compiler/rustc_interface/src/queries.rs - toolchain/rustc - Git at Google

 use crate::errors::{FailedWritingFile, RustcErrorFatal, RustcErrorUnexpectedAnnotation};
 use crate::interface::{Compiler, Result};
 use crate::{passes, util};

 use rustc_ast as ast;
 use rustc_codegen_ssa::traits::CodegenBackend;
 use rustc_codegen_ssa::CodegenResults;
 use rustc_data_structures::steal::Steal;
 use rustc_data_structures::svh::Svh;
 use rustc_data_structures::sync::{AppendOnlyIndexVec, FreezeLock, Lrc, OnceLock, WorkerLocal};
 use rustc_hir::def_id::{StableCrateId, CRATE_DEF_ID, LOCAL_CRATE};
 use rustc_hir::definitions::Definitions;
 use rustc_incremental::setup_dep_graph;
 use rustc_metadata::creader::CStore;
 use rustc_middle::arena::Arena;
 use rustc_middle::dep_graph::DepGraph;
 use rustc_middle::ty::{GlobalCtxt, TyCtxt};
 use rustc_session::config::{self, CrateType, OutputFilenames, OutputType};
 use rustc_session::cstore::Untracked;
 use rustc_session::{output::find_crate_name, Session};
 use rustc_span::symbol::sym;
 use std::any::Any;
 use std::cell::{RefCell, RefMut};
 use std::sync::Arc;

 /// Represent the result of a query.
 ///
 /// This result can be stolen once with the [`steal`] method and generated with the [`compute`] method.
 ///
 /// [`steal`]: Steal::steal
 /// [`compute`]: Self::compute
 pub struct Query<T> {
     /// `None` means no value has been computed yet.
     result: RefCell<Option<Result<Steal<T>>>>,
 }

 impl<T> Query<T> {
     fn compute<F: FnOnce() -> Result<T>>(&self, f: F) -> Result<QueryResult<'_, T>> {
         RefMut::filter_map(
             self.result.borrow_mut(),
             |r: &mut Option<Result<Steal<T>>>| -> Option<&mut Steal<T>> {
                 r.get_or_insert_with(|| f().map(Steal::new)).as_mut().ok()
             },
         )
         .map_err(|r| *r.as_ref().unwrap().as_ref().map(|_| ()).unwrap_err())
         .map(QueryResult)
     }
 }

 pub struct QueryResult<'a, T>(RefMut<'a, Steal<T>>);

 impl<'a, T> std::ops::Deref for QueryResult<'a, T> {
     type Target = RefMut<'a, Steal<T>>;

     fn deref(&self) -> &Self::Target {
         &self.0
     }
 }

 impl<'a, T> std::ops::DerefMut for QueryResult<'a, T> {
     fn deref_mut(&mut self) -> &mut Self::Target {
         &mut self.0
     }
 }

 impl<'a, 'tcx> QueryResult<'a, &'tcx GlobalCtxt<'tcx>> {
     pub fn enter<T>(&mut self, f: impl FnOnce(TyCtxt<'tcx>) -> T) -> T {
         (*self.0).get_mut().enter(f)
     }
 }

 impl<T> Default for Query<T> {
     fn default() -> Self {
         Query { result: RefCell::new(None) }
     }
 }

 pub struct Queries<'tcx> {
     compiler: &'tcx Compiler,
     gcx_cell: OnceLock<GlobalCtxt<'tcx>>,

     arena: WorkerLocal<Arena<'tcx>>,
     hir_arena: WorkerLocal<rustc_hir::Arena<'tcx>>,

     parse: Query<ast::Crate>,
     pre_configure: Query<(ast::Crate, ast::AttrVec)>,
     // This just points to what's in `gcx_cell`.
     gcx: Query<&'tcx GlobalCtxt<'tcx>>,
 }

 impl<'tcx> Queries<'tcx> {
     pub fn new(compiler: &'tcx Compiler) -> Queries<'tcx> {
         Queries {
             compiler,
             gcx_cell: OnceLock::new(),
             arena: WorkerLocal::new(|_| Arena::default()),
             hir_arena: WorkerLocal::new(|_| rustc_hir::Arena::default()),
             parse: Default::default(),
             pre_configure: Default::default(),
             gcx: Default::default(),
         }
     }

     fn session(&self) -> &Lrc<Session> {
         &self.compiler.sess
     }
     fn codegen_backend(&self) -> &Lrc<dyn CodegenBackend> {
         self.compiler.codegen_backend()
     }

     pub fn parse(&self) -> Result<QueryResult<'_, ast::Crate>> {
         self.parse
             .compute(|| passes::parse(self.session()).map_err(|mut parse_error| parse_error.emit()))
     }

     #[deprecated = "pre_configure may be made private in the future. If you need it please open an issue with your use case."]
     pub fn pre_configure(&self) -> Result<QueryResult<'_, (ast::Crate, ast::AttrVec)>> {
         self.pre_configure.compute(|| {
             let mut krate = self.parse()?.steal();

             let sess = self.session();
             rustc_builtin_macros::cmdline_attrs::inject(
                 &mut krate,
                 &sess.parse_sess,
                 &sess.opts.unstable_opts.crate_attr,
             );

             let pre_configured_attrs =
                 rustc_expand::config::pre_configure_attrs(sess, &krate.attrs);
             Ok((krate, pre_configured_attrs))
         })
     }

     pub fn global_ctxt(&'tcx self) -> Result<QueryResult<'_, &'tcx GlobalCtxt<'tcx>>> {
         self.gcx.compute(|| {
             let sess = self.session();
             #[allow(deprecated)]
             let (krate, pre_configured_attrs) = self.pre_configure()?.steal();

             // parse `#[crate_name]` even if `--crate-name` was passed, to make sure it matches.
             let crate_name = find_crate_name(sess, &pre_configured_attrs);
             let crate_types = util::collect_crate_types(sess, &pre_configured_attrs);
             let stable_crate_id = StableCrateId::new(
                 crate_name,
                 crate_types.contains(&CrateType::Executable),
                 sess.opts.cg.metadata.clone(),
                 sess.cfg_version,
             );
             let dep_graph = setup_dep_graph(sess, crate_name, stable_crate_id)?;

             let lint_store =
                 Lrc::new(passes::create_lint_store(sess, self.compiler.register_lints.as_deref()));
             let cstore = FreezeLock::new(Box::new(CStore::new(
                 self.codegen_backend().metadata_loader(),
                 stable_crate_id,
             )) as _);
             let definitions = FreezeLock::new(Definitions::new(stable_crate_id));
             let source_span = AppendOnlyIndexVec::new();
             let _id = source_span.push(krate.spans.inner_span);
             debug_assert_eq!(_id, CRATE_DEF_ID);
             let untracked = Untracked { cstore, source_span, definitions };

             let qcx = passes::create_global_ctxt(
                 self.compiler,
                 crate_types,
                 stable_crate_id,
                 lint_store,
                 dep_graph,
                 untracked,
                 &self.gcx_cell,
                 &self.arena,
                 &self.hir_arena,
             );

             qcx.enter(|tcx| {
                 let feed = tcx.feed_local_crate();
                 feed.crate_name(crate_name);

                 let feed = tcx.feed_unit_query();
                 feed.features_query(tcx.arena.alloc(rustc_expand::config::features(
                     sess,
                     &pre_configured_attrs,
                     crate_name,
                 )));
                 feed.crate_for_resolver(tcx.arena.alloc(Steal::new((krate, pre_configured_attrs))));
             });
             Ok(qcx)
         })
     }

     pub fn ongoing_codegen(&'tcx self) -> Result<Box<dyn Any>> {
         self.global_ctxt()?.enter(|tcx| {
             // Don't do code generation if there were any errors
             self.session().compile_status()?;

             // If we have any delayed bugs, for example because we created TyKind::Error earlier,
             // it's likely that codegen will only cause more ICEs, obscuring the original problem
             self.session().diagnostic().flush_delayed();

             // Hook for UI tests.
             Self::check_for_rustc_errors_attr(tcx);

             Ok(passes::start_codegen(&**self.codegen_backend(), tcx))
         })
     }

     /// Check for the `#[rustc_error]` annotation, which forces an error in codegen. This is used
     /// to write UI tests that actually test that compilation succeeds without reporting
     /// an error.
     fn check_for_rustc_errors_attr(tcx: TyCtxt<'_>) {
         let Some((def_id, _)) = tcx.entry_fn(()) else { return };
         for attr in tcx.get_attrs(def_id, sym::rustc_error) {
             match attr.meta_item_list() {
                 // Check if there is a `#[rustc_error(delay_span_bug_from_inside_query)]`.
                 Some(list)
                     if list.iter().any(|list_item| {
                         matches!(
                             list_item.ident().map(|i| i.name),
                             Some(sym::delay_span_bug_from_inside_query)
                         )
                     }) =>
                 {
                     tcx.ensure().trigger_delay_span_bug(def_id);
                 }

                 // Bare `#[rustc_error]`.
                 None => {
                     tcx.sess.emit_fatal(RustcErrorFatal { span: tcx.def_span(def_id) });
                 }

                 // Some other attribute.
                 Some(_) => {
                     tcx.sess.emit_warning(RustcErrorUnexpectedAnnotation {
                         span: tcx.def_span(def_id),
                     });
                 }
             }
         }
     }

     pub fn linker(&'tcx self, ongoing_codegen: Box<dyn Any>) -> Result<Linker> {
         let sess = self.session().clone();
         let codegen_backend = self.codegen_backend().clone();

         let (crate_hash, prepare_outputs, dep_graph) = self.global_ctxt()?.enter(|tcx| {
             (
                 if tcx.needs_crate_hash() { Some(tcx.crate_hash(LOCAL_CRATE)) } else { None },
                 tcx.output_filenames(()).clone(),
                 tcx.dep_graph.clone(),
             )
         });

         Ok(Linker {
             sess,
             codegen_backend,

             dep_graph,
             prepare_outputs,
             crate_hash,
             ongoing_codegen,
         })
     }
 }

 pub struct Linker {
     // compilation inputs
     sess: Lrc<Session>,
     codegen_backend: Lrc<dyn CodegenBackend>,

     // compilation outputs
     dep_graph: DepGraph,
     prepare_outputs: Arc<OutputFilenames>,
     // Only present when incr. comp. is enabled.
     crate_hash: Option<Svh>,
     ongoing_codegen: Box<dyn Any>,
 }

 impl Linker {
     pub fn link(self) -> Result<()> {
         let (codegen_results, work_products) = self.codegen_backend.join_codegen(
             self.ongoing_codegen,
             &self.sess,
             &self.prepare_outputs,
         )?;

         self.sess.compile_status()?;

         let sess = &self.sess;
         let dep_graph = self.dep_graph;
         sess.time("serialize_work_products", || {
             rustc_incremental::save_work_product_index(sess, &dep_graph, work_products)
         });

         let prof = self.sess.prof.clone();
         prof.generic_activity("drop_dep_graph").run(move || drop(dep_graph));

         // Now that we won't touch anything in the incremental compilation directory
         // any more, we can finalize it (which involves renaming it)
         rustc_incremental::finalize_session_directory(&self.sess, self.crate_hash);

         if !self
             .sess
             .opts
             .output_types
             .keys()
             .any(|&i| i == OutputType::Exe || i == OutputType::Metadata)
         {
             return Ok(());
         }

         if sess.opts.unstable_opts.no_link {
             let rlink_file = self.prepare_outputs.with_extension(config::RLINK_EXT);
             CodegenResults::serialize_rlink(sess, &rlink_file, &codegen_results)
                 .map_err(|error| sess.emit_fatal(FailedWritingFile { path: &rlink_file, error }))?;
             return Ok(());
         }

         let _timer = sess.prof.verbose_generic_activity("link_crate");
         self.codegen_backend.link(&self.sess, codegen_results, &self.prepare_outputs)
     }
 }

 impl Compiler {
     pub fn enter<F, T>(&self, f: F) -> T
     where
         F: for<'tcx> FnOnce(&'tcx Queries<'tcx>) -> T,
     {
         let mut _timer = None;
         let queries = Queries::new(self);
         let ret = f(&queries);

         // NOTE: intentionally does not compute the global context if it hasn't been built yet,
         // since that likely means there was a parse error.
         if let Some(Ok(gcx)) = &mut *queries.gcx.result.borrow_mut() {
             let gcx = gcx.get_mut();
             // We assume that no queries are run past here. If there are new queries
             // after this point, they'll show up as "<unknown>" in self-profiling data.
             {
                 let _prof_timer =
                     queries.session().prof.generic_activity("self_profile_alloc_query_strings");
                 gcx.enter(rustc_query_impl::alloc_self_profile_query_strings);
             }

             self.session()
                 .time("serialize_dep_graph", || gcx.enter(rustc_incremental::save_dep_graph));
         }

         _timer = Some(self.session().timer("free_global_ctxt"));

         ret
     }
 }
	use crate::errors::{FailedWritingFile, RustcErrorFatal, RustcErrorUnexpectedAnnotation};
	use crate::interface::{Compiler, Result};
	use crate::{passes, util};

	use rustc_ast as ast;
	use rustc_codegen_ssa::traits::CodegenBackend;
	use rustc_codegen_ssa::CodegenResults;
	use rustc_data_structures::steal::Steal;
	use rustc_data_structures::svh::Svh;
	use rustc_data_structures::sync::{AppendOnlyIndexVec, FreezeLock, Lrc, OnceLock, WorkerLocal};
	use rustc_hir::def_id::{StableCrateId, CRATE_DEF_ID, LOCAL_CRATE};
	use rustc_hir::definitions::Definitions;
	use rustc_incremental::setup_dep_graph;
	use rustc_metadata::creader::CStore;
	use rustc_middle::arena::Arena;
	use rustc_middle::dep_graph::DepGraph;
	use rustc_middle::ty::{GlobalCtxt, TyCtxt};
	use rustc_session::config::{self, CrateType, OutputFilenames, OutputType};
	use rustc_session::cstore::Untracked;
	use rustc_session::{output::find_crate_name, Session};
	use rustc_span::symbol::sym;
	use std::any::Any;
	use std::cell::{RefCell, RefMut};
	use std::sync::Arc;

	/// Represent the result of a query.
	///
	/// This result can be stolen once with the [`steal`] method and generated with the [`compute`] method.
	///
	/// [`steal`]: Steal::steal
	/// [`compute`]: Self::compute
	pub struct Query<T> {
	/// `None` means no value has been computed yet.
	result: RefCell<Option<Result<Steal<T>>>>,
	}

	impl<T> Query<T> {
	fn compute<F: FnOnce() -> Result<T>>(&self, f: F) -> Result<QueryResult<'_, T>> {
	RefMut::filter_map(
	self.result.borrow_mut(),
	\|r: &mut Option<Result<Steal<T>>>\| -> Option<&mut Steal<T>> {
	r.get_or_insert_with(\|\| f().map(Steal::new)).as_mut().ok()
	},
	)
	.map_err(\|r\| *r.as_ref().unwrap().as_ref().map(\|_\| ()).unwrap_err())
	.map(QueryResult)
	}
	}

	pub struct QueryResult<'a, T>(RefMut<'a, Steal<T>>);

	impl<'a, T> std::ops::Deref for QueryResult<'a, T> {
	type Target = RefMut<'a, Steal<T>>;

	fn deref(&self) -> &Self::Target {
	&self.0
	}
	}

	impl<'a, T> std::ops::DerefMut for QueryResult<'a, T> {
	fn deref_mut(&mut self) -> &mut Self::Target {
	&mut self.0
	}
	}

	impl<'a, 'tcx> QueryResult<'a, &'tcx GlobalCtxt<'tcx>> {
	pub fn enter<T>(&mut self, f: impl FnOnce(TyCtxt<'tcx>) -> T) -> T {
	(*self.0).get_mut().enter(f)
	}
	}

	impl<T> Default for Query<T> {
	fn default() -> Self {
	Query { result: RefCell::new(None) }
	}
	}

	pub struct Queries<'tcx> {
	compiler: &'tcx Compiler,
	gcx_cell: OnceLock<GlobalCtxt<'tcx>>,

	arena: WorkerLocal<Arena<'tcx>>,
	hir_arena: WorkerLocal<rustc_hir::Arena<'tcx>>,

	parse: Query<ast::Crate>,
	pre_configure: Query<(ast::Crate, ast::AttrVec)>,
	// This just points to what's in `gcx_cell`.
	gcx: Query<&'tcx GlobalCtxt<'tcx>>,
	}

	impl<'tcx> Queries<'tcx> {
	pub fn new(compiler: &'tcx Compiler) -> Queries<'tcx> {
	Queries {
	compiler,
	gcx_cell: OnceLock::new(),
	arena: WorkerLocal::new(\|_\| Arena::default()),
	hir_arena: WorkerLocal::new(\|_\| rustc_hir::Arena::default()),
	parse: Default::default(),
	pre_configure: Default::default(),
	gcx: Default::default(),
	}
	}

	fn session(&self) -> &Lrc<Session> {
	&self.compiler.sess
	}
	fn codegen_backend(&self) -> &Lrc<dyn CodegenBackend> {
	self.compiler.codegen_backend()
	}

	pub fn parse(&self) -> Result<QueryResult<'_, ast::Crate>> {
	self.parse
	.compute(\|\| passes::parse(self.session()).map_err(\|mut parse_error\| parse_error.emit()))
	}

	#[deprecated = "pre_configure may be made private in the future. If you need it please open an issue with your use case."]
	pub fn pre_configure(&self) -> Result<QueryResult<'_, (ast::Crate, ast::AttrVec)>> {
	self.pre_configure.compute(\|\| {
	let mut krate = self.parse()?.steal();

	let sess = self.session();
	rustc_builtin_macros::cmdline_attrs::inject(
	&mut krate,
	&sess.parse_sess,
	&sess.opts.unstable_opts.crate_attr,
	);

	let pre_configured_attrs =
	rustc_expand::config::pre_configure_attrs(sess, &krate.attrs);
	Ok((krate, pre_configured_attrs))
	})
	}

	pub fn global_ctxt(&'tcx self) -> Result<QueryResult<'_, &'tcx GlobalCtxt<'tcx>>> {
	self.gcx.compute(\|\| {
	let sess = self.session();
	#[allow(deprecated)]
	let (krate, pre_configured_attrs) = self.pre_configure()?.steal();

	// parse `#[crate_name]` even if `--crate-name` was passed, to make sure it matches.
	let crate_name = find_crate_name(sess, &pre_configured_attrs);
	let crate_types = util::collect_crate_types(sess, &pre_configured_attrs);
	let stable_crate_id = StableCrateId::new(
	crate_name,
	crate_types.contains(&CrateType::Executable),
	sess.opts.cg.metadata.clone(),
	sess.cfg_version,
	);
	let dep_graph = setup_dep_graph(sess, crate_name, stable_crate_id)?;

	let lint_store =
	Lrc::new(passes::create_lint_store(sess, self.compiler.register_lints.as_deref()));
	let cstore = FreezeLock::new(Box::new(CStore::new(
	self.codegen_backend().metadata_loader(),
	stable_crate_id,
	)) as _);
	let definitions = FreezeLock::new(Definitions::new(stable_crate_id));
	let source_span = AppendOnlyIndexVec::new();
	let _id = source_span.push(krate.spans.inner_span);
	debug_assert_eq!(_id, CRATE_DEF_ID);
	let untracked = Untracked { cstore, source_span, definitions };

	let qcx = passes::create_global_ctxt(
	self.compiler,
	crate_types,
	stable_crate_id,
	lint_store,
	dep_graph,
	untracked,
	&self.gcx_cell,
	&self.arena,
	&self.hir_arena,
	);

	qcx.enter(\|tcx\| {
	let feed = tcx.feed_local_crate();
	feed.crate_name(crate_name);

	let feed = tcx.feed_unit_query();
	feed.features_query(tcx.arena.alloc(rustc_expand::config::features(
	sess,
	&pre_configured_attrs,
	crate_name,
	)));
	feed.crate_for_resolver(tcx.arena.alloc(Steal::new((krate, pre_configured_attrs))));
	});
	Ok(qcx)
	})
	}

	pub fn ongoing_codegen(&'tcx self) -> Result<Box<dyn Any>> {
	self.global_ctxt()?.enter(\|tcx\| {
	// Don't do code generation if there were any errors
	self.session().compile_status()?;

	// If we have any delayed bugs, for example because we created TyKind::Error earlier,
	// it's likely that codegen will only cause more ICEs, obscuring the original problem
	self.session().diagnostic().flush_delayed();

	// Hook for UI tests.
	Self::check_for_rustc_errors_attr(tcx);

	Ok(passes::start_codegen(&**self.codegen_backend(), tcx))
	})
	}

	/// Check for the `#[rustc_error]` annotation, which forces an error in codegen. This is used
	/// to write UI tests that actually test that compilation succeeds without reporting
	/// an error.
	fn check_for_rustc_errors_attr(tcx: TyCtxt<'_>) {
	let Some((def_id, _)) = tcx.entry_fn(()) else { return };
	for attr in tcx.get_attrs(def_id, sym::rustc_error) {
	match attr.meta_item_list() {
	// Check if there is a `#[rustc_error(delay_span_bug_from_inside_query)]`.
	Some(list)
	if list.iter().any(\|list_item\| {
	matches!(
	list_item.ident().map(\|i\| i.name),
	Some(sym::delay_span_bug_from_inside_query)
	)
	}) =>
	{
	tcx.ensure().trigger_delay_span_bug(def_id);
	}

	// Bare `#[rustc_error]`.
	None => {
	tcx.sess.emit_fatal(RustcErrorFatal { span: tcx.def_span(def_id) });
	}

	// Some other attribute.
	Some(_) => {
	tcx.sess.emit_warning(RustcErrorUnexpectedAnnotation {
	span: tcx.def_span(def_id),
	});
	}
	}
	}
	}

	pub fn linker(&'tcx self, ongoing_codegen: Box<dyn Any>) -> Result<Linker> {
	let sess = self.session().clone();
	let codegen_backend = self.codegen_backend().clone();

	let (crate_hash, prepare_outputs, dep_graph) = self.global_ctxt()?.enter(\|tcx\| {
	(
	if tcx.needs_crate_hash() { Some(tcx.crate_hash(LOCAL_CRATE)) } else { None },
	tcx.output_filenames(()).clone(),
	tcx.dep_graph.clone(),
	)
	});

	Ok(Linker {
	sess,
	codegen_backend,

	dep_graph,
	prepare_outputs,
	crate_hash,
	ongoing_codegen,
	})
	}
	}

	pub struct Linker {
	// compilation inputs
	sess: Lrc<Session>,
	codegen_backend: Lrc<dyn CodegenBackend>,

	// compilation outputs
	dep_graph: DepGraph,
	prepare_outputs: Arc<OutputFilenames>,
	// Only present when incr. comp. is enabled.
	crate_hash: Option<Svh>,
	ongoing_codegen: Box<dyn Any>,
	}

	impl Linker {
	pub fn link(self) -> Result<()> {
	let (codegen_results, work_products) = self.codegen_backend.join_codegen(
	self.ongoing_codegen,
	&self.sess,
	&self.prepare_outputs,
	)?;

	self.sess.compile_status()?;

	let sess = &self.sess;
	let dep_graph = self.dep_graph;
	sess.time("serialize_work_products", \|\| {
	rustc_incremental::save_work_product_index(sess, &dep_graph, work_products)
	});

	let prof = self.sess.prof.clone();
	prof.generic_activity("drop_dep_graph").run(move \|\| drop(dep_graph));

	// Now that we won't touch anything in the incremental compilation directory
	// any more, we can finalize it (which involves renaming it)
	rustc_incremental::finalize_session_directory(&self.sess, self.crate_hash);

	if !self
	.sess
	.opts
	.output_types
	.keys()
	.any(\|&i\| i == OutputType::Exe \|\| i == OutputType::Metadata)
	{
	return Ok(());
	}

	if sess.opts.unstable_opts.no_link {
	let rlink_file = self.prepare_outputs.with_extension(config::RLINK_EXT);
	CodegenResults::serialize_rlink(sess, &rlink_file, &codegen_results)
	.map_err(\|error\| sess.emit_fatal(FailedWritingFile { path: &rlink_file, error }))?;
	return Ok(());
	}

	let _timer = sess.prof.verbose_generic_activity("link_crate");
	self.codegen_backend.link(&self.sess, codegen_results, &self.prepare_outputs)
	}
	}

	impl Compiler {
	pub fn enter<F, T>(&self, f: F) -> T
	where
	F: for<'tcx> FnOnce(&'tcx Queries<'tcx>) -> T,
	{
	let mut _timer = None;
	let queries = Queries::new(self);
	let ret = f(&queries);

	// NOTE: intentionally does not compute the global context if it hasn't been built yet,
	// since that likely means there was a parse error.
	if let Some(Ok(gcx)) = &mut *queries.gcx.result.borrow_mut() {
	let gcx = gcx.get_mut();
	// We assume that no queries are run past here. If there are new queries
	// after this point, they'll show up as "<unknown>" in self-profiling data.
	{
	let _prof_timer =
	queries.session().prof.generic_activity("self_profile_alloc_query_strings");
	gcx.enter(rustc_query_impl::alloc_self_profile_query_strings);
	}

	self.session()
	.time("serialize_dep_graph", \|\| gcx.enter(rustc_incremental::save_dep_graph));
	}

	_timer = Some(self.session().timer("free_global_ctxt"));

	ret
	}
	}