compiler/rustc_borrowck/src/nll.rs - toolchain/rustc - Git at Google

 //! The entry point of the NLL borrow checker.

 use polonius_engine::{Algorithm, Output};
 use rustc_data_structures::fx::FxIndexMap;
 use rustc_hir::def_id::LocalDefId;
 use rustc_index::IndexSlice;
 use rustc_middle::mir::{create_dump_file, dump_enabled, dump_mir, PassWhere};
 use rustc_middle::mir::{Body, ClosureOutlivesSubject, ClosureRegionRequirements, Promoted};
 use rustc_middle::ty::print::with_no_trimmed_paths;
 use rustc_middle::ty::{self, OpaqueHiddenType, TyCtxt};
 use rustc_mir_dataflow::impls::MaybeInitializedPlaces;
 use rustc_mir_dataflow::move_paths::MoveData;
 use rustc_mir_dataflow::points::DenseLocationMap;
 use rustc_mir_dataflow::ResultsCursor;
 use rustc_span::symbol::sym;
 use std::env;
 use std::io;
 use std::path::PathBuf;
 use std::rc::Rc;
 use std::str::FromStr;

 use crate::{
     borrow_set::BorrowSet,
     consumers::ConsumerOptions,
     diagnostics::RegionErrors,
     facts::{AllFacts, AllFactsExt, RustcFacts},
     location::LocationTable,
     polonius,
     region_infer::RegionInferenceContext,
     renumber,
     type_check::{self, MirTypeckRegionConstraints, MirTypeckResults},
     universal_regions::UniversalRegions,
     BorrowckInferCtxt,
 };

 pub type PoloniusOutput = Output<RustcFacts>;

 /// The output of `nll::compute_regions`. This includes the computed `RegionInferenceContext`, any
 /// closure requirements to propagate, and any generated errors.
 pub(crate) struct NllOutput<'tcx> {
     pub regioncx: RegionInferenceContext<'tcx>,
     pub opaque_type_values: FxIndexMap<LocalDefId, OpaqueHiddenType<'tcx>>,
     pub polonius_input: Option<Box<AllFacts>>,
     pub polonius_output: Option<Rc<PoloniusOutput>>,
     pub opt_closure_req: Option<ClosureRegionRequirements<'tcx>>,
     pub nll_errors: RegionErrors<'tcx>,
 }

 /// Rewrites the regions in the MIR to use NLL variables, also scraping out the set of universal
 /// regions (e.g., region parameters) declared on the function. That set will need to be given to
 /// `compute_regions`.
 #[instrument(skip(infcx, param_env, body, promoted), level = "debug")]
 pub(crate) fn replace_regions_in_mir<'tcx>(
     infcx: &BorrowckInferCtxt<'_, 'tcx>,
     param_env: ty::ParamEnv<'tcx>,
     body: &mut Body<'tcx>,
     promoted: &mut IndexSlice<Promoted, Body<'tcx>>,
 ) -> UniversalRegions<'tcx> {
     let def = body.source.def_id().expect_local();

     debug!(?def);

     // Compute named region information. This also renumbers the inputs/outputs.
     let universal_regions = UniversalRegions::new(infcx, def, param_env);

     // Replace all remaining regions with fresh inference variables.
     renumber::renumber_mir(infcx, body, promoted);

     dump_mir(infcx.tcx, false, "renumber", &0, body, |_, _| Ok(()));

     universal_regions
 }

 /// Computes the (non-lexical) regions from the input MIR.
 ///
 /// This may result in errors being reported.
 pub(crate) fn compute_regions<'cx, 'tcx>(
     infcx: &BorrowckInferCtxt<'_, 'tcx>,
     universal_regions: UniversalRegions<'tcx>,
     body: &Body<'tcx>,
     promoted: &IndexSlice<Promoted, Body<'tcx>>,
     location_table: &LocationTable,
     param_env: ty::ParamEnv<'tcx>,
     flow_inits: &mut ResultsCursor<'cx, 'tcx, MaybeInitializedPlaces<'cx, 'tcx>>,
     move_data: &MoveData<'tcx>,
     borrow_set: &BorrowSet<'tcx>,
     upvars: &[&ty::CapturedPlace<'tcx>],
     consumer_options: Option<ConsumerOptions>,
 ) -> NllOutput<'tcx> {
     let is_polonius_legacy_enabled = infcx.tcx.sess.opts.unstable_opts.polonius.is_legacy_enabled();
     let polonius_input = consumer_options.map(|c| c.polonius_input()).unwrap_or_default()
         || is_polonius_legacy_enabled;
     let polonius_output = consumer_options.map(|c| c.polonius_output()).unwrap_or_default()
         || is_polonius_legacy_enabled;
     let mut all_facts =
         (polonius_input || AllFacts::enabled(infcx.tcx)).then_some(AllFacts::default());

     let universal_regions = Rc::new(universal_regions);

     let elements = &Rc::new(DenseLocationMap::new(body));

     // Run the MIR type-checker.
     let MirTypeckResults { constraints, universal_region_relations, opaque_type_values } =
         type_check::type_check(
             infcx,
             param_env,
             body,
             promoted,
             &universal_regions,
             location_table,
             borrow_set,
             &mut all_facts,
             flow_inits,
             move_data,
             elements,
             upvars,
             polonius_input,
         );

     // Create the region inference context, taking ownership of the
     // region inference data that was contained in `infcx`, and the
     // base constraints generated by the type-check.
     let var_origins = infcx.get_region_var_origins();
     let MirTypeckRegionConstraints {
         placeholder_indices,
         placeholder_index_to_region: _,
         liveness_constraints,
         outlives_constraints,
         member_constraints,
         universe_causes,
         type_tests,
     } = constraints;
     let placeholder_indices = Rc::new(placeholder_indices);

     // If requested, emit legacy polonius facts.
     polonius::emit_facts(
         &mut all_facts,
         infcx.tcx,
         location_table,
         body,
         borrow_set,
         move_data,
         &universal_regions,
         &universal_region_relations,
     );

     let mut regioncx = RegionInferenceContext::new(
         infcx,
         var_origins,
         universal_regions,
         placeholder_indices,
         universal_region_relations,
         outlives_constraints,
         member_constraints,
         universe_causes,
         type_tests,
         liveness_constraints,
         elements,
     );

     // If requested: dump NLL facts, and run legacy polonius analysis.
     let polonius_output = all_facts.as_ref().and_then(|all_facts| {
         if infcx.tcx.sess.opts.unstable_opts.nll_facts {
             let def_id = body.source.def_id();
             let def_path = infcx.tcx.def_path(def_id);
             let dir_path = PathBuf::from(&infcx.tcx.sess.opts.unstable_opts.nll_facts_dir)
                 .join(def_path.to_filename_friendly_no_crate());
             all_facts.write_to_dir(dir_path, location_table).unwrap();
         }

         if polonius_output {
             let algorithm =
                 env::var("POLONIUS_ALGORITHM").unwrap_or_else(|_| String::from("Hybrid"));
             let algorithm = Algorithm::from_str(&algorithm).unwrap();
             debug!("compute_regions: using polonius algorithm {:?}", algorithm);
             let _prof_timer = infcx.tcx.prof.generic_activity("polonius_analysis");
             Some(Rc::new(Output::compute(all_facts, algorithm, false)))
         } else {
             None
         }
     });

     // Solve the region constraints.
     let (closure_region_requirements, nll_errors) =
         regioncx.solve(infcx, body, polonius_output.clone());

     if let Some(guar) = nll_errors.has_errors() {
         // Suppress unhelpful extra errors in `infer_opaque_types`.
         infcx.set_tainted_by_errors(guar);
     }

     let remapped_opaque_tys = regioncx.infer_opaque_types(infcx, opaque_type_values);

     NllOutput {
         regioncx,
         opaque_type_values: remapped_opaque_tys,
         polonius_input: all_facts.map(Box::new),
         polonius_output,
         opt_closure_req: closure_region_requirements,
         nll_errors,
     }
 }

 pub(super) fn dump_mir_results<'tcx>(
     infcx: &BorrowckInferCtxt<'_, 'tcx>,
     body: &Body<'tcx>,
     regioncx: &RegionInferenceContext<'tcx>,
     closure_region_requirements: &Option<ClosureRegionRequirements<'tcx>>,
 ) {
     if !dump_enabled(infcx.tcx, "nll", body.source.def_id()) {
         return;
     }

     dump_mir(infcx.tcx, false, "nll", &0, body, |pass_where, out| {
         match pass_where {
             // Before the CFG, dump out the values for each region variable.
             PassWhere::BeforeCFG => {
                 regioncx.dump_mir(infcx.tcx, out)?;
                 writeln!(out, "|")?;

                 if let Some(closure_region_requirements) = closure_region_requirements {
                     writeln!(out, "| Free Region Constraints")?;
                     for_each_region_constraint(
                         infcx.tcx,
                         closure_region_requirements,
                         &mut |msg| writeln!(out, "| {msg}"),
                     )?;
                     writeln!(out, "|")?;
                 }
             }

             PassWhere::BeforeLocation(_) => {}

             PassWhere::AfterTerminator(_) => {}

             PassWhere::BeforeBlock(_) | PassWhere::AfterLocation(_) | PassWhere::AfterCFG => {}
         }
         Ok(())
     });

     // Also dump the inference graph constraints as a graphviz file.
     let _: io::Result<()> = try {
         let mut file = create_dump_file(infcx.tcx, "regioncx.all.dot", false, "nll", &0, body)?;
         regioncx.dump_graphviz_raw_constraints(&mut file)?;
     };

     // Also dump the inference graph constraints as a graphviz file.
     let _: io::Result<()> = try {
         let mut file = create_dump_file(infcx.tcx, "regioncx.scc.dot", false, "nll", &0, body)?;
         regioncx.dump_graphviz_scc_constraints(&mut file)?;
     };
 }

 #[allow(rustc::diagnostic_outside_of_impl)]
 #[allow(rustc::untranslatable_diagnostic)]
 pub(super) fn dump_annotation<'tcx>(
     infcx: &BorrowckInferCtxt<'_, 'tcx>,
     body: &Body<'tcx>,
     regioncx: &RegionInferenceContext<'tcx>,
     closure_region_requirements: &Option<ClosureRegionRequirements<'tcx>>,
     opaque_type_values: &FxIndexMap<LocalDefId, OpaqueHiddenType<'tcx>>,
     diags: &mut crate::diags::BorrowckDiags<'tcx>,
 ) {
     let tcx = infcx.tcx;
     let base_def_id = tcx.typeck_root_def_id(body.source.def_id());
     if !tcx.has_attr(base_def_id, sym::rustc_regions) {
         return;
     }

     // When the enclosing function is tagged with `#[rustc_regions]`,
     // we dump out various bits of state as warnings. This is useful
     // for verifying that the compiler is behaving as expected. These
     // warnings focus on the closure region requirements -- for
     // viewing the intraprocedural state, the -Zdump-mir output is
     // better.

     let def_span = tcx.def_span(body.source.def_id());
     let mut err = if let Some(closure_region_requirements) = closure_region_requirements {
         let mut err = tcx.dcx().struct_span_note(def_span, "external requirements");

         regioncx.annotate(tcx, &mut err);

         err.note(format!(
             "number of external vids: {}",
             closure_region_requirements.num_external_vids
         ));

         // Dump the region constraints we are imposing *between* those
         // newly created variables.
         for_each_region_constraint(tcx, closure_region_requirements, &mut |msg| {
             err.note(msg);
             Ok(())
         })
         .unwrap();

         err
     } else {
         let mut err = tcx.dcx().struct_span_note(def_span, "no external requirements");
         regioncx.annotate(tcx, &mut err);

         err
     };

     if !opaque_type_values.is_empty() {
         err.note(format!("Inferred opaque type values:\n{opaque_type_values:#?}"));
     }

     diags.buffer_non_error(err);
 }

 fn for_each_region_constraint<'tcx>(
     tcx: TyCtxt<'tcx>,
     closure_region_requirements: &ClosureRegionRequirements<'tcx>,
     with_msg: &mut dyn FnMut(String) -> io::Result<()>,
 ) -> io::Result<()> {
     for req in &closure_region_requirements.outlives_requirements {
         let subject = match req.subject {
             ClosureOutlivesSubject::Region(subject) => format!("{subject:?}"),
             ClosureOutlivesSubject::Ty(ty) => {
                 with_no_trimmed_paths!(format!(
                     "{}",
                     ty.instantiate(tcx, |vid| ty::Region::new_var(tcx, vid))
                 ))
             }
         };
         with_msg(format!("where {}: {:?}", subject, req.outlived_free_region,))?;
     }
     Ok(())
 }

 pub(crate) trait ConstraintDescription {
     fn description(&self) -> &'static str;
 }
	//! The entry point of the NLL borrow checker.

	use polonius_engine::{Algorithm, Output};
	use rustc_data_structures::fx::FxIndexMap;
	use rustc_hir::def_id::LocalDefId;
	use rustc_index::IndexSlice;
	use rustc_middle::mir::{create_dump_file, dump_enabled, dump_mir, PassWhere};
	use rustc_middle::mir::{Body, ClosureOutlivesSubject, ClosureRegionRequirements, Promoted};
	use rustc_middle::ty::print::with_no_trimmed_paths;
	use rustc_middle::ty::{self, OpaqueHiddenType, TyCtxt};
	use rustc_mir_dataflow::impls::MaybeInitializedPlaces;
	use rustc_mir_dataflow::move_paths::MoveData;
	use rustc_mir_dataflow::points::DenseLocationMap;
	use rustc_mir_dataflow::ResultsCursor;
	use rustc_span::symbol::sym;
	use std::env;
	use std::io;
	use std::path::PathBuf;
	use std::rc::Rc;
	use std::str::FromStr;

	use crate::{
	borrow_set::BorrowSet,
	consumers::ConsumerOptions,
	diagnostics::RegionErrors,
	facts::{AllFacts, AllFactsExt, RustcFacts},
	location::LocationTable,
	polonius,
	region_infer::RegionInferenceContext,
	renumber,
	type_check::{self, MirTypeckRegionConstraints, MirTypeckResults},
	universal_regions::UniversalRegions,
	BorrowckInferCtxt,
	};

	pub type PoloniusOutput = Output<RustcFacts>;

	/// The output of `nll::compute_regions`. This includes the computed `RegionInferenceContext`, any
	/// closure requirements to propagate, and any generated errors.
	pub(crate) struct NllOutput<'tcx> {
	pub regioncx: RegionInferenceContext<'tcx>,
	pub opaque_type_values: FxIndexMap<LocalDefId, OpaqueHiddenType<'tcx>>,
	pub polonius_input: Option<Box<AllFacts>>,
	pub polonius_output: Option<Rc<PoloniusOutput>>,
	pub opt_closure_req: Option<ClosureRegionRequirements<'tcx>>,
	pub nll_errors: RegionErrors<'tcx>,
	}

	/// Rewrites the regions in the MIR to use NLL variables, also scraping out the set of universal
	/// regions (e.g., region parameters) declared on the function. That set will need to be given to
	/// `compute_regions`.
	#[instrument(skip(infcx, param_env, body, promoted), level = "debug")]
	pub(crate) fn replace_regions_in_mir<'tcx>(
	infcx: &BorrowckInferCtxt<'_, 'tcx>,
	param_env: ty::ParamEnv<'tcx>,
	body: &mut Body<'tcx>,
	promoted: &mut IndexSlice<Promoted, Body<'tcx>>,
	) -> UniversalRegions<'tcx> {
	let def = body.source.def_id().expect_local();

	debug!(?def);

	// Compute named region information. This also renumbers the inputs/outputs.
	let universal_regions = UniversalRegions::new(infcx, def, param_env);

	// Replace all remaining regions with fresh inference variables.
	renumber::renumber_mir(infcx, body, promoted);

	dump_mir(infcx.tcx, false, "renumber", &0, body, \|_, _\| Ok(()));

	universal_regions
	}

	/// Computes the (non-lexical) regions from the input MIR.
	///
	/// This may result in errors being reported.
	pub(crate) fn compute_regions<'cx, 'tcx>(
	infcx: &BorrowckInferCtxt<'_, 'tcx>,
	universal_regions: UniversalRegions<'tcx>,
	body: &Body<'tcx>,
	promoted: &IndexSlice<Promoted, Body<'tcx>>,
	location_table: &LocationTable,
	param_env: ty::ParamEnv<'tcx>,
	flow_inits: &mut ResultsCursor<'cx, 'tcx, MaybeInitializedPlaces<'cx, 'tcx>>,
	move_data: &MoveData<'tcx>,
	borrow_set: &BorrowSet<'tcx>,
	upvars: &[&ty::CapturedPlace<'tcx>],
	consumer_options: Option<ConsumerOptions>,
	) -> NllOutput<'tcx> {
	let is_polonius_legacy_enabled = infcx.tcx.sess.opts.unstable_opts.polonius.is_legacy_enabled();
	let polonius_input = consumer_options.map(\|c\| c.polonius_input()).unwrap_or_default()
	\|\| is_polonius_legacy_enabled;
	let polonius_output = consumer_options.map(\|c\| c.polonius_output()).unwrap_or_default()
	\|\| is_polonius_legacy_enabled;
	let mut all_facts =
	(polonius_input \|\| AllFacts::enabled(infcx.tcx)).then_some(AllFacts::default());

	let universal_regions = Rc::new(universal_regions);

	let elements = &Rc::new(DenseLocationMap::new(body));

	// Run the MIR type-checker.
	let MirTypeckResults { constraints, universal_region_relations, opaque_type_values } =
	type_check::type_check(
	infcx,
	param_env,
	body,
	promoted,
	&universal_regions,
	location_table,
	borrow_set,
	&mut all_facts,
	flow_inits,
	move_data,
	elements,
	upvars,
	polonius_input,
	);

	// Create the region inference context, taking ownership of the
	// region inference data that was contained in `infcx`, and the
	// base constraints generated by the type-check.
	let var_origins = infcx.get_region_var_origins();
	let MirTypeckRegionConstraints {
	placeholder_indices,
	placeholder_index_to_region: _,
	liveness_constraints,
	outlives_constraints,
	member_constraints,
	universe_causes,
	type_tests,
	} = constraints;
	let placeholder_indices = Rc::new(placeholder_indices);

	// If requested, emit legacy polonius facts.
	polonius::emit_facts(
	&mut all_facts,
	infcx.tcx,
	location_table,
	body,
	borrow_set,
	move_data,
	&universal_regions,
	&universal_region_relations,
	);

	let mut regioncx = RegionInferenceContext::new(
	infcx,
	var_origins,
	universal_regions,
	placeholder_indices,
	universal_region_relations,
	outlives_constraints,
	member_constraints,
	universe_causes,
	type_tests,
	liveness_constraints,
	elements,
	);

	// If requested: dump NLL facts, and run legacy polonius analysis.
	let polonius_output = all_facts.as_ref().and_then(\|all_facts\| {
	if infcx.tcx.sess.opts.unstable_opts.nll_facts {
	let def_id = body.source.def_id();
	let def_path = infcx.tcx.def_path(def_id);
	let dir_path = PathBuf::from(&infcx.tcx.sess.opts.unstable_opts.nll_facts_dir)
	.join(def_path.to_filename_friendly_no_crate());
	all_facts.write_to_dir(dir_path, location_table).unwrap();
	}

	if polonius_output {
	let algorithm =
	env::var("POLONIUS_ALGORITHM").unwrap_or_else(\|_\| String::from("Hybrid"));
	let algorithm = Algorithm::from_str(&algorithm).unwrap();
	debug!("compute_regions: using polonius algorithm {:?}", algorithm);
	let _prof_timer = infcx.tcx.prof.generic_activity("polonius_analysis");
	Some(Rc::new(Output::compute(all_facts, algorithm, false)))
	} else {
	None
	}
	});

	// Solve the region constraints.
	let (closure_region_requirements, nll_errors) =
	regioncx.solve(infcx, body, polonius_output.clone());

	if let Some(guar) = nll_errors.has_errors() {
	// Suppress unhelpful extra errors in `infer_opaque_types`.
	infcx.set_tainted_by_errors(guar);
	}

	let remapped_opaque_tys = regioncx.infer_opaque_types(infcx, opaque_type_values);

	NllOutput {
	regioncx,
	opaque_type_values: remapped_opaque_tys,
	polonius_input: all_facts.map(Box::new),
	polonius_output,
	opt_closure_req: closure_region_requirements,
	nll_errors,
	}
	}

	pub(super) fn dump_mir_results<'tcx>(
	infcx: &BorrowckInferCtxt<'_, 'tcx>,
	body: &Body<'tcx>,
	regioncx: &RegionInferenceContext<'tcx>,
	closure_region_requirements: &Option<ClosureRegionRequirements<'tcx>>,
	) {
	if !dump_enabled(infcx.tcx, "nll", body.source.def_id()) {
	return;
	}

	dump_mir(infcx.tcx, false, "nll", &0, body, \|pass_where, out\| {
	match pass_where {
	// Before the CFG, dump out the values for each region variable.
	PassWhere::BeforeCFG => {
	regioncx.dump_mir(infcx.tcx, out)?;
	writeln!(out, "\|")?;

	if let Some(closure_region_requirements) = closure_region_requirements {
	writeln!(out, "\| Free Region Constraints")?;
	for_each_region_constraint(
	infcx.tcx,
	closure_region_requirements,
	&mut \|msg\| writeln!(out, "\| {msg}"),
	)?;
	writeln!(out, "\|")?;
	}
	}

	PassWhere::BeforeLocation(_) => {}

	PassWhere::AfterTerminator(_) => {}

	PassWhere::BeforeBlock(_) \| PassWhere::AfterLocation(_) \| PassWhere::AfterCFG => {}
	}
	Ok(())
	});

	// Also dump the inference graph constraints as a graphviz file.
	let _: io::Result<()> = try {
	let mut file = create_dump_file(infcx.tcx, "regioncx.all.dot", false, "nll", &0, body)?;
	regioncx.dump_graphviz_raw_constraints(&mut file)?;
	};

	// Also dump the inference graph constraints as a graphviz file.
	let _: io::Result<()> = try {
	let mut file = create_dump_file(infcx.tcx, "regioncx.scc.dot", false, "nll", &0, body)?;
	regioncx.dump_graphviz_scc_constraints(&mut file)?;
	};
	}

	#[allow(rustc::diagnostic_outside_of_impl)]
	#[allow(rustc::untranslatable_diagnostic)]
	pub(super) fn dump_annotation<'tcx>(
	infcx: &BorrowckInferCtxt<'_, 'tcx>,
	body: &Body<'tcx>,
	regioncx: &RegionInferenceContext<'tcx>,
	closure_region_requirements: &Option<ClosureRegionRequirements<'tcx>>,
	opaque_type_values: &FxIndexMap<LocalDefId, OpaqueHiddenType<'tcx>>,
	diags: &mut crate::diags::BorrowckDiags<'tcx>,
	) {
	let tcx = infcx.tcx;
	let base_def_id = tcx.typeck_root_def_id(body.source.def_id());
	if !tcx.has_attr(base_def_id, sym::rustc_regions) {
	return;
	}

	// When the enclosing function is tagged with `#[rustc_regions]`,
	// we dump out various bits of state as warnings. This is useful
	// for verifying that the compiler is behaving as expected. These
	// warnings focus on the closure region requirements -- for
	// viewing the intraprocedural state, the -Zdump-mir output is
	// better.

	let def_span = tcx.def_span(body.source.def_id());
	let mut err = if let Some(closure_region_requirements) = closure_region_requirements {
	let mut err = tcx.dcx().struct_span_note(def_span, "external requirements");

	regioncx.annotate(tcx, &mut err);

	err.note(format!(
	"number of external vids: {}",
	closure_region_requirements.num_external_vids
	));

	// Dump the region constraints we are imposing between those
	// newly created variables.
	for_each_region_constraint(tcx, closure_region_requirements, &mut \|msg\| {
	err.note(msg);
	Ok(())
	})
	.unwrap();

	err
	} else {
	let mut err = tcx.dcx().struct_span_note(def_span, "no external requirements");
	regioncx.annotate(tcx, &mut err);

	err
	};

	if !opaque_type_values.is_empty() {
	err.note(format!("Inferred opaque type values:\n{opaque_type_values:#?}"));
	}

	diags.buffer_non_error(err);
	}

	fn for_each_region_constraint<'tcx>(
	tcx: TyCtxt<'tcx>,
	closure_region_requirements: &ClosureRegionRequirements<'tcx>,
	with_msg: &mut dyn FnMut(String) -> io::Result<()>,
	) -> io::Result<()> {
	for req in &closure_region_requirements.outlives_requirements {
	let subject = match req.subject {
	ClosureOutlivesSubject::Region(subject) => format!("{subject:?}"),
	ClosureOutlivesSubject::Ty(ty) => {
	with_no_trimmed_paths!(format!(
	"{}",
	ty.instantiate(tcx, \|vid\| ty::Region::new_var(tcx, vid))
	))
	}
	};
	with_msg(format!("where {}: {:?}", subject, req.outlived_free_region,))?;
	}
	Ok(())
	}

	pub(crate) trait ConstraintDescription {
	fn description(&self) -> &'static str;
	}