//! A number of passes which remove various redundancies in the CFG. //! //! The `SimplifyCfg` pass gets rid of unnecessary blocks in the CFG, whereas the `SimplifyLocals` //! gets rid of all the unnecessary local variable declarations. //! //! The `SimplifyLocals` pass is kinda expensive and therefore not very suitable to be run often. //! Most of the passes should not care or be impacted in meaningful ways due to extra locals //! either, so running the pass once, right before codegen, should suffice. //! //! On the other side of the spectrum, the `SimplifyCfg` pass is considerably cheap to run, thus //! one should run it after every pass which may modify CFG in significant ways. This pass must //! also be run before any analysis passes because it removes dead blocks, and some of these can be //! ill-typed. //! //! The cause of this typing issue is typeck allowing most blocks whose end is not reachable have //! an arbitrary return type, rather than having the usual () return type (as a note, typeck's //! notion of reachability is in fact slightly weaker than MIR CFG reachability - see #31617). A //! standard example of the situation is: //! //! ```rust //! fn example() { //! let _a: char = { return; }; //! } //! ``` //! //! Here the block (`{ return; }`) has the return type `char`, rather than `()`, but the MIR we //! naively generate still contains the `_a = ()` write in the unreachable block "after" the //! return. use crate::transform::{MirPass, MirSource}; use rustc_index::bit_set::BitSet; use rustc_index::vec::{Idx, IndexVec}; use rustc_middle::mir::visit::{MutVisitor, MutatingUseContext, PlaceContext, Visitor}; use rustc_middle::mir::*; use rustc_middle::ty::{self, TyCtxt}; use std::borrow::Cow; pub struct SimplifyCfg { label: String, } impl SimplifyCfg { pub fn new(label: &str) -> Self { SimplifyCfg { label: format!("SimplifyCfg-{}", label) } } } pub fn simplify_cfg(body: &mut BodyAndCache<'_>) { CfgSimplifier::new(body).simplify(); remove_dead_blocks(body); // FIXME: Should probably be moved into some kind of pass manager body.basic_blocks_mut().raw.shrink_to_fit(); } impl<'tcx> MirPass<'tcx> for SimplifyCfg { fn name(&self) -> Cow<'_, str> { Cow::Borrowed(&self.label) } fn run_pass(&self, _tcx: TyCtxt<'tcx>, _src: MirSource<'tcx>, body: &mut BodyAndCache<'tcx>) { debug!("SimplifyCfg({:?}) - simplifying {:?}", self.label, body); simplify_cfg(body); } } pub struct CfgSimplifier<'a, 'tcx> { basic_blocks: &'a mut IndexVec>, pred_count: IndexVec, } impl<'a, 'tcx> CfgSimplifier<'a, 'tcx> { pub fn new(body: &'a mut BodyAndCache<'tcx>) -> Self { let mut pred_count = IndexVec::from_elem(0u32, body.basic_blocks()); // we can't use mir.predecessors() here because that counts // dead blocks, which we don't want to. pred_count[START_BLOCK] = 1; for (_, data) in traversal::preorder(body) { if let Some(ref term) = data.terminator { for &tgt in term.successors() { pred_count[tgt] += 1; } } } let basic_blocks = body.basic_blocks_mut(); CfgSimplifier { basic_blocks, pred_count } } pub fn simplify(mut self) { self.strip_nops(); let mut start = START_BLOCK; // Vec of the blocks that should be merged. We store the indices here, instead of the // statements itself to avoid moving the (relatively) large statements twice. // We do not push the statements directly into the target block (`bb`) as that is slower // due to additional reallocations let mut merged_blocks = Vec::new(); loop { let mut changed = false; self.collapse_goto_chain(&mut start, &mut changed); for bb in self.basic_blocks.indices() { if self.pred_count[bb] == 0 { continue; } debug!("simplifying {:?}", bb); let mut terminator = self.basic_blocks[bb].terminator.take().expect("invalid terminator state"); for successor in terminator.successors_mut() { self.collapse_goto_chain(successor, &mut changed); } let mut inner_changed = true; merged_blocks.clear(); while inner_changed { inner_changed = false; inner_changed |= self.simplify_branch(&mut terminator); inner_changed |= self.merge_successor(&mut merged_blocks, &mut terminator); changed |= inner_changed; } let statements_to_merge = merged_blocks.iter().map(|&i| self.basic_blocks[i].statements.len()).sum(); if statements_to_merge > 0 { let mut statements = std::mem::take(&mut self.basic_blocks[bb].statements); statements.reserve(statements_to_merge); for &from in &merged_blocks { statements.append(&mut self.basic_blocks[from].statements); } self.basic_blocks[bb].statements = statements; } self.basic_blocks[bb].terminator = Some(terminator); changed |= inner_changed; } if !changed { break; } } if start != START_BLOCK { debug_assert!(self.pred_count[START_BLOCK] == 0); self.basic_blocks.swap(START_BLOCK, start); self.pred_count.swap(START_BLOCK, start); // pred_count == 1 if the start block has no predecessor _blocks_. if self.pred_count[START_BLOCK] > 1 { for (bb, data) in self.basic_blocks.iter_enumerated_mut() { if self.pred_count[bb] == 0 { continue; } for target in data.terminator_mut().successors_mut() { if *target == start { *target = START_BLOCK; } } } } } } // Collapse a goto chain starting from `start` fn collapse_goto_chain(&mut self, start: &mut BasicBlock, changed: &mut bool) { let mut terminator = match self.basic_blocks[*start] { BasicBlockData { ref statements, terminator: ref mut terminator @ Some(Terminator { kind: TerminatorKind::Goto { .. }, .. }), .. } if statements.is_empty() => terminator.take(), // if `terminator` is None, this means we are in a loop. In that // case, let all the loop collapse to its entry. _ => return, }; let target = match terminator { Some(Terminator { kind: TerminatorKind::Goto { ref mut target }, .. }) => { self.collapse_goto_chain(target, changed); *target } _ => unreachable!(), }; self.basic_blocks[*start].terminator = terminator; debug!("collapsing goto chain from {:?} to {:?}", *start, target); *changed |= *start != target; if self.pred_count[*start] == 1 { // This is the last reference to *start, so the pred-count to // to target is moved into the current block. self.pred_count[*start] = 0; } else { self.pred_count[target] += 1; self.pred_count[*start] -= 1; } *start = target; } // merge a block with 1 `goto` predecessor to its parent fn merge_successor( &mut self, merged_blocks: &mut Vec, terminator: &mut Terminator<'tcx>, ) -> bool { let target = match terminator.kind { TerminatorKind::Goto { target } if self.pred_count[target] == 1 => target, _ => return false, }; debug!("merging block {:?} into {:?}", target, terminator); *terminator = match self.basic_blocks[target].terminator.take() { Some(terminator) => terminator, None => { // unreachable loop - this should not be possible, as we // don't strand blocks, but handle it correctly. return false; } }; merged_blocks.push(target); self.pred_count[target] = 0; true } // turn a branch with all successors identical to a goto fn simplify_branch(&mut self, terminator: &mut Terminator<'tcx>) -> bool { match terminator.kind { TerminatorKind::SwitchInt { .. } => {} _ => return false, }; let first_succ = { if let Some(&first_succ) = terminator.successors().next() { if terminator.successors().all(|s| *s == first_succ) { let count = terminator.successors().count(); self.pred_count[first_succ] -= (count - 1) as u32; first_succ } else { return false; } } else { return false; } }; debug!("simplifying branch {:?}", terminator); terminator.kind = TerminatorKind::Goto { target: first_succ }; true } fn strip_nops(&mut self) { for blk in self.basic_blocks.iter_mut() { blk.statements .retain(|stmt| if let StatementKind::Nop = stmt.kind { false } else { true }) } } } pub fn remove_dead_blocks(body: &mut BodyAndCache<'_>) { let mut seen = BitSet::new_empty(body.basic_blocks().len()); for (bb, _) in traversal::preorder(body) { seen.insert(bb.index()); } let basic_blocks = body.basic_blocks_mut(); let num_blocks = basic_blocks.len(); let mut replacements: Vec<_> = (0..num_blocks).map(BasicBlock::new).collect(); let mut used_blocks = 0; for alive_index in seen.iter() { replacements[alive_index] = BasicBlock::new(used_blocks); if alive_index != used_blocks { // Swap the next alive block data with the current available slot. Since // alive_index is non-decreasing this is a valid operation. basic_blocks.raw.swap(alive_index, used_blocks); } used_blocks += 1; } basic_blocks.raw.truncate(used_blocks); for block in basic_blocks { for target in block.terminator_mut().successors_mut() { *target = replacements[target.index()]; } } } pub struct SimplifyLocals; impl<'tcx> MirPass<'tcx> for SimplifyLocals { fn run_pass(&self, tcx: TyCtxt<'tcx>, source: MirSource<'tcx>, body: &mut BodyAndCache<'tcx>) { trace!("running SimplifyLocals on {:?}", source); let mut used_locals = { let read_only_cache = read_only!(body); let mut marker = DeclMarker::new(body); marker.visit_body(&read_only_cache); marker.local_counts }; let arg_count = body.arg_count; loop { let mut remove_statements = RemoveStatements::new(&mut used_locals, arg_count, tcx); remove_statements.visit_body(body); if !remove_statements.modified { break; } } let map = make_local_map(&mut body.local_decls, used_locals, arg_count); // Only bother running the `LocalUpdater` if we actually found locals to remove. if map.iter().any(Option::is_none) { // Update references to all vars and tmps now let mut updater = LocalUpdater { map, tcx }; updater.visit_body(body); body.local_decls.shrink_to_fit(); } } } /// Construct the mapping while swapping out unused stuff out from the `vec`. fn make_local_map( local_decls: &mut IndexVec, used_locals: IndexVec, arg_count: usize, ) -> IndexVec> { let mut map: IndexVec> = IndexVec::from_elem(None, &*local_decls); let mut used = Local::new(0); for (alive_index, count) in used_locals.iter_enumerated() { // The `RETURN_PLACE` and arguments are always live. if alive_index.as_usize() > arg_count && *count == 0 { continue; } map[alive_index] = Some(used); if alive_index != used { local_decls.swap(alive_index, used); } used.increment_by(1); } local_decls.truncate(used.index()); map } struct DeclMarker<'a, 'tcx> { pub local_counts: IndexVec, pub body: &'a Body<'tcx>, } impl<'a, 'tcx> DeclMarker<'a, 'tcx> { pub fn new(body: &'a Body<'tcx>) -> Self { Self { local_counts: IndexVec::from_elem(0, &body.local_decls), body } } } impl<'a, 'tcx> Visitor<'tcx> for DeclMarker<'a, 'tcx> { fn visit_local(&mut self, local: &Local, ctx: PlaceContext, location: Location) { // Ignore storage markers altogether, they get removed along with their otherwise unused // decls. // FIXME: Extend this to all non-uses. if ctx.is_storage_marker() { return; } // Ignore stores of constants because `ConstProp` and `CopyProp` can remove uses of many // of these locals. However, if the local is still needed, then it will be referenced in // another place and we'll mark it as being used there. if ctx == PlaceContext::MutatingUse(MutatingUseContext::Store) || ctx == PlaceContext::MutatingUse(MutatingUseContext::Projection) { let block = &self.body.basic_blocks()[location.block]; if location.statement_index != block.statements.len() { let stmt = &block.statements[location.statement_index]; fn can_skip_constant(c: &ty::Const<'tcx>) -> bool { // Keep assignments from unevaluated constants around, since the // evaluation may report errors, even if the use of the constant // is dead code. !matches!(c.val, ty::ConstKind::Unevaluated(..)) } fn can_skip_operand(o: &Operand<'_>) -> bool { match o { Operand::Copy(p) | Operand::Move(p) => !p.is_indirect(), Operand::Constant(c) => can_skip_constant(c.literal), } } if let StatementKind::Assign(box (dest, rvalue)) = &stmt.kind { if !dest.is_indirect() && dest.local == *local { let can_skip = match rvalue { Rvalue::Use(op) => can_skip_operand(op), Rvalue::Discriminant(_) => true, Rvalue::BinaryOp(_, l, r) | Rvalue::CheckedBinaryOp(_, l, r) => { can_skip_operand(l) && can_skip_operand(r) } Rvalue::Repeat(op, c) => can_skip_operand(op) && can_skip_constant(c), Rvalue::AddressOf(_, _) => true, Rvalue::Len(_) => true, Rvalue::UnaryOp(_, op) => can_skip_operand(op), Rvalue::Aggregate(_, operands) => operands.iter().all(can_skip_operand), _ => false, }; if can_skip { trace!("skipping store of {:?} to {:?}", rvalue, dest); return; } } } } } self.local_counts[*local] += 1; } } struct StatementDeclMarker<'a, 'tcx> { used_locals: IndexVec, statement: &'a Statement<'tcx>, } impl<'a, 'tcx> StatementDeclMarker<'a, 'tcx> { pub fn new(local_count: usize, statement: &'a Statement<'tcx>) -> Self { Self { used_locals: IndexVec::from_elem_n(0, local_count), statement } } } impl<'a, 'tcx> Visitor<'tcx> for StatementDeclMarker<'a, 'tcx> { fn visit_local(&mut self, local: &Local, context: PlaceContext, _location: Location) { // Skip the lvalue for assignments if let StatementKind::Assign(box (p, _)) = self.statement.kind { if p.local == *local && context.is_place_assignment() { return; } } self.used_locals[*local] += 1; } } struct RemoveStatements<'a, 'tcx> { used_locals: &'a mut IndexVec, arg_count: usize, tcx: TyCtxt<'tcx>, modified: bool, } impl<'a, 'tcx> RemoveStatements<'a, 'tcx> { fn new( used_locals: &'a mut IndexVec, arg_count: usize, tcx: TyCtxt<'tcx>, ) -> Self { Self { used_locals, arg_count, tcx, modified: false } } fn keep_local(&self, l: Local) -> bool { trace!("keep_local({:?}): count: {:?}", l, self.used_locals[l]); l.as_usize() <= self.arg_count || self.used_locals[l] != 0 } } impl<'a, 'tcx> MutVisitor<'tcx> for RemoveStatements<'a, 'tcx> { fn tcx(&self) -> TyCtxt<'tcx> { self.tcx } fn visit_basic_block_data(&mut self, block: BasicBlock, data: &mut BasicBlockData<'tcx>) { // Remove unnecessary StorageLive and StorageDead annotations. let mut i = 0usize; data.statements.retain(|stmt| { let keep = match &stmt.kind { StatementKind::StorageLive(l) | StatementKind::StorageDead(l) => { self.keep_local(*l) } StatementKind::Assign(box (place, _)) => self.keep_local(place.local), _ => true, }; if !keep { trace!("removing statement {:?}", stmt); self.modified = true; let mut visitor = StatementDeclMarker::new(self.used_locals.len(), stmt); visitor.visit_statement(stmt, Location { block, statement_index: i }); for (local, count) in visitor.used_locals.iter_enumerated() { let used_count = &mut self.used_locals[local]; // If this is the local we're removing... if *used_count != 0 { *used_count -= count; } } } i += 1; keep }); self.super_basic_block_data(block, data); } } struct LocalUpdater<'tcx> { map: IndexVec>, tcx: TyCtxt<'tcx>, } impl<'tcx> MutVisitor<'tcx> for LocalUpdater<'tcx> { fn tcx(&self) -> TyCtxt<'tcx> { self.tcx } fn visit_local(&mut self, l: &mut Local, _: PlaceContext, _: Location) { *l = self.map[*l].unwrap(); } }