use std::any::Any; use std::mem; use std::sync::Arc; use rustc_hir::attrs::Deprecation; use rustc_hir::def::{CtorKind, DefKind}; use rustc_hir::def_id::{CrateNum, DefId, DefIdMap, LOCAL_CRATE}; use rustc_hir::definitions::{DefKey, DefPath, DefPathHash}; use rustc_middle::arena::ArenaAllocatable; use rustc_middle::bug; use rustc_middle::metadata::ModChild; use rustc_middle::middle::exported_symbols::ExportedSymbol; use rustc_middle::middle::stability::DeprecationEntry; use rustc_middle::query::{ExternProviders, LocalCrate}; use rustc_middle::ty::fast_reject::SimplifiedType; use rustc_middle::ty::{self, TyCtxt}; use rustc_middle::util::Providers; use rustc_session::cstore::{CrateStore, ExternCrate}; use rustc_session::{Session, StableCrateId}; use rustc_span::hygiene::ExpnId; use rustc_span::{Span, Symbol, kw}; use super::{Decodable, DecodeContext, DecodeIterator}; use crate::creader::{CStore, LoadedMacro}; use crate::rmeta::AttrFlags; use crate::rmeta::table::IsDefault; use crate::{foreign_modules, native_libs}; trait ProcessQueryValue<'tcx, T> { fn process_decoded(self, _tcx: TyCtxt<'tcx>, _err: impl Fn() -> !) -> T; } impl ProcessQueryValue<'_, T> for T { #[inline(always)] fn process_decoded(self, _tcx: TyCtxt<'_>, _err: impl Fn() -> !) -> T { self } } impl<'tcx, T> ProcessQueryValue<'tcx, ty::EarlyBinder<'tcx, T>> for T { #[inline(always)] fn process_decoded(self, _tcx: TyCtxt<'_>, _err: impl Fn() -> !) -> ty::EarlyBinder<'tcx, T> { ty::EarlyBinder::bind(self) } } impl ProcessQueryValue<'_, T> for Option { #[inline(always)] fn process_decoded(self, _tcx: TyCtxt<'_>, err: impl Fn() -> !) -> T { if let Some(value) = self { value } else { err() } } } impl<'tcx, T: ArenaAllocatable<'tcx>> ProcessQueryValue<'tcx, &'tcx T> for Option { #[inline(always)] fn process_decoded(self, tcx: TyCtxt<'tcx>, err: impl Fn() -> !) -> &'tcx T { if let Some(value) = self { tcx.arena.alloc(value) } else { err() } } } impl ProcessQueryValue<'_, Result, E>> for Option { #[inline(always)] fn process_decoded(self, _tcx: TyCtxt<'_>, _err: impl Fn() -> !) -> Result, E> { Ok(self) } } impl<'a, 'tcx, T: Copy + Decodable>> ProcessQueryValue<'tcx, &'tcx [T]> for Option> { #[inline(always)] fn process_decoded(self, tcx: TyCtxt<'tcx>, err: impl Fn() -> !) -> &'tcx [T] { if let Some(iter) = self { tcx.arena.alloc_from_iter(iter) } else { err() } } } impl<'a, 'tcx, T: Copy + Decodable>> ProcessQueryValue<'tcx, Option<&'tcx [T]>> for Option> { #[inline(always)] fn process_decoded(self, tcx: TyCtxt<'tcx>, _err: impl Fn() -> !) -> Option<&'tcx [T]> { if let Some(iter) = self { Some(&*tcx.arena.alloc_from_iter(iter)) } else { None } } } impl ProcessQueryValue<'_, Option> for Option { #[inline(always)] fn process_decoded(self, _tcx: TyCtxt<'_>, _err: impl Fn() -> !) -> Option { self.map(DeprecationEntry::external) } } macro_rules! provide_one { ($tcx:ident, $def_id:ident, $other:ident, $cdata:ident, $name:ident => { table }) => { provide_one! { $tcx, $def_id, $other, $cdata, $name => { $cdata .root .tables .$name .get($cdata, $def_id.index) .map(|lazy| lazy.decode(($cdata, $tcx))) .process_decoded($tcx, || panic!("{:?} does not have a {:?}", $def_id, stringify!($name))) } } }; ($tcx:ident, $def_id:ident, $other:ident, $cdata:ident, $name:ident => { table_defaulted_array }) => { provide_one! { $tcx, $def_id, $other, $cdata, $name => { let lazy = $cdata.root.tables.$name.get($cdata, $def_id.index); let value = if lazy.is_default() { &[] as &[_] } else { $tcx.arena.alloc_from_iter(lazy.decode(($cdata, $tcx))) }; value.process_decoded($tcx, || panic!("{:?} does not have a {:?}", $def_id, stringify!($name))) } } }; ($tcx:ident, $def_id:ident, $other:ident, $cdata:ident, $name:ident => { table_direct }) => { provide_one! { $tcx, $def_id, $other, $cdata, $name => { // We don't decode `table_direct`, since it's not a Lazy, but an actual value $cdata .root .tables .$name .get($cdata, $def_id.index) .process_decoded($tcx, || panic!("{:?} does not have a {:?}", $def_id, stringify!($name))) } } }; ($tcx:ident, $def_id:ident, $other:ident, $cdata:ident, $name:ident => $compute:block) => { fn $name<'tcx>( $tcx: TyCtxt<'tcx>, def_id_arg: rustc_middle::query::queries::$name::Key<'tcx>, ) -> rustc_middle::query::queries::$name::ProvidedValue<'tcx> { let _prof_timer = $tcx.prof.generic_activity(concat!("metadata_decode_entry_", stringify!($name))); #[allow(unused_variables)] let ($def_id, $other) = def_id_arg.into_args(); assert!(!$def_id.is_local()); // External query providers call `crate_hash` in order to register a dependency // on the crate metadata. The exception is `crate_hash` itself, which obviously // doesn't need to do this (and can't, as it would cause a query cycle). use rustc_middle::dep_graph::dep_kinds; if dep_kinds::$name != dep_kinds::crate_hash && $tcx.dep_graph.is_fully_enabled() { $tcx.ensure_ok().crate_hash($def_id.krate); } let cdata = rustc_data_structures::sync::FreezeReadGuard::map(CStore::from_tcx($tcx), |c| { c.get_crate_data($def_id.krate).cdata }); let $cdata = crate::creader::CrateMetadataRef { cdata: &cdata, cstore: &CStore::from_tcx($tcx), }; $compute } }; } macro_rules! provide { ($tcx:ident, $def_id:ident, $other:ident, $cdata:ident, $($name:ident => { $($compute:tt)* })*) => { fn provide_extern(providers: &mut ExternProviders) { $(provide_one! { $tcx, $def_id, $other, $cdata, $name => { $($compute)* } })* *providers = ExternProviders { $($name,)* ..*providers }; } } } // small trait to work around different signature queries all being defined via // the macro above. trait IntoArgs { type Other; fn into_args(self) -> (DefId, Self::Other); } impl IntoArgs for DefId { type Other = (); fn into_args(self) -> (DefId, ()) { (self, ()) } } impl IntoArgs for CrateNum { type Other = (); fn into_args(self) -> (DefId, ()) { (self.as_def_id(), ()) } } impl IntoArgs for (CrateNum, DefId) { type Other = DefId; fn into_args(self) -> (DefId, DefId) { (self.0.as_def_id(), self.1) } } impl<'tcx> IntoArgs for ty::InstanceKind<'tcx> { type Other = (); fn into_args(self) -> (DefId, ()) { (self.def_id(), ()) } } impl IntoArgs for (CrateNum, SimplifiedType) { type Other = SimplifiedType; fn into_args(self) -> (DefId, SimplifiedType) { (self.0.as_def_id(), self.1) } } provide! { tcx, def_id, other, cdata, explicit_item_bounds => { table_defaulted_array } explicit_item_self_bounds => { table_defaulted_array } explicit_predicates_of => { table } generics_of => { table } inferred_outlives_of => { table_defaulted_array } explicit_super_predicates_of => { table_defaulted_array } explicit_implied_predicates_of => { table_defaulted_array } type_of => { table } type_alias_is_lazy => { table_direct } variances_of => { table } fn_sig => { table } codegen_fn_attrs => { table } impl_trait_header => { table } const_param_default => { table } object_lifetime_default => { table } thir_abstract_const => { table } optimized_mir => { table } mir_for_ctfe => { table } trivial_const => { table } closure_saved_names_of_captured_variables => { table } mir_coroutine_witnesses => { table } promoted_mir => { table } def_span => { table } def_ident_span => { table } lookup_stability => { table } lookup_const_stability => { table } lookup_default_body_stability => { table } lookup_deprecation_entry => { table } params_in_repr => { table } def_kind => { cdata.def_kind(def_id.index) } impl_parent => { table } defaultness => { table_direct } constness => { table_direct } const_conditions => { table } explicit_implied_const_bounds => { table_defaulted_array } coerce_unsized_info => { Ok(cdata .root .tables .coerce_unsized_info .get(cdata, def_id.index) .map(|lazy| lazy.decode((cdata, tcx))) .process_decoded(tcx, || panic!("{def_id:?} does not have coerce_unsized_info"))) } mir_const_qualif => { table } rendered_const => { table } rendered_precise_capturing_args => { table } asyncness => { table_direct } fn_arg_idents => { table } coroutine_kind => { table_direct } coroutine_for_closure => { table } coroutine_by_move_body_def_id => { table } eval_static_initializer => { Ok(cdata .root .tables .eval_static_initializer .get(cdata, def_id.index) .map(|lazy| lazy.decode((cdata, tcx))) .unwrap_or_else(|| panic!("{def_id:?} does not have eval_static_initializer"))) } trait_def => { table } deduced_param_attrs => { // FIXME: `deduced_param_attrs` has some sketchy encoding settings, // where we don't encode unless we're optimizing, doing codegen, // and not incremental (see `encoder.rs`). I don't think this is right! cdata .root .tables .deduced_param_attrs .get(cdata, def_id.index) .map(|lazy| { &*tcx.arena.alloc_from_iter(lazy.decode((cdata, tcx))) }) .unwrap_or_default() } opaque_ty_origin => { table } assumed_wf_types_for_rpitit => { table } collect_return_position_impl_trait_in_trait_tys => { Ok(cdata .root .tables .trait_impl_trait_tys .get(cdata, def_id.index) .map(|lazy| lazy.decode((cdata, tcx))) .process_decoded(tcx, || panic!("{def_id:?} does not have trait_impl_trait_tys"))) } associated_types_for_impl_traits_in_trait_or_impl => { table } visibility => { cdata.get_visibility(def_id.index) } adt_def => { cdata.get_adt_def(def_id.index, tcx) } adt_destructor => { table } adt_async_destructor => { table } associated_item_def_ids => { tcx.arena.alloc_from_iter(cdata.get_associated_item_or_field_def_ids(def_id.index)) } associated_item => { cdata.get_associated_item(def_id.index, tcx.sess) } inherent_impls => { cdata.get_inherent_implementations_for_type(tcx, def_id.index) } attrs_for_def => { tcx.arena.alloc_from_iter(cdata.get_item_attrs(def_id.index, tcx.sess)) } is_mir_available => { cdata.is_item_mir_available(def_id.index) } is_ctfe_mir_available => { cdata.is_ctfe_mir_available(def_id.index) } cross_crate_inlinable => { table_direct } dylib_dependency_formats => { cdata.get_dylib_dependency_formats(tcx) } is_private_dep => { cdata.private_dep } is_panic_runtime => { cdata.root.panic_runtime } is_compiler_builtins => { cdata.root.compiler_builtins } has_global_allocator => { cdata.root.has_global_allocator } has_alloc_error_handler => { cdata.root.has_alloc_error_handler } has_panic_handler => { cdata.root.has_panic_handler } is_profiler_runtime => { cdata.root.profiler_runtime } required_panic_strategy => { cdata.root.required_panic_strategy } panic_in_drop_strategy => { cdata.root.panic_in_drop_strategy } extern_crate => { cdata.extern_crate.map(|c| &*tcx.arena.alloc(c)) } is_no_builtins => { cdata.root.no_builtins } symbol_mangling_version => { cdata.root.symbol_mangling_version } specialization_enabled_in => { cdata.root.specialization_enabled_in } reachable_non_generics => { let reachable_non_generics = tcx .exported_non_generic_symbols(cdata.cnum) .iter() .filter_map(|&(exported_symbol, export_info)| { if let ExportedSymbol::NonGeneric(def_id) = exported_symbol { Some((def_id, export_info)) } else { None } }) .collect(); reachable_non_generics } native_libraries => { cdata.get_native_libraries(tcx.sess).collect() } foreign_modules => { cdata.get_foreign_modules(tcx.sess).map(|m| (m.def_id, m)).collect() } crate_hash => { cdata.root.header.hash } crate_host_hash => { cdata.host_hash } crate_name => { cdata.root.header.name } num_extern_def_ids => { cdata.num_def_ids() } extra_filename => { cdata.root.extra_filename.clone() } traits => { tcx.arena.alloc_from_iter(cdata.get_traits()) } trait_impls_in_crate => { tcx.arena.alloc_from_iter(cdata.get_trait_impls()) } implementations_of_trait => { cdata.get_implementations_of_trait(tcx, other) } crate_incoherent_impls => { cdata.get_incoherent_impls(tcx, other) } dep_kind => { cdata.dep_kind } module_children => { tcx.arena.alloc_from_iter(cdata.get_module_children(def_id.index, tcx.sess)) } lib_features => { cdata.get_lib_features() } stability_implications => { cdata.get_stability_implications(tcx).iter().copied().collect() } stripped_cfg_items => { cdata.get_stripped_cfg_items(cdata.cnum, tcx) } intrinsic_raw => { cdata.get_intrinsic(def_id.index) } defined_lang_items => { cdata.get_lang_items(tcx) } diagnostic_items => { cdata.get_diagnostic_items() } missing_lang_items => { cdata.get_missing_lang_items(tcx) } missing_extern_crate_item => { matches!(cdata.extern_crate, Some(extern_crate) if !extern_crate.is_direct()) } used_crate_source => { Arc::clone(&cdata.source) } debugger_visualizers => { cdata.get_debugger_visualizers() } exportable_items => { tcx.arena.alloc_from_iter(cdata.get_exportable_items()) } stable_order_of_exportable_impls => { tcx.arena.alloc(cdata.get_stable_order_of_exportable_impls().collect()) } exported_non_generic_symbols => { cdata.exported_non_generic_symbols(tcx) } exported_generic_symbols => { cdata.exported_generic_symbols(tcx) } crate_extern_paths => { cdata.source().paths().cloned().collect() } expn_that_defined => { cdata.get_expn_that_defined(def_id.index, tcx.sess) } default_field => { cdata.get_default_field(def_id.index) } is_doc_hidden => { cdata.get_attr_flags(def_id.index).contains(AttrFlags::IS_DOC_HIDDEN) } doc_link_resolutions => { tcx.arena.alloc(cdata.get_doc_link_resolutions(def_id.index)) } doc_link_traits_in_scope => { tcx.arena.alloc_from_iter(cdata.get_doc_link_traits_in_scope(def_id.index)) } anon_const_kind => { table } } pub(in crate::rmeta) fn provide(providers: &mut Providers) { provide_cstore_hooks(providers); providers.queries = rustc_middle::query::Providers { allocator_kind: |tcx, ()| CStore::from_tcx(tcx).allocator_kind(), alloc_error_handler_kind: |tcx, ()| CStore::from_tcx(tcx).alloc_error_handler_kind(), is_private_dep: |_tcx, LocalCrate| false, native_library: |tcx, id| { tcx.native_libraries(id.krate) .iter() .filter(|lib| native_libs::relevant_lib(tcx.sess, lib)) .find(|lib| { let Some(fm_id) = lib.foreign_module else { return false; }; let map = tcx.foreign_modules(id.krate); map.get(&fm_id) .expect("failed to find foreign module") .foreign_items .contains(&id) }) }, native_libraries: native_libs::collect, foreign_modules: foreign_modules::collect, // Returns a map from a sufficiently visible external item (i.e., an // external item that is visible from at least one local module) to a // sufficiently visible parent (considering modules that re-export the // external item to be parents). visible_parent_map: |tcx, ()| { use std::collections::hash_map::Entry; use std::collections::vec_deque::VecDeque; let mut visible_parent_map: DefIdMap = Default::default(); // This is a secondary visible_parent_map, storing the DefId of // parents that re-export the child as `_` or module parents // which are `#[doc(hidden)]`. Since we prefer paths that don't // do this, merge this map at the end, only if we're missing // keys from the former. // This is a rudimentary check that does not catch all cases, // just the easiest. let mut fallback_map: Vec<(DefId, DefId)> = Default::default(); // Issue 46112: We want the map to prefer the shortest // paths when reporting the path to an item. Therefore we // build up the map via a breadth-first search (BFS), // which naturally yields minimal-length paths. // // Note that it needs to be a BFS over the whole forest of // crates, not just each individual crate; otherwise you // only get paths that are locally minimal with respect to // whatever crate we happened to encounter first in this // traversal, but not globally minimal across all crates. let bfs_queue = &mut VecDeque::new(); for &cnum in tcx.crates(()) { // Ignore crates without a corresponding local `extern crate` item. if tcx.missing_extern_crate_item(cnum) { continue; } bfs_queue.push_back(cnum.as_def_id()); } let mut add_child = |bfs_queue: &mut VecDeque<_>, child: &ModChild, parent: DefId| { if !child.vis.is_public() { return; } if let Some(def_id) = child.res.opt_def_id() { if child.ident.name == kw::Underscore { fallback_map.push((def_id, parent)); return; } if tcx.is_doc_hidden(parent) { fallback_map.push((def_id, parent)); return; } match visible_parent_map.entry(def_id) { Entry::Occupied(mut entry) => { // If `child` is defined in crate `cnum`, ensure // that it is mapped to a parent in `cnum`. if def_id.is_local() && entry.get().is_local() { entry.insert(parent); } } Entry::Vacant(entry) => { entry.insert(parent); if child.res.module_like_def_id().is_some() { bfs_queue.push_back(def_id); } } } } }; while let Some(def) = bfs_queue.pop_front() { for child in tcx.module_children(def).iter() { add_child(bfs_queue, child, def); } } // Fill in any missing entries with the less preferable path. // If this path re-exports the child as `_`, we still use this // path in a diagnostic that suggests importing `::*`. for (child, parent) in fallback_map { visible_parent_map.entry(child).or_insert(parent); } visible_parent_map }, dependency_formats: |tcx, ()| Arc::new(crate::dependency_format::calculate(tcx)), has_global_allocator: |tcx, LocalCrate| CStore::from_tcx(tcx).has_global_allocator(), has_alloc_error_handler: |tcx, LocalCrate| CStore::from_tcx(tcx).has_alloc_error_handler(), postorder_cnums: |tcx, ()| { tcx.arena.alloc_from_iter( CStore::from_tcx(tcx).crate_dependencies_in_postorder(LOCAL_CRATE).into_iter(), ) }, crates: |tcx, ()| { // The list of loaded crates is now frozen in query cache, // so make sure cstore is not mutably accessed from here on. tcx.untracked().cstore.freeze(); tcx.arena.alloc_from_iter(CStore::from_tcx(tcx).iter_crate_data().map(|(cnum, _)| cnum)) }, used_crates: |tcx, ()| { // The list of loaded crates is now frozen in query cache, // so make sure cstore is not mutably accessed from here on. tcx.untracked().cstore.freeze(); tcx.arena.alloc_from_iter( CStore::from_tcx(tcx) .iter_crate_data() .filter_map(|(cnum, data)| data.used().then_some(cnum)), ) }, ..providers.queries }; provide_extern(&mut providers.extern_queries); } impl CStore { pub fn ctor_untracked(&self, def: DefId) -> Option<(CtorKind, DefId)> { self.get_crate_data(def.krate).get_ctor(def.index) } pub fn load_macro_untracked(&self, id: DefId, tcx: TyCtxt<'_>) -> LoadedMacro { let sess = tcx.sess; let _prof_timer = sess.prof.generic_activity("metadata_load_macro"); let data = self.get_crate_data(id.krate); if data.root.is_proc_macro_crate() { LoadedMacro::ProcMacro(data.load_proc_macro(id.index, tcx)) } else { LoadedMacro::MacroDef { def: data.get_macro(id.index, sess), ident: data.item_ident(id.index, sess), attrs: data.get_item_attrs(id.index, sess).collect(), span: data.get_span(id.index, sess), edition: data.root.edition, } } } pub fn def_span_untracked(&self, def_id: DefId, sess: &Session) -> Span { self.get_crate_data(def_id.krate).get_span(def_id.index, sess) } pub fn def_kind_untracked(&self, def: DefId) -> DefKind { self.get_crate_data(def.krate).def_kind(def.index) } pub fn expn_that_defined_untracked(&self, def_id: DefId, sess: &Session) -> ExpnId { self.get_crate_data(def_id.krate).get_expn_that_defined(def_id.index, sess) } /// Only public-facing way to traverse all the definitions in a non-local crate. /// Critically useful for this third-party project: . /// See for context. pub fn num_def_ids_untracked(&self, cnum: CrateNum) -> usize { self.get_crate_data(cnum).num_def_ids() } pub fn get_proc_macro_quoted_span_untracked( &self, cnum: CrateNum, id: usize, sess: &Session, ) -> Span { self.get_crate_data(cnum).get_proc_macro_quoted_span(id, sess) } pub fn set_used_recursively(&mut self, cnum: CrateNum) { let cmeta = self.get_crate_data_mut(cnum); if !cmeta.used { cmeta.used = true; let dependencies = mem::take(&mut cmeta.dependencies); for &dep_cnum in &dependencies { self.set_used_recursively(dep_cnum); } self.get_crate_data_mut(cnum).dependencies = dependencies; } } /// Track how an extern crate has been loaded. Called after resolving an import in the local crate. /// /// * the `name` is for [`Self::set_resolved_extern_crate_name`] saving `--extern name=` /// * `extern_crate` is for diagnostics pub(crate) fn update_extern_crate( &mut self, cnum: CrateNum, name: Symbol, extern_crate: ExternCrate, ) { debug_assert_eq!( extern_crate.dependency_of, LOCAL_CRATE, "this function should not be called on transitive dependencies" ); self.set_resolved_extern_crate_name(name, cnum); self.update_transitive_extern_crate_diagnostics(cnum, extern_crate); } /// `CrateMetadata` uses `ExternCrate` only for diagnostics fn update_transitive_extern_crate_diagnostics( &mut self, cnum: CrateNum, extern_crate: ExternCrate, ) { let cmeta = self.get_crate_data_mut(cnum); if cmeta.update_extern_crate_diagnostics(extern_crate) { // Propagate the extern crate info to dependencies if it was updated. let extern_crate = ExternCrate { dependency_of: cnum, ..extern_crate }; let dependencies = mem::take(&mut cmeta.dependencies); for &dep_cnum in &dependencies { self.update_transitive_extern_crate_diagnostics(dep_cnum, extern_crate); } self.get_crate_data_mut(cnum).dependencies = dependencies; } } } impl CrateStore for CStore { fn as_any(&self) -> &dyn Any { self } fn untracked_as_any(&mut self) -> &mut dyn Any { self } fn crate_name(&self, cnum: CrateNum) -> Symbol { self.get_crate_data(cnum).root.header.name } fn stable_crate_id(&self, cnum: CrateNum) -> StableCrateId { self.get_crate_data(cnum).root.stable_crate_id } /// Returns the `DefKey` for a given `DefId`. This indicates the /// parent `DefId` as well as some idea of what kind of data the /// `DefId` refers to. fn def_key(&self, def: DefId) -> DefKey { self.get_crate_data(def.krate).def_key(def.index) } fn def_path(&self, def: DefId) -> DefPath { self.get_crate_data(def.krate).def_path(def.index) } fn def_path_hash(&self, def: DefId) -> DefPathHash { self.get_crate_data(def.krate).def_path_hash(def.index) } } fn provide_cstore_hooks(providers: &mut Providers) { providers.hooks.def_path_hash_to_def_id_extern = |tcx, hash, stable_crate_id| { // If this is a DefPathHash from an upstream crate, let the CrateStore map // it to a DefId. let cstore = CStore::from_tcx(tcx); let cnum = *tcx .untracked() .stable_crate_ids .read() .get(&stable_crate_id) .unwrap_or_else(|| bug!("uninterned StableCrateId: {stable_crate_id:?}")); assert_ne!(cnum, LOCAL_CRATE); let def_index = cstore.get_crate_data(cnum).def_path_hash_to_def_index(hash)?; Some(DefId { krate: cnum, index: def_index }) }; providers.hooks.expn_hash_to_expn_id = |tcx, cnum, index_guess, hash| { let cstore = CStore::from_tcx(tcx); cstore.get_crate_data(cnum).expn_hash_to_expn_id(tcx.sess, index_guess, hash) }; providers.hooks.import_source_files = |tcx, cnum| { let cstore = CStore::from_tcx(tcx); let cdata = cstore.get_crate_data(cnum); for file_index in 0..cdata.root.source_map.size() { cdata.imported_source_file(file_index as u32, tcx.sess); } }; }