compiler/rustc_mir_transform/src/pass_manager.rs - rust - Git at Google

 use std::cell::RefCell;
 use std::collections::hash_map::Entry;

 use rustc_data_structures::fx::{FxHashMap, FxIndexSet};
 use rustc_middle::mir::{self, Body, MirPhase, RuntimePhase};
 use rustc_middle::ty::TyCtxt;
 use rustc_session::Session;
 use tracing::trace;

 use crate::lint::lint_body;
 use crate::{errors, validate};

 thread_local! {
     /// Maps MIR pass names to a snake case form to match profiling naming style
     static PASS_TO_PROFILER_NAMES: RefCell<FxHashMap<&'static str, &'static str>> = {
         RefCell::new(FxHashMap::default())
     };
 }

 /// Converts a MIR pass name into a snake case form to match the profiling naming style.
 fn to_profiler_name(type_name: &'static str) -> &'static str {
     PASS_TO_PROFILER_NAMES.with(|names| match names.borrow_mut().entry(type_name) {
         Entry::Occupied(e) => *e.get(),
         Entry::Vacant(e) => {
             let snake_case: String = type_name
                 .chars()
                 .flat_map(|c| {
                     if c.is_ascii_uppercase() {
                         vec!['_', c.to_ascii_lowercase()]
                     } else if c == '-' {
                         vec!['_']
                     } else {
                         vec![c]
                     }
                 })
                 .collect();
             let result = &*String::leak(format!("mir_pass{}", snake_case));
             e.insert(result);
             result
         }
     })
 }

 // const wrapper for `if let Some((_, tail)) = name.rsplit_once(':') { tail } else { name }`
 const fn c_name(name: &'static str) -> &'static str {
     // FIXME(const-hack) Simplify the implementation once more `str` methods get const-stable.
     // and inline into call site
     let bytes = name.as_bytes();
     let mut i = bytes.len();
     while i > 0 && bytes[i - 1] != b':' {
         i = i - 1;
     }
     let (_, bytes) = bytes.split_at(i);
     match std::str::from_utf8(bytes) {
         Ok(name) => name,
         Err(_) => name,
     }
 }

 /// A streamlined trait that you can implement to create a pass; the
 /// pass will be named after the type, and it will consist of a main
 /// loop that goes over each available MIR and applies `run_pass`.
 pub(super) trait MirPass<'tcx> {
     fn name(&self) -> &'static str {
         // FIXME(const-hack) Simplify the implementation once more `str` methods get const-stable.
         // See copypaste in `MirLint`
         const {
             let name = std::any::type_name::<Self>();
             c_name(name)
         }
     }

     fn profiler_name(&self) -> &'static str {
         to_profiler_name(self.name())
     }

     /// Returns `true` if this pass is enabled with the current combination of compiler flags.
     fn is_enabled(&self, _sess: &Session) -> bool {
         true
     }

     /// Returns `true` if this pass can be overridden by `-Zenable-mir-passes`. This should be
     /// true for basically every pass other than those that are necessary for correctness.
     fn can_be_overridden(&self) -> bool {
         true
     }

     fn run_pass(&self, tcx: TyCtxt<'tcx>, body: &mut Body<'tcx>);

     fn is_mir_dump_enabled(&self) -> bool {
         true
     }

     /// Returns `true` if this pass must be run (i.e. it is required for soundness).
     /// For passes which are strictly optimizations, this should return `false`.
     /// If this is `false`, `#[optimize(none)]` will disable the pass.
     fn is_required(&self) -> bool;
 }

 /// Just like `MirPass`, except it cannot mutate `Body`, and MIR dumping is
 /// disabled (via the `Lint` adapter).
 pub(super) trait MirLint<'tcx> {
     fn name(&self) -> &'static str {
         // FIXME(const-hack) Simplify the implementation once more `str` methods get const-stable.
         // See copypaste in `MirPass`
         const {
             let name = std::any::type_name::<Self>();
             c_name(name)
         }
     }

     fn is_enabled(&self, _sess: &Session) -> bool {
         true
     }

     fn run_lint(&self, tcx: TyCtxt<'tcx>, body: &Body<'tcx>);
 }

 /// An adapter for `MirLint`s that implements `MirPass`.
 #[derive(Debug, Clone)]
 pub(super) struct Lint<T>(pub T);

 impl<'tcx, T> MirPass<'tcx> for Lint<T>
 where
     T: MirLint<'tcx>,
 {
     fn name(&self) -> &'static str {
         self.0.name()
     }

     fn is_enabled(&self, sess: &Session) -> bool {
         self.0.is_enabled(sess)
     }

     fn run_pass(&self, tcx: TyCtxt<'tcx>, body: &mut Body<'tcx>) {
         self.0.run_lint(tcx, body)
     }

     fn is_mir_dump_enabled(&self) -> bool {
         false
     }

     fn is_required(&self) -> bool {
         true
     }
 }

 pub(super) struct WithMinOptLevel<T>(pub u32, pub T);

 impl<'tcx, T> MirPass<'tcx> for WithMinOptLevel<T>
 where
     T: MirPass<'tcx>,
 {
     fn name(&self) -> &'static str {
         self.1.name()
     }

     fn is_enabled(&self, sess: &Session) -> bool {
         sess.mir_opt_level() >= self.0 as usize
     }

     fn run_pass(&self, tcx: TyCtxt<'tcx>, body: &mut Body<'tcx>) {
         self.1.run_pass(tcx, body)
     }

     fn is_required(&self) -> bool {
         self.1.is_required()
     }
 }

 /// Whether to allow non-[required] optimizations
 ///
 /// [required]: MirPass::is_required
 #[derive(Copy, Clone, Debug, PartialEq, Eq)]
 pub(crate) enum Optimizations {
     Suppressed,
     Allowed,
 }

 /// Run the sequence of passes without validating the MIR after each pass. The MIR is still
 /// validated at the end.
 pub(super) fn run_passes_no_validate<'tcx>(
     tcx: TyCtxt<'tcx>,
     body: &mut Body<'tcx>,
     passes: &[&dyn MirPass<'tcx>],
     phase_change: Option<MirPhase>,
 ) {
     run_passes_inner(tcx, body, passes, phase_change, false, Optimizations::Allowed);
 }

 /// The optional `phase_change` is applied after executing all the passes, if present
 pub(super) fn run_passes<'tcx>(
     tcx: TyCtxt<'tcx>,
     body: &mut Body<'tcx>,
     passes: &[&dyn MirPass<'tcx>],
     phase_change: Option<MirPhase>,
     optimizations: Optimizations,
 ) {
     run_passes_inner(tcx, body, passes, phase_change, true, optimizations);
 }

 pub(super) fn should_run_pass<'tcx, P>(
     tcx: TyCtxt<'tcx>,
     pass: &P,
     optimizations: Optimizations,
 ) -> bool
 where
     P: MirPass<'tcx> + ?Sized,
 {
     let name = pass.name();

     if !pass.can_be_overridden() {
         return pass.is_enabled(tcx.sess);
     }

     let overridden_passes = &tcx.sess.opts.unstable_opts.mir_enable_passes;
     let overridden =
         overridden_passes.iter().rev().find(|(s, _)| s == &*name).map(|(_name, polarity)| {
             trace!(
                 pass = %name,
                 "{} as requested by flag",
                 if *polarity { "Running" } else { "Not running" },
             );
             *polarity
         });
     let suppressed = !pass.is_required() && matches!(optimizations, Optimizations::Suppressed);
     overridden.unwrap_or_else(|| !suppressed && pass.is_enabled(tcx.sess))
 }

 fn run_passes_inner<'tcx>(
     tcx: TyCtxt<'tcx>,
     body: &mut Body<'tcx>,
     passes: &[&dyn MirPass<'tcx>],
     phase_change: Option<MirPhase>,
     validate_each: bool,
     optimizations: Optimizations,
 ) {
     let overridden_passes = &tcx.sess.opts.unstable_opts.mir_enable_passes;
     trace!(?overridden_passes);

     let named_passes: FxIndexSet<_> =
         overridden_passes.iter().map(|(name, _)| name.as_str()).collect();

     for &name in named_passes.difference(&*crate::PASS_NAMES) {
         tcx.dcx().emit_warn(errors::UnknownPassName { name });
     }

     // Verify that no passes are missing from the `declare_passes` invocation
     #[cfg(debug_assertions)]
     #[allow(rustc::diagnostic_outside_of_impl)]
     #[allow(rustc::untranslatable_diagnostic)]
     {
         let used_passes: FxIndexSet<_> = passes.iter().map(|p| p.name()).collect();

         let undeclared = used_passes.difference(&*crate::PASS_NAMES).collect::<Vec<_>>();
         if let Some((name, rest)) = undeclared.split_first() {
             let mut err =
                 tcx.dcx().struct_bug(format!("pass `{name}` is not declared in `PASS_NAMES`"));
             for name in rest {
                 err.note(format!("pass `{name}` is also not declared in `PASS_NAMES`"));
             }
             err.emit();
         }
     }

     let prof_arg = tcx.sess.prof.enabled().then(|| format!("{:?}", body.source.def_id()));

     if !body.should_skip() {
         let validate = validate_each & tcx.sess.opts.unstable_opts.validate_mir;
         let lint = tcx.sess.opts.unstable_opts.lint_mir;

         for pass in passes {
             let name = pass.name();

             if !should_run_pass(tcx, *pass, optimizations) {
                 continue;
             };

             let dump_enabled = pass.is_mir_dump_enabled();

             if dump_enabled {
                 dump_mir_for_pass(tcx, body, name, false);
             }

             if let Some(prof_arg) = &prof_arg {
                 tcx.sess
                     .prof
                     .generic_activity_with_arg(pass.profiler_name(), &**prof_arg)
                     .run(|| pass.run_pass(tcx, body));
             } else {
                 pass.run_pass(tcx, body);
             }

             if dump_enabled {
                 dump_mir_for_pass(tcx, body, name, true);
             }
             if validate {
                 validate_body(tcx, body, format!("after pass {name}"));
             }
             if lint {
                 lint_body(tcx, body, format!("after pass {name}"));
             }

             body.pass_count += 1;
         }
     }

     if let Some(new_phase) = phase_change {
         if body.phase >= new_phase {
             panic!("Invalid MIR phase transition from {:?} to {:?}", body.phase, new_phase);
         }

         body.phase = new_phase;
         body.pass_count = 0;

         dump_mir_for_phase_change(tcx, body);

         let validate =
             (validate_each & tcx.sess.opts.unstable_opts.validate_mir & !body.should_skip())
                 || new_phase == MirPhase::Runtime(RuntimePhase::Optimized);
         let lint = tcx.sess.opts.unstable_opts.lint_mir & !body.should_skip();
         if validate {
             validate_body(tcx, body, format!("after phase change to {}", new_phase.name()));
         }
         if lint {
             lint_body(tcx, body, format!("after phase change to {}", new_phase.name()));
         }

         body.pass_count = 1;
     }
 }

 pub(super) fn validate_body<'tcx>(tcx: TyCtxt<'tcx>, body: &mut Body<'tcx>, when: String) {
     validate::Validator { when }.run_pass(tcx, body);
 }

 fn dump_mir_for_pass<'tcx>(tcx: TyCtxt<'tcx>, body: &Body<'tcx>, pass_name: &str, is_after: bool) {
     mir::dump_mir(
         tcx,
         true,
         pass_name,
         if is_after { &"after" } else { &"before" },
         body,
         |_, _| Ok(()),
     );
 }

 pub(super) fn dump_mir_for_phase_change<'tcx>(tcx: TyCtxt<'tcx>, body: &Body<'tcx>) {
     assert_eq!(body.pass_count, 0);
     mir::dump_mir(tcx, true, body.phase.name(), &"after", body, |_, _| Ok(()))
 }
	use std::cell::RefCell;
	use std::collections::hash_map::Entry;

	use rustc_data_structures::fx::{FxHashMap, FxIndexSet};
	use rustc_middle::mir::{self, Body, MirPhase, RuntimePhase};
	use rustc_middle::ty::TyCtxt;
	use rustc_session::Session;
	use tracing::trace;

	use crate::lint::lint_body;
	use crate::{errors, validate};

	thread_local! {
	/// Maps MIR pass names to a snake case form to match profiling naming style
	static PASS_TO_PROFILER_NAMES: RefCell<FxHashMap<&'static str, &'static str>> = {
	RefCell::new(FxHashMap::default())
	};
	}

	/// Converts a MIR pass name into a snake case form to match the profiling naming style.
	fn to_profiler_name(type_name: &'static str) -> &'static str {
	PASS_TO_PROFILER_NAMES.with(\|names\| match names.borrow_mut().entry(type_name) {
	Entry::Occupied(e) => *e.get(),
	Entry::Vacant(e) => {
	let snake_case: String = type_name
	.chars()
	.flat_map(\|c\| {
	if c.is_ascii_uppercase() {
	vec!['_', c.to_ascii_lowercase()]
	} else if c == '-' {
	vec!['_']
	} else {
	vec![c]
	}
	})
	.collect();
	let result = &*String::leak(format!("mir_pass{}", snake_case));
	e.insert(result);
	result
	}
	})
	}

	// const wrapper for `if let Some((_, tail)) = name.rsplit_once(':') { tail } else { name }`
	const fn c_name(name: &'static str) -> &'static str {
	// FIXME(const-hack) Simplify the implementation once more `str` methods get const-stable.
	// and inline into call site
	let bytes = name.as_bytes();
	let mut i = bytes.len();
	while i > 0 && bytes[i - 1] != b':' {
	i = i - 1;
	}
	let (_, bytes) = bytes.split_at(i);
	match std::str::from_utf8(bytes) {
	Ok(name) => name,
	Err(_) => name,
	}
	}

	/// A streamlined trait that you can implement to create a pass; the
	/// pass will be named after the type, and it will consist of a main
	/// loop that goes over each available MIR and applies `run_pass`.
	pub(super) trait MirPass<'tcx> {
	fn name(&self) -> &'static str {
	// FIXME(const-hack) Simplify the implementation once more `str` methods get const-stable.
	// See copypaste in `MirLint`
	const {
	let name = std::any::type_name::<Self>();
	c_name(name)
	}
	}

	fn profiler_name(&self) -> &'static str {
	to_profiler_name(self.name())
	}

	/// Returns `true` if this pass is enabled with the current combination of compiler flags.
	fn is_enabled(&self, _sess: &Session) -> bool {
	true
	}

	/// Returns `true` if this pass can be overridden by `-Zenable-mir-passes`. This should be
	/// true for basically every pass other than those that are necessary for correctness.
	fn can_be_overridden(&self) -> bool {
	true
	}

	fn run_pass(&self, tcx: TyCtxt<'tcx>, body: &mut Body<'tcx>);

	fn is_mir_dump_enabled(&self) -> bool {
	true
	}

	/// Returns `true` if this pass must be run (i.e. it is required for soundness).
	/// For passes which are strictly optimizations, this should return `false`.
	/// If this is `false`, `#[optimize(none)]` will disable the pass.
	fn is_required(&self) -> bool;
	}

	/// Just like `MirPass`, except it cannot mutate `Body`, and MIR dumping is
	/// disabled (via the `Lint` adapter).
	pub(super) trait MirLint<'tcx> {
	fn name(&self) -> &'static str {
	// FIXME(const-hack) Simplify the implementation once more `str` methods get const-stable.
	// See copypaste in `MirPass`
	const {
	let name = std::any::type_name::<Self>();
	c_name(name)
	}
	}

	fn is_enabled(&self, _sess: &Session) -> bool {
	true
	}

	fn run_lint(&self, tcx: TyCtxt<'tcx>, body: &Body<'tcx>);
	}

	/// An adapter for `MirLint`s that implements `MirPass`.
	#[derive(Debug, Clone)]
	pub(super) struct Lint<T>(pub T);

	impl<'tcx, T> MirPass<'tcx> for Lint<T>
	where
	T: MirLint<'tcx>,
	{
	fn name(&self) -> &'static str {
	self.0.name()
	}

	fn is_enabled(&self, sess: &Session) -> bool {
	self.0.is_enabled(sess)
	}

	fn run_pass(&self, tcx: TyCtxt<'tcx>, body: &mut Body<'tcx>) {
	self.0.run_lint(tcx, body)
	}

	fn is_mir_dump_enabled(&self) -> bool {
	false
	}

	fn is_required(&self) -> bool {
	true
	}
	}

	pub(super) struct WithMinOptLevel<T>(pub u32, pub T);

	impl<'tcx, T> MirPass<'tcx> for WithMinOptLevel<T>
	where
	T: MirPass<'tcx>,
	{
	fn name(&self) -> &'static str {
	self.1.name()
	}

	fn is_enabled(&self, sess: &Session) -> bool {
	sess.mir_opt_level() >= self.0 as usize
	}

	fn run_pass(&self, tcx: TyCtxt<'tcx>, body: &mut Body<'tcx>) {
	self.1.run_pass(tcx, body)
	}

	fn is_required(&self) -> bool {
	self.1.is_required()
	}
	}

	/// Whether to allow non-[required] optimizations
	///
	/// [required]: MirPass::is_required
	#[derive(Copy, Clone, Debug, PartialEq, Eq)]
	pub(crate) enum Optimizations {
	Suppressed,
	Allowed,
	}

	/// Run the sequence of passes without validating the MIR after each pass. The MIR is still
	/// validated at the end.
	pub(super) fn run_passes_no_validate<'tcx>(
	tcx: TyCtxt<'tcx>,
	body: &mut Body<'tcx>,
	passes: &[&dyn MirPass<'tcx>],
	phase_change: Option<MirPhase>,
	) {
	run_passes_inner(tcx, body, passes, phase_change, false, Optimizations::Allowed);
	}

	/// The optional `phase_change` is applied after executing all the passes, if present
	pub(super) fn run_passes<'tcx>(
	tcx: TyCtxt<'tcx>,
	body: &mut Body<'tcx>,
	passes: &[&dyn MirPass<'tcx>],
	phase_change: Option<MirPhase>,
	optimizations: Optimizations,
	) {
	run_passes_inner(tcx, body, passes, phase_change, true, optimizations);
	}

	pub(super) fn should_run_pass<'tcx, P>(
	tcx: TyCtxt<'tcx>,
	pass: &P,
	optimizations: Optimizations,
	) -> bool
	where
	P: MirPass<'tcx> + ?Sized,
	{
	let name = pass.name();

	if !pass.can_be_overridden() {
	return pass.is_enabled(tcx.sess);
	}

	let overridden_passes = &tcx.sess.opts.unstable_opts.mir_enable_passes;
	let overridden =
	overridden_passes.iter().rev().find(\|(s, _)\| s == &*name).map(\|(_name, polarity)\| {
	trace!(
	pass = %name,
	"{} as requested by flag",
	if *polarity { "Running" } else { "Not running" },
	);
	*polarity
	});
	let suppressed = !pass.is_required() && matches!(optimizations, Optimizations::Suppressed);
	overridden.unwrap_or_else(\|\| !suppressed && pass.is_enabled(tcx.sess))
	}

	fn run_passes_inner<'tcx>(
	tcx: TyCtxt<'tcx>,
	body: &mut Body<'tcx>,
	passes: &[&dyn MirPass<'tcx>],
	phase_change: Option<MirPhase>,
	validate_each: bool,
	optimizations: Optimizations,
	) {
	let overridden_passes = &tcx.sess.opts.unstable_opts.mir_enable_passes;
	trace!(?overridden_passes);

	let named_passes: FxIndexSet<_> =
	overridden_passes.iter().map(\|(name, _)\| name.as_str()).collect();

	for &name in named_passes.difference(&*crate::PASS_NAMES) {
	tcx.dcx().emit_warn(errors::UnknownPassName { name });
	}

	// Verify that no passes are missing from the `declare_passes` invocation
	#[cfg(debug_assertions)]
	#[allow(rustc::diagnostic_outside_of_impl)]
	#[allow(rustc::untranslatable_diagnostic)]
	{
	let used_passes: FxIndexSet<_> = passes.iter().map(\|p\| p.name()).collect();

	let undeclared = used_passes.difference(&*crate::PASS_NAMES).collect::<Vec<_>>();
	if let Some((name, rest)) = undeclared.split_first() {
	let mut err =
	tcx.dcx().struct_bug(format!("pass `{name}` is not declared in `PASS_NAMES`"));
	for name in rest {
	err.note(format!("pass `{name}` is also not declared in `PASS_NAMES`"));
	}
	err.emit();
	}
	}

	let prof_arg = tcx.sess.prof.enabled().then(\|\| format!("{:?}", body.source.def_id()));

	if !body.should_skip() {
	let validate = validate_each & tcx.sess.opts.unstable_opts.validate_mir;
	let lint = tcx.sess.opts.unstable_opts.lint_mir;

	for pass in passes {
	let name = pass.name();

	if !should_run_pass(tcx, *pass, optimizations) {
	continue;
	};

	let dump_enabled = pass.is_mir_dump_enabled();

	if dump_enabled {
	dump_mir_for_pass(tcx, body, name, false);
	}

	if let Some(prof_arg) = &prof_arg {
	tcx.sess
	.prof
	.generic_activity_with_arg(pass.profiler_name(), &**prof_arg)
	.run(\|\| pass.run_pass(tcx, body));
	} else {
	pass.run_pass(tcx, body);
	}

	if dump_enabled {
	dump_mir_for_pass(tcx, body, name, true);
	}
	if validate {
	validate_body(tcx, body, format!("after pass {name}"));
	}
	if lint {
	lint_body(tcx, body, format!("after pass {name}"));
	}

	body.pass_count += 1;
	}
	}

	if let Some(new_phase) = phase_change {
	if body.phase >= new_phase {
	panic!("Invalid MIR phase transition from {:?} to {:?}", body.phase, new_phase);
	}

	body.phase = new_phase;
	body.pass_count = 0;

	dump_mir_for_phase_change(tcx, body);

	let validate =
	(validate_each & tcx.sess.opts.unstable_opts.validate_mir & !body.should_skip())
	\|\| new_phase == MirPhase::Runtime(RuntimePhase::Optimized);
	let lint = tcx.sess.opts.unstable_opts.lint_mir & !body.should_skip();
	if validate {
	validate_body(tcx, body, format!("after phase change to {}", new_phase.name()));
	}
	if lint {
	lint_body(tcx, body, format!("after phase change to {}", new_phase.name()));
	}

	body.pass_count = 1;
	}
	}

	pub(super) fn validate_body<'tcx>(tcx: TyCtxt<'tcx>, body: &mut Body<'tcx>, when: String) {
	validate::Validator { when }.run_pass(tcx, body);
	}

	fn dump_mir_for_pass<'tcx>(tcx: TyCtxt<'tcx>, body: &Body<'tcx>, pass_name: &str, is_after: bool) {
	mir::dump_mir(
	tcx,
	true,
	pass_name,
	if is_after { &"after" } else { &"before" },
	body,
	\|_, _\| Ok(()),
	);
	}

	pub(super) fn dump_mir_for_phase_change<'tcx>(tcx: TyCtxt<'tcx>, body: &Body<'tcx>) {
	assert_eq!(body.pass_count, 0);
	mir::dump_mir(tcx, true, body.phase.name(), &"after", body, \|_, _\| Ok(()))
	}