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Rollup merge of #140024 - cjgillot:continue-jumping, r=compiler-errors

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Remove early exits from JumpThreading.

This removes early exits from https://github.com/rust-lang/rust/pull/131203 as I asked during review.

The correctness of the backtracking is `mutated_statement` clearing all relevant conditions. If `process_statement` fails to insert a new condition, for instance by const-eval failure, `mutated_statement`  still removes the obsolete conditions from the state.

r? `@compiler-errors`
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Chris Denton 2025-04-19 19:30:49 +00:00 committed by GitHub
commit 98515864d2
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1 changed files with 64 additions and 71 deletions
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135
compiler/rustc_mir_transform/src/jump_threading.rs
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@ -90,11 +90,7 @@ impl<'tcx> crate::MirPass<'tcx> for JumpThreading {
};
for bb in body.basic_blocks.indices() {
let old_len = finder.opportunities.len();
// If we have any const-eval errors discard any opportunities found
if finder.start_from_switch(bb).is_none() {
finder.opportunities.truncate(old_len);
}
finder.start_from_switch(bb);
}
let opportunities = finder.opportunities;
@ -201,28 +197,26 @@ impl<'a, 'tcx> TOFinder<'a, 'tcx> {
/// Recursion entry point to find threading opportunities.
#[instrument(level = "trace", skip(self))]
fn start_from_switch(&mut self, bb: BasicBlock) -> Option<()> {
fn start_from_switch(&mut self, bb: BasicBlock) {
let bbdata = &self.body[bb];
if bbdata.is_cleanup || self.loop_headers.contains(bb) {
return Some(());
return;
}
let Some((discr, targets)) = bbdata.terminator().kind.as_switch() else { return Some(()) };
let Some(discr) = discr.place() else { return Some(()) };
let Some((discr, targets)) = bbdata.terminator().kind.as_switch() else { return };
let Some(discr) = discr.place() else { return };
debug!(?discr, ?bb);
let discr_ty = discr.ty(self.body, self.tcx).ty;
let Ok(discr_layout) = self.ecx.layout_of(discr_ty) else {
return Some(());
};
let Ok(discr_layout) = self.ecx.layout_of(discr_ty) else { return };
let Some(discr) = self.map.find(discr.as_ref()) else { return Some(()) };
let Some(discr) = self.map.find(discr.as_ref()) else { return };
debug!(?discr);
let cost = CostChecker::new(self.tcx, self.typing_env, None, self.body);
let mut state = State::new_reachable();
let conds = if let Some((value, then, else_)) = targets.as_static_if() {
let value = ScalarInt::try_from_uint(value, discr_layout.size)?;
let Some(value) = ScalarInt::try_from_uint(value, discr_layout.size) else { return };
self.arena.alloc_from_iter([
Condition { value, polarity: Polarity::Eq, target: then },
Condition { value, polarity: Polarity::Ne, target: else_ },
@ -248,10 +242,10 @@ impl<'a, 'tcx> TOFinder<'a, 'tcx> {
mut state: State<ConditionSet<'a>>,
mut cost: CostChecker<'_, 'tcx>,
depth: usize,
) -> Option<()> {
) {
// Do not thread through loop headers.
if self.loop_headers.contains(bb) {
return Some(());
return;
}
debug!(cost = ?cost.cost());
@ -259,16 +253,16 @@ impl<'a, 'tcx> TOFinder<'a, 'tcx> {
self.body.basic_blocks[bb].statements.iter().enumerate().rev()
{
if self.is_empty(&state) {
return Some(());
return;
}
cost.visit_statement(stmt, Location { block: bb, statement_index });
if cost.cost() > MAX_COST {
return Some(());
return;
}
// Attempt to turn the `current_condition` on `lhs` into a condition on another place.
self.process_statement(bb, stmt, &mut state)?;
self.process_statement(bb, stmt, &mut state);
// When a statement mutates a place, assignments to that place that happen
// above the mutation cannot fulfill a condition.
@ -280,7 +274,7 @@ impl<'a, 'tcx> TOFinder<'a, 'tcx> {
}
if self.is_empty(&state) || depth >= MAX_BACKTRACK {
return Some(());
return;
}
let last_non_rec = self.opportunities.len();
@ -293,9 +287,9 @@ impl<'a, 'tcx> TOFinder<'a, 'tcx> {
match term.kind {
TerminatorKind::SwitchInt { ref discr, ref targets } => {
self.process_switch_int(discr, targets, bb, &mut state);
self.find_opportunity(pred, state, cost, depth + 1)?;
self.find_opportunity(pred, state, cost, depth + 1);
}
_ => self.recurse_through_terminator(pred, || state, &cost, depth)?,
_ => self.recurse_through_terminator(pred, || state, &cost, depth),
}
} else if let &[ref predecessors @ .., last_pred] = &predecessors[..] {
for &pred in predecessors {
@ -320,13 +314,12 @@ impl<'a, 'tcx> TOFinder<'a, 'tcx> {
let first = &mut new_tos[0];
*first = ThreadingOpportunity { chain: vec![bb], target: first.target };
self.opportunities.truncate(last_non_rec + 1);
return Some(());
return;
}
for op in self.opportunities[last_non_rec..].iter_mut() {
op.chain.push(bb);
}
Some(())
}
/// Extract the mutated place from a statement.
@ -440,23 +433,23 @@ impl<'a, 'tcx> TOFinder<'a, 'tcx> {
lhs: PlaceIndex,
rhs: &Operand<'tcx>,
state: &mut State<ConditionSet<'a>>,
) -> Option<()> {
) {
match rhs {
// If we expect `lhs ?= A`, we have an opportunity if we assume `constant == A`.
Operand::Constant(constant) => {
let constant = self
.ecx
.eval_mir_constant(&constant.const_, constant.span, None)
.discard_err()?;
let Some(constant) =
self.ecx.eval_mir_constant(&constant.const_, constant.span, None).discard_err()
else {
return;
};
self.process_constant(bb, lhs, constant, state);
}
// Transfer the conditions on the copied rhs.
Operand::Move(rhs) | Operand::Copy(rhs) => {
let Some(rhs) = self.map.find(rhs.as_ref()) else { return Some(()) };
let Some(rhs) = self.map.find(rhs.as_ref()) else { return };
state.insert_place_idx(rhs, lhs, &self.map);
}
}
Some(())
}
#[instrument(level = "trace", skip(self))]
@ -466,18 +459,14 @@ impl<'a, 'tcx> TOFinder<'a, 'tcx> {
lhs_place: &Place<'tcx>,
rhs: &Rvalue<'tcx>,
state: &mut State<ConditionSet<'a>>,
) -> Option<()> {
let Some(lhs) = self.map.find(lhs_place.as_ref()) else {
return Some(());
};
) {
let Some(lhs) = self.map.find(lhs_place.as_ref()) else { return };
match rhs {
Rvalue::Use(operand) => self.process_operand(bb, lhs, operand, state)?,
Rvalue::Use(operand) => self.process_operand(bb, lhs, operand, state),
// Transfer the conditions on the copy rhs.
Rvalue::CopyForDeref(rhs) => {
self.process_operand(bb, lhs, &Operand::Copy(*rhs), state)?
}
Rvalue::CopyForDeref(rhs) => self.process_operand(bb, lhs, &Operand::Copy(*rhs), state),
Rvalue::Discriminant(rhs) => {
let Some(rhs) = self.map.find_discr(rhs.as_ref()) else { return Some(()) };
let Some(rhs) = self.map.find_discr(rhs.as_ref()) else { return };
state.insert_place_idx(rhs, lhs, &self.map);
}
// If we expect `lhs ?= A`, we have an opportunity if we assume `constant == A`.
@ -485,7 +474,7 @@ impl<'a, 'tcx> TOFinder<'a, 'tcx> {
let agg_ty = lhs_place.ty(self.body, self.tcx).ty;
let lhs = match kind {
// Do not support unions.
AggregateKind::Adt(.., Some(_)) => return Some(()),
AggregateKind::Adt(.., Some(_)) => return,
AggregateKind::Adt(_, variant_index, ..) if agg_ty.is_enum() => {
if let Some(discr_target) = self.map.apply(lhs, TrackElem::Discriminant)
&& let Some(discr_value) = self
@ -498,23 +487,23 @@ impl<'a, 'tcx> TOFinder<'a, 'tcx> {
if let Some(idx) = self.map.apply(lhs, TrackElem::Variant(*variant_index)) {
idx
} else {
return Some(());
return;
}
}
_ => lhs,
};
for (field_index, operand) in operands.iter_enumerated() {
if let Some(field) = self.map.apply(lhs, TrackElem::Field(field_index)) {
self.process_operand(bb, field, operand, state)?;
self.process_operand(bb, field, operand, state);
}
}
}
// Transfer the conditions on the copy rhs, after inverting the value of the condition.
Rvalue::UnaryOp(UnOp::Not, Operand::Move(place) | Operand::Copy(place)) => {
let layout = self.ecx.layout_of(place.ty(self.body, self.tcx).ty).unwrap();
let Some(conditions) = state.try_get_idx(lhs, &self.map) else { return Some(()) };
let Some(place) = self.map.find(place.as_ref()) else { return Some(()) };
let conds = conditions.map(self.arena, |mut cond| {
let Some(conditions) = state.try_get_idx(lhs, &self.map) else { return };
let Some(place) = self.map.find(place.as_ref()) else { return };
let Some(conds) = conditions.map(self.arena, |mut cond| {
cond.value = self
.ecx
.unary_op(UnOp::Not, &ImmTy::from_scalar_int(cond.value, layout))
@ -522,7 +511,9 @@ impl<'a, 'tcx> TOFinder<'a, 'tcx> {
.to_scalar_int()
.discard_err()?;
Some(cond)
})?;
}) else {
return;
};
state.insert_value_idx(place, conds, &self.map);
}
// We expect `lhs ?= A`. We found `lhs = Eq(rhs, B)`.
@ -532,34 +523,38 @@ impl<'a, 'tcx> TOFinder<'a, 'tcx> {
box (Operand::Move(place) | Operand::Copy(place), Operand::Constant(value))
| box (Operand::Constant(value), Operand::Move(place) | Operand::Copy(place)),
) => {
let Some(conditions) = state.try_get_idx(lhs, &self.map) else { return Some(()) };
let Some(place) = self.map.find(place.as_ref()) else { return Some(()) };
let Some(conditions) = state.try_get_idx(lhs, &self.map) else { return };
let Some(place) = self.map.find(place.as_ref()) else { return };
let equals = match op {
BinOp::Eq => ScalarInt::TRUE,
BinOp::Ne => ScalarInt::FALSE,
_ => return Some(()),
_ => return,
};
if value.const_.ty().is_floating_point() {
// Floating point equality does not follow bit-patterns.
// -0.0 and NaN both have special rules for equality,
// and therefore we cannot use integer comparisons for them.
// Avoid handling them, though this could be extended in the future.
return Some(());
return;
}
let value = value.const_.try_eval_scalar_int(self.tcx, self.typing_env)?;
let conds = conditions.map(self.arena, |c| {
let Some(value) = value.const_.try_eval_scalar_int(self.tcx, self.typing_env)
else {
return;
};
let Some(conds) = conditions.map(self.arena, |c| {
Some(Condition {
value,
polarity: if c.matches(equals) { Polarity::Eq } else { Polarity::Ne },
..c
})
})?;
}) else {
return;
};
state.insert_value_idx(place, conds, &self.map);
}
_ => {}
}
Some(())
}
#[instrument(level = "trace", skip(self))]
@ -568,7 +563,7 @@ impl<'a, 'tcx> TOFinder<'a, 'tcx> {
bb: BasicBlock,
stmt: &Statement<'tcx>,
state: &mut State<ConditionSet<'a>>,
) -> Option<()> {
) {
let register_opportunity = |c: Condition| {
debug!(?bb, ?c.target, "register");
self.opportunities.push(ThreadingOpportunity { chain: vec![bb], target: c.target })
@ -581,32 +576,30 @@ impl<'a, 'tcx> TOFinder<'a, 'tcx> {
// If we expect `discriminant(place) ?= A`,
// we have an opportunity if `variant_index ?= A`.
StatementKind::SetDiscriminant { box place, variant_index } => {
let Some(discr_target) = self.map.find_discr(place.as_ref()) else {
return Some(());
};
let Some(discr_target) = self.map.find_discr(place.as_ref()) else { return };
let enum_ty = place.ty(self.body, self.tcx).ty;
// `SetDiscriminant` guarantees that the discriminant is now `variant_index`.
// Even if the discriminant write does nothing due to niches, it is UB to set the
// discriminant when the data does not encode the desired discriminant.
let discr =
self.ecx.discriminant_for_variant(enum_ty, *variant_index).discard_err()?;
self.process_immediate(bb, discr_target, discr, state);
let Some(discr) =
self.ecx.discriminant_for_variant(enum_ty, *variant_index).discard_err()
else {
return;
};
self.process_immediate(bb, discr_target, discr, state)
}
// If we expect `lhs ?= true`, we have an opportunity if we assume `lhs == true`.
StatementKind::Intrinsic(box NonDivergingIntrinsic::Assume(
Operand::Copy(place) | Operand::Move(place),
)) => {
let Some(conditions) = state.try_get(place.as_ref(), &self.map) else {
return Some(());
};
conditions.iter_matches(ScalarInt::TRUE).for_each(register_opportunity);
let Some(conditions) = state.try_get(place.as_ref(), &self.map) else { return };
conditions.iter_matches(ScalarInt::TRUE).for_each(register_opportunity)
}
StatementKind::Assign(box (lhs_place, rhs)) => {
self.process_assign(bb, lhs_place, rhs, state)?;
self.process_assign(bb, lhs_place, rhs, state)
}
_ => {}
}
Some(())
}
#[instrument(level = "trace", skip(self, state, cost))]
@ -617,7 +610,7 @@ impl<'a, 'tcx> TOFinder<'a, 'tcx> {
state: impl FnOnce() -> State<ConditionSet<'a>>,
cost: &CostChecker<'_, 'tcx>,
depth: usize,
) -> Option<()> {
) {
let term = self.body.basic_blocks[bb].terminator();
let place_to_flood = match term.kind {
// We come from a target, so those are not possible.
@ -632,9 +625,9 @@ impl<'a, 'tcx> TOFinder<'a, 'tcx> {
| TerminatorKind::FalseUnwind { .. }
| TerminatorKind::Yield { .. } => bug!("{term:?} invalid"),
// Cannot reason about inline asm.
TerminatorKind::InlineAsm { .. } => return Some(()),
TerminatorKind::InlineAsm { .. } => return,
// `SwitchInt` is handled specially.
TerminatorKind::SwitchInt { .. } => return Some(()),
TerminatorKind::SwitchInt { .. } => return,
// We can recurse, no thing particular to do.
TerminatorKind::Goto { .. } => None,
// Flood the overwritten place, and progress through.