use rustc_index::bit_set::{BitSet, ChunkedBitSet}; use rustc_middle::mir::visit::{MutatingUseContext, NonMutatingUseContext, PlaceContext, Visitor}; use rustc_middle::mir::{self, Local, Location, Place, StatementKind}; use crate::{Analysis, AnalysisDomain, Backward, CallReturnPlaces, GenKill, GenKillAnalysis}; /// A [live-variable dataflow analysis][liveness]. /// /// This analysis considers references as being used only at the point of the /// borrow. In other words, this analysis does not track uses because of references that already /// exist. See [this `mir-dataflow` test][flow-test] for an example. You almost never want to use /// this analysis without also looking at the results of [`MaybeBorrowedLocals`]. /// /// ## Field-(in)sensitivity /// /// As the name suggests, this analysis is field insensitive. If a projection of a variable `x` is /// assigned to (e.g. `x.0 = 42`), it does not "define" `x` as far as liveness is concerned. In fact, /// such an assignment is currently marked as a "use" of `x` in an attempt to be maximally /// conservative. /// /// [`MaybeBorrowedLocals`]: super::MaybeBorrowedLocals /// [flow-test]: https://github.com/rust-lang/rust/blob/a08c47310c7d49cbdc5d7afb38408ba519967ecd/src/test/ui/mir-dataflow/liveness-ptr.rs /// [liveness]: https://en.wikipedia.org/wiki/Live_variable_analysis pub struct MaybeLiveLocals; impl<'tcx> AnalysisDomain<'tcx> for MaybeLiveLocals { type Domain = ChunkedBitSet; type Direction = Backward; const NAME: &'static str = "liveness"; fn bottom_value(&self, body: &mir::Body<'tcx>) -> Self::Domain { // bottom = not live ChunkedBitSet::new_empty(body.local_decls.len()) } fn initialize_start_block(&self, _: &mir::Body<'tcx>, _: &mut Self::Domain) { // No variables are live until we observe a use } } impl<'tcx> GenKillAnalysis<'tcx> for MaybeLiveLocals { type Idx = Local; fn statement_effect( &self, trans: &mut impl GenKill, statement: &mir::Statement<'tcx>, location: Location, ) { TransferFunction(trans).visit_statement(statement, location); } fn terminator_effect( &self, trans: &mut impl GenKill, terminator: &mir::Terminator<'tcx>, location: Location, ) { TransferFunction(trans).visit_terminator(terminator, location); } fn call_return_effect( &self, trans: &mut impl GenKill, _block: mir::BasicBlock, return_places: CallReturnPlaces<'_, 'tcx>, ) { return_places.for_each(|place| { if let Some(local) = place.as_local() { trans.kill(local); } }); } fn yield_resume_effect( &self, trans: &mut impl GenKill, _resume_block: mir::BasicBlock, resume_place: mir::Place<'tcx>, ) { YieldResumeEffect(trans).visit_place( &resume_place, PlaceContext::MutatingUse(MutatingUseContext::Yield), Location::START, ) } } struct TransferFunction<'a, T>(&'a mut T); impl<'tcx, T> Visitor<'tcx> for TransferFunction<'_, T> where T: GenKill, { fn visit_place(&mut self, place: &mir::Place<'tcx>, context: PlaceContext, location: Location) { if let PlaceContext::MutatingUse(MutatingUseContext::Yield) = context { // The resume place is evaluated and assigned to only after generator resumes, so its // effect is handled separately in `yield_resume_effect`. return; } match DefUse::for_place(*place, context) { Some(DefUse::Def) => { if let PlaceContext::MutatingUse( MutatingUseContext::Call | MutatingUseContext::AsmOutput, ) = context { // For the associated terminators, this is only a `Def` when the terminator returns // "successfully." As such, we handle this case separately in `call_return_effect` // above. However, if the place looks like `*_5`, this is still unconditionally a use of // `_5`. } else { self.0.kill(place.local); } } Some(DefUse::Use) => self.0.gen(place.local), None => {} } self.visit_projection(place.as_ref(), context, location); } fn visit_local(&mut self, local: Local, context: PlaceContext, _: Location) { DefUse::apply(self.0, local.into(), context); } } struct YieldResumeEffect<'a, T>(&'a mut T); impl<'tcx, T> Visitor<'tcx> for YieldResumeEffect<'_, T> where T: GenKill, { fn visit_place(&mut self, place: &mir::Place<'tcx>, context: PlaceContext, location: Location) { DefUse::apply(self.0, *place, context); self.visit_projection(place.as_ref(), context, location); } fn visit_local(&mut self, local: Local, context: PlaceContext, _: Location) { DefUse::apply(self.0, local.into(), context); } } #[derive(Eq, PartialEq, Clone)] enum DefUse { Def, Use, } impl DefUse { fn apply(trans: &mut impl GenKill, place: Place<'_>, context: PlaceContext) { match DefUse::for_place(place, context) { Some(DefUse::Def) => trans.kill(place.local), Some(DefUse::Use) => trans.gen(place.local), None => {} } } fn for_place(place: Place<'_>, context: PlaceContext) -> Option { match context { PlaceContext::NonUse(_) => None, PlaceContext::MutatingUse( MutatingUseContext::Call | MutatingUseContext::Yield | MutatingUseContext::AsmOutput | MutatingUseContext::Store | MutatingUseContext::Deinit, ) => { if place.is_indirect() { // Treat derefs as a use of the base local. `*p = 4` is not a def of `p` but a // use. Some(DefUse::Use) } else if place.projection.is_empty() { Some(DefUse::Def) } else { None } } // Setting the discriminant is not a use because it does no reading, but it is also not // a def because it does not overwrite the whole place PlaceContext::MutatingUse(MutatingUseContext::SetDiscriminant) => { place.is_indirect().then_some(DefUse::Use) } // All other contexts are uses... PlaceContext::MutatingUse( MutatingUseContext::AddressOf | MutatingUseContext::Borrow | MutatingUseContext::Drop | MutatingUseContext::Retag, ) | PlaceContext::NonMutatingUse( NonMutatingUseContext::AddressOf | NonMutatingUseContext::Copy | NonMutatingUseContext::Inspect | NonMutatingUseContext::Move | NonMutatingUseContext::ShallowBorrow | NonMutatingUseContext::SharedBorrow, ) => Some(DefUse::Use), PlaceContext::MutatingUse(MutatingUseContext::Projection) | PlaceContext::NonMutatingUse(NonMutatingUseContext::Projection) => { unreachable!("A projection could be a def or a use and must be handled separately") } } } } /// Like `MaybeLiveLocals`, but does not mark locals as live if they are used in a dead assignment. /// /// This is basically written for dead store elimination and nothing else. /// /// All of the caveats of `MaybeLiveLocals` apply. pub struct MaybeTransitiveLiveLocals<'a> { always_live: &'a BitSet, } impl<'a> MaybeTransitiveLiveLocals<'a> { /// The `always_alive` set is the set of locals to which all stores should unconditionally be /// considered live. /// /// This should include at least all locals that are ever borrowed. pub fn new(always_live: &'a BitSet) -> Self { MaybeTransitiveLiveLocals { always_live } } } impl<'a, 'tcx> AnalysisDomain<'tcx> for MaybeTransitiveLiveLocals<'a> { type Domain = ChunkedBitSet; type Direction = Backward; const NAME: &'static str = "transitive liveness"; fn bottom_value(&self, body: &mir::Body<'tcx>) -> Self::Domain { // bottom = not live ChunkedBitSet::new_empty(body.local_decls.len()) } fn initialize_start_block(&self, _: &mir::Body<'tcx>, _: &mut Self::Domain) { // No variables are live until we observe a use } } impl<'a, 'tcx> Analysis<'tcx> for MaybeTransitiveLiveLocals<'a> { fn apply_statement_effect( &self, trans: &mut Self::Domain, statement: &mir::Statement<'tcx>, location: Location, ) { // Compute the place that we are storing to, if any let destination = match &statement.kind { StatementKind::Assign(assign) => assign.1.is_safe_to_remove().then_some(assign.0), StatementKind::SetDiscriminant { place, .. } | StatementKind::Deinit(place) => { Some(**place) } StatementKind::FakeRead(_) | StatementKind::StorageLive(_) | StatementKind::StorageDead(_) | StatementKind::Retag(..) | StatementKind::AscribeUserType(..) | StatementKind::PlaceMention(..) | StatementKind::Coverage(..) | StatementKind::Intrinsic(..) | StatementKind::ConstEvalCounter | StatementKind::Nop => None, }; if let Some(destination) = destination { if !destination.is_indirect() && !trans.contains(destination.local) && !self.always_live.contains(destination.local) { // This store is dead return; } } TransferFunction(trans).visit_statement(statement, location); } fn apply_terminator_effect( &self, trans: &mut Self::Domain, terminator: &mir::Terminator<'tcx>, location: Location, ) { TransferFunction(trans).visit_terminator(terminator, location); } fn apply_call_return_effect( &self, trans: &mut Self::Domain, _block: mir::BasicBlock, return_places: CallReturnPlaces<'_, 'tcx>, ) { return_places.for_each(|place| { if let Some(local) = place.as_local() { trans.remove(local); } }); } fn apply_yield_resume_effect( &self, trans: &mut Self::Domain, _resume_block: mir::BasicBlock, resume_place: mir::Place<'tcx>, ) { YieldResumeEffect(trans).visit_place( &resume_place, PlaceContext::MutatingUse(MutatingUseContext::Yield), Location::START, ) } }