, + generics: &'tcx hir::Generics<'tcx>, + span: Span, + ) { + debug!("process_method: {:?}:{}", def_id, ident); + + let map = self.tcx.hir(); + let hir_id = map.local_def_id_to_hir_id(def_id); + self.nest_typeck_results(def_id, |v| { + if let Some(mut method_data) = v.save_ctxt.get_method_data(hir_id, ident, span) { + if let Some(body) = body { + v.process_formals(map.body(body).params, &method_data.qualname); + } + v.process_generic_params(&generics, &method_data.qualname, hir_id); + + method_data.value = + fn_to_string(sig.decl, sig.header, Some(ident.name), generics, &[], None); + method_data.sig = sig::method_signature(hir_id, ident, generics, sig, &v.save_ctxt); + + v.dumper.dump_def(&access_from!(v.save_ctxt, def_id), method_data); + } + + // walk arg and return types + for arg in sig.decl.inputs { + v.visit_ty(arg); + } + + if let hir::FnRetTy::Return(ref ret_ty) = sig.decl.output { + v.visit_ty(ret_ty) + } + + // walk the fn body + if let Some(body) = body { + v.visit_expr(&map.body(body).value); + } + }); + } + + fn process_struct_field_def( + &mut self, + field: &'tcx hir::FieldDef<'tcx>, + parent_id: hir::HirId, + ) { + let field_data = self.save_ctxt.get_field_data(field, parent_id); + if let Some(field_data) = field_data { + self.dumper.dump_def( + &access_from!(self.save_ctxt, self.tcx.hir().local_def_id(field.hir_id)), + field_data, + ); + } + } + + // Dump generic params bindings, then visit_generics + fn process_generic_params( + &mut self, + generics: &'tcx hir::Generics<'tcx>, + prefix: &str, + id: hir::HirId, + ) { + for param in generics.params { + match param.kind { + hir::GenericParamKind::Lifetime { .. } => {} + hir::GenericParamKind::Type { .. } => { + let param_ss = param.name.ident().span; + let name = escape(self.span.snippet(param_ss)); + // Append $id to name to make sure each one is unique. + let qualname = format!("{}::{}${}", prefix, name, id); + if !self.span.filter_generated(param_ss) { + let id = id_from_hir_id(param.hir_id, &self.save_ctxt); + let span = self.span_from_span(param_ss); + + self.dumper.dump_def( + &Access { public: false, reachable: false }, + Def { + kind: DefKind::Type, + id, + span, + name, + qualname, + value: String::new(), + parent: None, + children: vec![], + decl_id: None, + docs: String::new(), + sig: None, + attributes: vec![], + }, + ); + } + } + hir::GenericParamKind::Const { .. } => {} + } + } + + self.visit_generics(generics) + } + + fn process_fn( + &mut self, + item: &'tcx hir::Item<'tcx>, + decl: &'tcx hir::FnDecl<'tcx>, + _header: &'tcx hir::FnHeader, + ty_params: &'tcx hir::Generics<'tcx>, + body: hir::BodyId, + ) { + let map = self.tcx.hir(); + self.nest_typeck_results(item.def_id, |v| { + let body = map.body(body); + if let Some(fn_data) = v.save_ctxt.get_item_data(item) { + down_cast_data!(fn_data, DefData, item.span); + v.process_formals(body.params, &fn_data.qualname); + v.process_generic_params(ty_params, &fn_data.qualname, item.hir_id()); + + v.dumper.dump_def(&access_from!(v.save_ctxt, item.def_id), fn_data); + } + + for arg in decl.inputs { + v.visit_ty(arg) + } + + if let hir::FnRetTy::Return(ref ret_ty) = decl.output { + v.visit_ty(ret_ty) + } + + v.visit_expr(&body.value); + }); + } + + fn process_static_or_const_item( + &mut self, + item: &'tcx hir::Item<'tcx>, + typ: &'tcx hir::Ty<'tcx>, + expr: &'tcx hir::Expr<'tcx>, + ) { + self.nest_typeck_results(item.def_id, |v| { + if let Some(var_data) = v.save_ctxt.get_item_data(item) { + down_cast_data!(var_data, DefData, item.span); + v.dumper.dump_def(&access_from!(v.save_ctxt, item.def_id), var_data); + } + v.visit_ty(&typ); + v.visit_expr(expr); + }); + } + + fn process_assoc_const( + &mut self, + def_id: LocalDefId, + ident: Ident, + typ: &'tcx hir::Ty<'tcx>, + expr: Option<&'tcx hir::Expr<'tcx>>, + parent_id: DefId, + attrs: &'tcx [ast::Attribute], + ) { + let qualname = format!("::{}", self.tcx.def_path_str(def_id.to_def_id())); + + if !self.span.filter_generated(ident.span) { + let hir_id = self.tcx.hir().local_def_id_to_hir_id(def_id); + let sig = sig::assoc_const_signature(hir_id, ident.name, typ, expr, &self.save_ctxt); + let span = self.span_from_span(ident.span); + + self.dumper.dump_def( + &access_from!(self.save_ctxt, def_id), + Def { + kind: DefKind::Const, + id: id_from_hir_id(hir_id, &self.save_ctxt), + span, + name: ident.name.to_string(), + qualname, + value: ty_to_string(&typ), + parent: Some(id_from_def_id(parent_id)), + children: vec![], + decl_id: None, + docs: self.save_ctxt.docs_for_attrs(attrs), + sig, + attributes: lower_attributes(attrs.to_owned(), &self.save_ctxt), + }, + ); + } + + // walk type and init value + self.nest_typeck_results(def_id, |v| { + v.visit_ty(typ); + if let Some(expr) = expr { + v.visit_expr(expr); + } + }); + } + + // FIXME tuple structs should generate tuple-specific data. + fn process_struct( + &mut self, + item: &'tcx hir::Item<'tcx>, + def: &'tcx hir::VariantData<'tcx>, + ty_params: &'tcx hir::Generics<'tcx>, + ) { + debug!("process_struct {:?} {:?}", item, item.span); + let name = item.ident.to_string(); + let qualname = format!("::{}", self.tcx.def_path_str(item.def_id.to_def_id())); + + let kind = match item.kind { + hir::ItemKind::Struct(_, _) => DefKind::Struct, + hir::ItemKind::Union(_, _) => DefKind::Union, + _ => unreachable!(), + }; + + let (value, fields) = match item.kind { + hir::ItemKind::Struct(hir::VariantData::Struct(ref fields, ..), ..) + | hir::ItemKind::Union(hir::VariantData::Struct(ref fields, ..), ..) => { + let include_priv_fields = !self.save_ctxt.config.pub_only; + let fields_str = fields + .iter() + .filter_map(|f| { + if include_priv_fields { + return Some(f.ident.to_string()); + } + let def_id = self.save_ctxt.tcx.hir().local_def_id(f.hir_id); + if self.save_ctxt.tcx.visibility(def_id).is_public() { + Some(f.ident.to_string()) + } else { + None + } + }) + .collect::>() + .join(", "); + let value = format!("{} {{ {} }}", name, fields_str); + (value, fields.iter().map(|f| id_from_hir_id(f.hir_id, &self.save_ctxt)).collect()) + } + _ => (String::new(), vec![]), + }; + + if !self.span.filter_generated(item.ident.span) { + let span = self.span_from_span(item.ident.span); + let attrs = self.tcx.hir().attrs(item.hir_id()); + self.dumper.dump_def( + &access_from!(self.save_ctxt, item.def_id), + Def { + kind, + id: id_from_def_id(item.def_id.to_def_id()), + span, + name, + qualname: qualname.clone(), + value, + parent: None, + children: fields, + decl_id: None, + docs: self.save_ctxt.docs_for_attrs(attrs), + sig: sig::item_signature(item, &self.save_ctxt), + attributes: lower_attributes(attrs.to_vec(), &self.save_ctxt), + }, + ); + } + + self.nest_typeck_results(item.def_id, |v| { + for field in def.fields() { + v.process_struct_field_def(field, item.hir_id()); + v.visit_ty(&field.ty); + } + + v.process_generic_params(ty_params, &qualname, item.hir_id()); + }); + } + + fn process_enum( + &mut self, + item: &'tcx hir::Item<'tcx>, + enum_definition: &'tcx hir::EnumDef<'tcx>, + ty_params: &'tcx hir::Generics<'tcx>, + ) { + let enum_data = self.save_ctxt.get_item_data(item); + let Some(enum_data) = enum_data else { + return; + }; + down_cast_data!(enum_data, DefData, item.span); + + let access = access_from!(self.save_ctxt, item.def_id); + + for variant in enum_definition.variants { + let name = variant.ident.name.to_string(); + let qualname = format!("{}::{}", enum_data.qualname, name); + let name_span = variant.ident.span; + + match variant.data { + hir::VariantData::Struct(ref fields, ..) => { + let fields_str = + fields.iter().map(|f| f.ident.to_string()).collect::>().join(", "); + let value = format!("{}::{} {{ {} }}", enum_data.name, name, fields_str); + if !self.span.filter_generated(name_span) { + let span = self.span_from_span(name_span); + let id = id_from_hir_id(variant.id, &self.save_ctxt); + let parent = Some(id_from_def_id(item.def_id.to_def_id())); + let attrs = self.tcx.hir().attrs(variant.id); + + self.dumper.dump_def( + &access, + Def { + kind: DefKind::StructVariant, + id, + span, + name, + qualname, + value, + parent, + children: vec![], + decl_id: None, + docs: self.save_ctxt.docs_for_attrs(attrs), + sig: sig::variant_signature(variant, &self.save_ctxt), + attributes: lower_attributes(attrs.to_vec(), &self.save_ctxt), + }, + ); + } + } + ref v => { + let mut value = format!("{}::{}", enum_data.name, name); + if let hir::VariantData::Tuple(fields, _) = v { + value.push('('); + value.push_str( + &fields + .iter() + .map(|f| ty_to_string(&f.ty)) + .collect::>() + .join(", "), + ); + value.push(')'); + } + if !self.span.filter_generated(name_span) { + let span = self.span_from_span(name_span); + let id = id_from_hir_id(variant.id, &self.save_ctxt); + let parent = Some(id_from_def_id(item.def_id.to_def_id())); + let attrs = self.tcx.hir().attrs(variant.id); + + self.dumper.dump_def( + &access, + Def { + kind: DefKind::TupleVariant, + id, + span, + name, + qualname, + value, + parent, + children: vec![], + decl_id: None, + docs: self.save_ctxt.docs_for_attrs(attrs), + sig: sig::variant_signature(variant, &self.save_ctxt), + attributes: lower_attributes(attrs.to_vec(), &self.save_ctxt), + }, + ); + } + } + } + + for field in variant.data.fields() { + self.process_struct_field_def(field, variant.id); + self.visit_ty(field.ty); + } + } + self.process_generic_params(ty_params, &enum_data.qualname, item.hir_id()); + self.dumper.dump_def(&access, enum_data); + } + + fn process_impl(&mut self, item: &'tcx hir::Item<'tcx>, impl_: &'tcx hir::Impl<'tcx>) { + if let Some(impl_data) = self.save_ctxt.get_item_data(item) { + if !self.span.filter_generated(item.span) { + if let super::Data::RelationData(rel, imp) = impl_data { + self.dumper.dump_relation(rel); + self.dumper.dump_impl(imp); + } else { + span_bug!(item.span, "unexpected data kind: {:?}", impl_data); + } + } + } + + let map = self.tcx.hir(); + self.nest_typeck_results(item.def_id, |v| { + v.visit_ty(&impl_.self_ty); + if let Some(trait_ref) = &impl_.of_trait { + v.process_path(trait_ref.hir_ref_id, &hir::QPath::Resolved(None, &trait_ref.path)); + } + v.process_generic_params(&impl_.generics, "", item.hir_id()); + for impl_item in impl_.items { + v.process_impl_item(map.impl_item(impl_item.id), item.def_id.to_def_id()); + } + }); + } + + fn process_trait( + &mut self, + item: &'tcx hir::Item<'tcx>, + generics: &'tcx hir::Generics<'tcx>, + trait_refs: hir::GenericBounds<'tcx>, + methods: &'tcx [hir::TraitItemRef], + ) { + let name = item.ident.to_string(); + let qualname = format!("::{}", self.tcx.def_path_str(item.def_id.to_def_id())); + let mut val = name.clone(); + if !generics.params.is_empty() { + val.push_str(&generic_params_to_string(generics.params)); + } + if !trait_refs.is_empty() { + val.push_str(": "); + val.push_str(&bounds_to_string(trait_refs)); + } + if !self.span.filter_generated(item.ident.span) { + let id = id_from_def_id(item.def_id.to_def_id()); + let span = self.span_from_span(item.ident.span); + let children = + methods.iter().map(|i| id_from_def_id(i.id.def_id.to_def_id())).collect(); + let attrs = self.tcx.hir().attrs(item.hir_id()); + self.dumper.dump_def( + &access_from!(self.save_ctxt, item.def_id), + Def { + kind: DefKind::Trait, + id, + span, + name, + qualname: qualname.clone(), + value: val, + parent: None, + children, + decl_id: None, + docs: self.save_ctxt.docs_for_attrs(attrs), + sig: sig::item_signature(item, &self.save_ctxt), + attributes: lower_attributes(attrs.to_vec(), &self.save_ctxt), + }, + ); + } + + // supertraits + for super_bound in trait_refs.iter() { + let (def_id, sub_span) = match *super_bound { + hir::GenericBound::Trait(ref trait_ref, _) => ( + self.lookup_def_id(trait_ref.trait_ref.hir_ref_id), + trait_ref.trait_ref.path.segments.last().unwrap().ident.span, + ), + hir::GenericBound::LangItemTrait(lang_item, span, _, _) => { + (Some(self.tcx.require_lang_item(lang_item, Some(span))), span) + } + hir::GenericBound::Outlives(..) => continue, + }; + + if let Some(id) = def_id { + if !self.span.filter_generated(sub_span) { + let span = self.span_from_span(sub_span); + self.dumper.dump_ref(Ref { + kind: RefKind::Type, + span: span.clone(), + ref_id: id_from_def_id(id), + }); + + self.dumper.dump_relation(Relation { + kind: RelationKind::SuperTrait, + span, + from: id_from_def_id(id), + to: id_from_def_id(item.def_id.to_def_id()), + }); + } + } + } + + // walk generics and methods + self.process_generic_params(generics, &qualname, item.hir_id()); + for method in methods { + let map = self.tcx.hir(); + self.process_trait_item(map.trait_item(method.id), item.def_id.to_def_id()) + } + } + + // `item` is the module in question, represented as an( item. + fn process_mod(&mut self, item: &'tcx hir::Item<'tcx>) { + if let Some(mod_data) = self.save_ctxt.get_item_data(item) { + down_cast_data!(mod_data, DefData, item.span); + self.dumper.dump_def(&access_from!(self.save_ctxt, item.def_id), mod_data); + } + } + + fn dump_path_ref(&mut self, id: hir::HirId, path: &hir::QPath<'tcx>) { + let path_data = self.save_ctxt.get_path_data(id, path); + if let Some(path_data) = path_data { + self.dumper.dump_ref(path_data); + } + } + + fn dump_path_segment_ref(&mut self, id: hir::HirId, segment: &hir::PathSegment<'tcx>) { + let segment_data = self.save_ctxt.get_path_segment_data_with_id(segment, id); + if let Some(segment_data) = segment_data { + self.dumper.dump_ref(segment_data); + } + } + + fn process_path(&mut self, id: hir::HirId, path: &hir::QPath<'tcx>) { + if self.span.filter_generated(path.span()) { + return; + } + self.dump_path_ref(id, path); + + // Type arguments + let segments = match path { + hir::QPath::Resolved(ty, path) => { + if let Some(ty) = ty { + self.visit_ty(ty); + } + path.segments + } + hir::QPath::TypeRelative(ty, segment) => { + self.visit_ty(ty); + std::slice::from_ref(*segment) + } + hir::QPath::LangItem(..) => return, + }; + for seg in segments { + if let Some(ref generic_args) = seg.args { + for arg in generic_args.args { + if let hir::GenericArg::Type(ref ty) = arg { + self.visit_ty(ty); + } + } + } + } + + if let hir::QPath::Resolved(_, path) = path { + self.write_sub_paths_truncated(path); + } + } + + fn process_struct_lit( + &mut self, + ex: &'tcx hir::Expr<'tcx>, + path: &'tcx hir::QPath<'tcx>, + fields: &'tcx [hir::ExprField<'tcx>], + variant: &'tcx ty::VariantDef, + rest: Option<&'tcx hir::Expr<'tcx>>, + ) { + if let Some(_ex_res_data) = self.save_ctxt.get_expr_data(ex) { + if let hir::QPath::Resolved(_, path) = path { + self.write_sub_paths_truncated(path); + } + // For MyEnum::MyVariant, get_expr_data gives us MyEnum, not MyVariant. + // For recording the span's ref id, we want MyVariant. + if !generated_code(ex.span) { + let sub_span = path.last_segment_span(); + let span = self.save_ctxt.span_from_span(sub_span); + let reff = + Ref { kind: RefKind::Type, span, ref_id: id_from_def_id(variant.def_id) }; + self.dumper.dump_ref(reff); + } + + for field in fields { + if let Some(field_data) = self.save_ctxt.get_field_ref_data(field, variant) { + self.dumper.dump_ref(field_data); + } + + self.visit_expr(&field.expr) + } + } + + if let Some(base) = rest { + self.visit_expr(&base); + } + } + + fn process_method_call( + &mut self, + ex: &'tcx hir::Expr<'tcx>, + seg: &'tcx hir::PathSegment<'tcx>, + args: &'tcx [hir::Expr<'tcx>], + ) { + debug!("process_method_call {:?} {:?}", ex, ex.span); + if let Some(mcd) = self.save_ctxt.get_expr_data(ex) { + down_cast_data!(mcd, RefData, ex.span); + if !generated_code(ex.span) { + self.dumper.dump_ref(mcd); + } + } + + // Explicit types in the turbo-fish. + if let Some(generic_args) = seg.args { + for arg in generic_args.args { + if let hir::GenericArg::Type(ty) = arg { + self.visit_ty(&ty) + }; + } + } + + // walk receiver and args + walk_list!(self, visit_expr, args); + } + + fn process_pat(&mut self, p: &'tcx hir::Pat<'tcx>) { + match p.kind { + hir::PatKind::Struct(ref _path, fields, _) => { + // FIXME do something with _path? + let adt = match self.save_ctxt.typeck_results().node_type_opt(p.hir_id) { + Some(ty) if ty.ty_adt_def().is_some() => ty.ty_adt_def().unwrap(), + _ => { + intravisit::walk_pat(self, p); + return; + } + }; + let variant = adt.variant_of_res(self.save_ctxt.get_path_res(p.hir_id)); + + for field in fields { + if let Some(index) = self.tcx.find_field_index(field.ident, variant) { + if !self.span.filter_generated(field.ident.span) { + let span = self.span_from_span(field.ident.span); + self.dumper.dump_ref(Ref { + kind: RefKind::Variable, + span, + ref_id: id_from_def_id(variant.fields[index].did), + }); + } + } + self.visit_pat(&field.pat); + } + } + _ => intravisit::walk_pat(self, p), + } + } + + fn process_var_decl(&mut self, pat: &'tcx hir::Pat<'tcx>) { + // The pattern could declare multiple new vars, + // we must walk the pattern and collect them all. + let mut collector = PathCollector::new(self.tcx); + collector.visit_pat(&pat); + self.visit_pat(&pat); + + // Process collected paths. + for (id, ident, _) in collector.collected_idents { + let res = self.save_ctxt.get_path_res(id); + match res { + Res::Local(hir_id) => { + let typ = self + .save_ctxt + .typeck_results() + .node_type_opt(hir_id) + .map(|t| t.to_string()) + .unwrap_or_default(); + + // Rust uses the id of the pattern for var lookups, so we'll use it too. + if !self.span.filter_generated(ident.span) { + let qualname = format!("{}${}", ident, hir_id); + let id = id_from_hir_id(hir_id, &self.save_ctxt); + let span = self.span_from_span(ident.span); + + self.dumper.dump_def( + &Access { public: false, reachable: false }, + Def { + kind: DefKind::Local, + id, + span, + name: ident.to_string(), + qualname, + value: typ, + parent: None, + children: vec![], + decl_id: None, + docs: String::new(), + sig: None, + attributes: vec![], + }, + ); + } + } + Res::Def( + HirDefKind::Ctor(..) + | HirDefKind::Const + | HirDefKind::AssocConst + | HirDefKind::Struct + | HirDefKind::Variant + | HirDefKind::TyAlias + | HirDefKind::AssocTy, + _, + ) + | Res::SelfTy { .. } => { + self.dump_path_segment_ref(id, &hir::PathSegment::from_ident(ident)); + } + def => { + error!("unexpected definition kind when processing collected idents: {:?}", def) + } + } + } + + for (id, ref path) in collector.collected_paths { + self.process_path(id, path); + } + } + + /// Extracts macro use and definition information from the AST node defined + /// by the given NodeId, using the expansion information from the node's + /// span. + /// + /// If the span is not macro-generated, do nothing, else use callee and + /// callsite spans to record macro definition and use data, using the + /// mac_uses and mac_defs sets to prevent multiples. + fn process_macro_use(&mut self, _span: Span) { + // FIXME if we're not dumping the defs (see below), there is no point + // dumping refs either. + // let source_span = span.source_callsite(); + // if !self.macro_calls.insert(source_span) { + // return; + // } + + // let data = match self.save_ctxt.get_macro_use_data(span) { + // None => return, + // Some(data) => data, + // }; + + // self.dumper.macro_use(data); + + // FIXME write the macro def + // let mut hasher = DefaultHasher::new(); + // data.callee_span.hash(&mut hasher); + // let hash = hasher.finish(); + // let qualname = format!("{}::{}", data.name, hash); + // Don't write macro definition for imported macros + // if !self.mac_defs.contains(&data.callee_span) + // && !data.imported { + // self.mac_defs.insert(data.callee_span); + // if let Some(sub_span) = self.span.span_for_macro_def_name(data.callee_span) { + // self.dumper.macro_data(MacroData { + // span: sub_span, + // name: data.name.clone(), + // qualname: qualname.clone(), + // // FIXME where do macro docs come from? + // docs: String::new(), + // }.lower(self.tcx)); + // } + // } + } + + fn process_trait_item(&mut self, trait_item: &'tcx hir::TraitItem<'tcx>, trait_id: DefId) { + self.process_macro_use(trait_item.span); + match trait_item.kind { + hir::TraitItemKind::Const(ref ty, body) => { + let body = body.map(|b| &self.tcx.hir().body(b).value); + let attrs = self.tcx.hir().attrs(trait_item.hir_id()); + self.process_assoc_const( + trait_item.def_id, + trait_item.ident, + &ty, + body, + trait_id, + attrs, + ); + } + hir::TraitItemKind::Fn(ref sig, ref trait_fn) => { + let body = + if let hir::TraitFn::Provided(body) = trait_fn { Some(*body) } else { None }; + self.process_method( + sig, + body, + trait_item.def_id, + trait_item.ident, + &trait_item.generics, + trait_item.span, + ); + } + hir::TraitItemKind::Type(ref bounds, ref default_ty) => { + // FIXME do something with _bounds (for type refs) + let name = trait_item.ident.name.to_string(); + let qualname = + format!("::{}", self.tcx.def_path_str(trait_item.def_id.to_def_id())); + + if !self.span.filter_generated(trait_item.ident.span) { + let span = self.span_from_span(trait_item.ident.span); + let id = id_from_def_id(trait_item.def_id.to_def_id()); + let attrs = self.tcx.hir().attrs(trait_item.hir_id()); + + self.dumper.dump_def( + &Access { public: true, reachable: true }, + Def { + kind: DefKind::Type, + id, + span, + name, + qualname, + value: self.span.snippet(trait_item.span), + parent: Some(id_from_def_id(trait_id)), + children: vec![], + decl_id: None, + docs: self.save_ctxt.docs_for_attrs(attrs), + sig: sig::assoc_type_signature( + trait_item.hir_id(), + trait_item.ident, + Some(bounds), + default_ty.as_ref().map(|ty| &**ty), + &self.save_ctxt, + ), + attributes: lower_attributes(attrs.to_vec(), &self.save_ctxt), + }, + ); + } + + if let Some(default_ty) = default_ty { + self.visit_ty(default_ty) + } + } + } + } + + fn process_impl_item(&mut self, impl_item: &'tcx hir::ImplItem<'tcx>, impl_id: DefId) { + self.process_macro_use(impl_item.span); + match impl_item.kind { + hir::ImplItemKind::Const(ref ty, body) => { + let body = self.tcx.hir().body(body); + let attrs = self.tcx.hir().attrs(impl_item.hir_id()); + self.process_assoc_const( + impl_item.def_id, + impl_item.ident, + &ty, + Some(&body.value), + impl_id, + attrs, + ); + } + hir::ImplItemKind::Fn(ref sig, body) => { + self.process_method( + sig, + Some(body), + impl_item.def_id, + impl_item.ident, + &impl_item.generics, + impl_item.span, + ); + } + hir::ImplItemKind::TyAlias(ref ty) => { + // FIXME: uses of the assoc type should ideally point to this + // 'def' and the name here should be a ref to the def in the + // trait. + self.visit_ty(ty) + } + } + } + + pub(crate) fn process_crate(&mut self) { + let id = hir::CRATE_HIR_ID; + let qualname = + format!("::{}", self.tcx.def_path_str(self.tcx.hir().local_def_id(id).to_def_id())); + + let sm = self.tcx.sess.source_map(); + let krate_mod = self.tcx.hir().root_module(); + let filename = sm.span_to_filename(krate_mod.spans.inner_span); + let data_id = id_from_hir_id(id, &self.save_ctxt); + let children = + krate_mod.item_ids.iter().map(|i| id_from_def_id(i.def_id.to_def_id())).collect(); + let span = self.span_from_span(krate_mod.spans.inner_span); + let attrs = self.tcx.hir().attrs(id); + + self.dumper.dump_def( + &Access { public: true, reachable: true }, + Def { + kind: DefKind::Mod, + id: data_id, + name: String::new(), + qualname, + span, + value: filename.prefer_remapped().to_string(), + children, + parent: None, + decl_id: None, + docs: self.save_ctxt.docs_for_attrs(attrs), + sig: None, + attributes: lower_attributes(attrs.to_owned(), &self.save_ctxt), + }, + ); + self.tcx.hir().walk_toplevel_module(self); + } + + fn process_bounds(&mut self, bounds: hir::GenericBounds<'tcx>) { + for bound in bounds { + if let hir::GenericBound::Trait(ref trait_ref, _) = *bound { + self.process_path( + trait_ref.trait_ref.hir_ref_id, + &hir::QPath::Resolved(None, &trait_ref.trait_ref.path), + ) + } + } + } +} + +impl<'tcx> Visitor<'tcx> for DumpVisitor<'tcx> { + type NestedFilter = nested_filter::All; + + fn nested_visit_map(&mut self) -> Self::Map { + self.tcx.hir() + } + + fn visit_item(&mut self, item: &'tcx hir::Item<'tcx>) { + self.process_macro_use(item.span); + match item.kind { + hir::ItemKind::Use(path, hir::UseKind::Single) => { + let sub_span = path.segments.last().unwrap().ident.span; + if !self.span.filter_generated(sub_span) { + let access = access_from!(self.save_ctxt, item.def_id); + let ref_id = self.lookup_def_id(item.hir_id()).map(id_from_def_id); + let span = self.span_from_span(sub_span); + let parent = self.save_ctxt.tcx.local_parent(item.def_id); + self.dumper.import( + &access, + Import { + kind: ImportKind::Use, + ref_id, + span, + alias_span: None, + name: item.ident.to_string(), + value: String::new(), + parent: Some(id_from_def_id(parent.to_def_id())), + }, + ); + self.write_sub_paths_truncated(&path); + } + } + hir::ItemKind::Use(path, hir::UseKind::Glob) => { + // Make a comma-separated list of names of imported modules. + let names = self.tcx.names_imported_by_glob_use(item.def_id); + let names: Vec<_> = names.iter().map(|n| n.to_string()).collect(); + + // Otherwise it's a span with wrong macro expansion info, which + // we don't want to track anyway, since it's probably macro-internal `use` + if let Some(sub_span) = self.span.sub_span_of_star(item.span) { + if !self.span.filter_generated(item.span) { + let access = access_from!(self.save_ctxt, item.def_id); + let span = self.span_from_span(sub_span); + let parent = self.save_ctxt.tcx.local_parent(item.def_id); + self.dumper.import( + &access, + Import { + kind: ImportKind::GlobUse, + ref_id: None, + span, + alias_span: None, + name: "*".to_owned(), + value: names.join(", "), + parent: Some(id_from_def_id(parent.to_def_id())), + }, + ); + self.write_sub_paths(&path); + } + } + } + hir::ItemKind::ExternCrate(_) => { + let name_span = item.ident.span; + if !self.span.filter_generated(name_span) { + let span = self.span_from_span(name_span); + let parent = self.save_ctxt.tcx.local_parent(item.def_id); + self.dumper.import( + &Access { public: false, reachable: false }, + Import { + kind: ImportKind::ExternCrate, + ref_id: None, + span, + alias_span: None, + name: item.ident.to_string(), + value: String::new(), + parent: Some(id_from_def_id(parent.to_def_id())), + }, + ); + } + } + hir::ItemKind::Fn(ref sig, ref ty_params, body) => { + self.process_fn(item, sig.decl, &sig.header, ty_params, body) + } + hir::ItemKind::Static(ref typ, _, body) => { + let body = self.tcx.hir().body(body); + self.process_static_or_const_item(item, typ, &body.value) + } + hir::ItemKind::Const(ref typ, body) => { + let body = self.tcx.hir().body(body); + self.process_static_or_const_item(item, typ, &body.value) + } + hir::ItemKind::Struct(ref def, ref ty_params) + | hir::ItemKind::Union(ref def, ref ty_params) => { + self.process_struct(item, def, ty_params) + } + hir::ItemKind::Enum(ref def, ref ty_params) => self.process_enum(item, def, ty_params), + hir::ItemKind::Impl(ref impl_) => self.process_impl(item, impl_), + hir::ItemKind::Trait(_, _, ref generics, ref trait_refs, methods) => { + self.process_trait(item, generics, trait_refs, methods) + } + hir::ItemKind::Mod(ref m) => { + self.process_mod(item); + intravisit::walk_mod(self, m, item.hir_id()); + } + hir::ItemKind::TyAlias(ty, ref generics) => { + let qualname = format!("::{}", self.tcx.def_path_str(item.def_id.to_def_id())); + let value = ty_to_string(&ty); + if !self.span.filter_generated(item.ident.span) { + let span = self.span_from_span(item.ident.span); + let id = id_from_def_id(item.def_id.to_def_id()); + let attrs = self.tcx.hir().attrs(item.hir_id()); + + self.dumper.dump_def( + &access_from!(self.save_ctxt, item.def_id), + Def { + kind: DefKind::Type, + id, + span, + name: item.ident.to_string(), + qualname: qualname.clone(), + value, + parent: None, + children: vec![], + decl_id: None, + docs: self.save_ctxt.docs_for_attrs(attrs), + sig: sig::item_signature(item, &self.save_ctxt), + attributes: lower_attributes(attrs.to_vec(), &self.save_ctxt), + }, + ); + } + + self.visit_ty(ty); + self.process_generic_params(generics, &qualname, item.hir_id()); + } + _ => intravisit::walk_item(self, item), + } + } + + fn visit_generics(&mut self, generics: &'tcx hir::Generics<'tcx>) { + for param in generics.params { + match param.kind { + hir::GenericParamKind::Lifetime { .. } => {} + hir::GenericParamKind::Type { ref default, .. } => { + if let Some(ref ty) = default { + self.visit_ty(ty); + } + } + hir::GenericParamKind::Const { ref ty, ref default } => { + self.visit_ty(ty); + if let Some(default) = default { + self.visit_anon_const(default); + } + } + } + } + for pred in generics.predicates { + if let hir::WherePredicate::BoundPredicate(ref wbp) = *pred { + self.process_bounds(wbp.bounds); + self.visit_ty(wbp.bounded_ty); + } + } + } + + fn visit_ty(&mut self, t: &'tcx hir::Ty<'tcx>) { + self.process_macro_use(t.span); + match t.kind { + hir::TyKind::Path(ref path) => { + if generated_code(t.span) { + return; + } + + if let Some(id) = self.lookup_def_id(t.hir_id) { + let sub_span = path.last_segment_span(); + let span = self.span_from_span(sub_span); + self.dumper.dump_ref(Ref { + kind: RefKind::Type, + span, + ref_id: id_from_def_id(id), + }); + } + + if let hir::QPath::Resolved(_, path) = path { + self.write_sub_paths_truncated(path); + } + intravisit::walk_qpath(self, path, t.hir_id, t.span); + } + hir::TyKind::Array(ref ty, ref length) => { + self.visit_ty(ty); + let map = self.tcx.hir(); + match length { + // FIXME(generic_arg_infer): We probably want to + // output the inferred type here? :shrug: + hir::ArrayLen::Infer(..) => {} + hir::ArrayLen::Body(anon_const) => self + .nest_typeck_results(self.tcx.hir().local_def_id(anon_const.hir_id), |v| { + v.visit_expr(&map.body(anon_const.body).value) + }), + } + } + hir::TyKind::OpaqueDef(item_id, _) => { + let item = self.tcx.hir().item(item_id); + self.nest_typeck_results(item_id.def_id, |v| v.visit_item(item)); + } + _ => intravisit::walk_ty(self, t), + } + } + + fn visit_expr(&mut self, ex: &'tcx hir::Expr<'tcx>) { + debug!("visit_expr {:?}", ex.kind); + self.process_macro_use(ex.span); + match ex.kind { + hir::ExprKind::Struct(ref path, ref fields, ref rest) => { + let hir_expr = self.save_ctxt.tcx.hir().expect_expr(ex.hir_id); + let adt = match self.save_ctxt.typeck_results().expr_ty_opt(&hir_expr) { + Some(ty) if ty.ty_adt_def().is_some() => ty.ty_adt_def().unwrap(), + _ => { + intravisit::walk_expr(self, ex); + return; + } + }; + let res = self.save_ctxt.get_path_res(hir_expr.hir_id); + self.process_struct_lit(ex, path, fields, adt.variant_of_res(res), *rest) + } + hir::ExprKind::MethodCall(ref seg, args, _) => self.process_method_call(ex, seg, args), + hir::ExprKind::Field(ref sub_ex, _) => { + self.visit_expr(&sub_ex); + + if let Some(field_data) = self.save_ctxt.get_expr_data(ex) { + down_cast_data!(field_data, RefData, ex.span); + if !generated_code(ex.span) { + self.dumper.dump_ref(field_data); + } + } + } + hir::ExprKind::Closure(&hir::Closure { ref fn_decl, body, .. }) => { + let id = format!("${}", ex.hir_id); + + // walk arg and return types + for ty in fn_decl.inputs { + self.visit_ty(ty); + } + + if let hir::FnRetTy::Return(ref ret_ty) = fn_decl.output { + self.visit_ty(ret_ty); + } + + // walk the body + let map = self.tcx.hir(); + self.nest_typeck_results(self.tcx.hir().local_def_id(ex.hir_id), |v| { + let body = map.body(body); + v.process_formals(body.params, &id); + v.visit_expr(&body.value) + }); + } + hir::ExprKind::Repeat(ref expr, ref length) => { + self.visit_expr(expr); + let map = self.tcx.hir(); + match length { + // FIXME(generic_arg_infer): We probably want to + // output the inferred type here? :shrug: + hir::ArrayLen::Infer(..) => {} + hir::ArrayLen::Body(anon_const) => self + .nest_typeck_results(self.tcx.hir().local_def_id(anon_const.hir_id), |v| { + v.visit_expr(&map.body(anon_const.body).value) + }), + } + } + // In particular, we take this branch for call and path expressions, + // where we'll index the idents involved just by continuing to walk. + _ => intravisit::walk_expr(self, ex), + } + } + + fn visit_pat(&mut self, p: &'tcx hir::Pat<'tcx>) { + self.process_macro_use(p.span); + self.process_pat(p); + } + + fn visit_arm(&mut self, arm: &'tcx hir::Arm<'tcx>) { + self.process_var_decl(&arm.pat); + if let Some(hir::Guard::If(expr)) = &arm.guard { + self.visit_expr(expr); + } + self.visit_expr(&arm.body); + } + + fn visit_qpath(&mut self, path: &'tcx hir::QPath<'tcx>, id: hir::HirId, _: Span) { + self.process_path(id, path); + } + + fn visit_stmt(&mut self, s: &'tcx hir::Stmt<'tcx>) { + self.process_macro_use(s.span); + intravisit::walk_stmt(self, s) + } + + fn visit_local(&mut self, l: &'tcx hir::Local<'tcx>) { + self.process_macro_use(l.span); + self.process_var_decl(&l.pat); + + // Just walk the initializer, the else branch and type (don't want to walk the pattern again). + walk_list!(self, visit_ty, &l.ty); + walk_list!(self, visit_expr, &l.init); + walk_list!(self, visit_block, l.els); + } + + fn visit_foreign_item(&mut self, item: &'tcx hir::ForeignItem<'tcx>) { + let access = access_from!(self.save_ctxt, item.def_id); + + match item.kind { + hir::ForeignItemKind::Fn(decl, _, ref generics) => { + if let Some(fn_data) = self.save_ctxt.get_extern_item_data(item) { + down_cast_data!(fn_data, DefData, item.span); + + self.process_generic_params(generics, &fn_data.qualname, item.hir_id()); + self.dumper.dump_def(&access, fn_data); + } + + for ty in decl.inputs { + self.visit_ty(ty); + } + + if let hir::FnRetTy::Return(ref ret_ty) = decl.output { + self.visit_ty(ret_ty); + } + } + hir::ForeignItemKind::Static(ref ty, _) => { + if let Some(var_data) = self.save_ctxt.get_extern_item_data(item) { + down_cast_data!(var_data, DefData, item.span); + self.dumper.dump_def(&access, var_data); + } + + self.visit_ty(ty); + } + hir::ForeignItemKind::Type => { + if let Some(var_data) = self.save_ctxt.get_extern_item_data(item) { + down_cast_data!(var_data, DefData, item.span); + self.dumper.dump_def(&access, var_data); + } + } + } + } +} -- cgit v1.2.3