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New MIR Pass: SsaRangePropagation #150309

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0051e31
New MIR Pass: SsaRangePropagation
dianqk Dec 23, 2025
e9a67c7
Propagates assume
dianqk Jan 2, 2026
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6 changes: 6 additions & 0 deletions compiler/rustc_middle/src/mir/statement.rs
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Original file line number Diff line number Diff line change
Expand Up @@ -374,6 +374,12 @@ impl<'tcx> Place<'tcx> {
self.projection.iter().any(|elem| elem.is_indirect())
}

/// Returns `true` if the `Place` always refers to the same memory region
/// whatever the state of the program.
pub fn is_stable_offset(&self) -> bool {
self.projection.iter().all(|elem| elem.is_stable_offset())
}

/// Returns `true` if this `Place`'s first projection is `Deref`.
///
/// This is useful because for MIR phases `AnalysisPhase::PostCleanup` and later,
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4 changes: 4 additions & 0 deletions compiler/rustc_mir_transform/src/lib.rs
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Expand Up @@ -198,6 +198,7 @@ declare_passes! {
mod single_use_consts : SingleUseConsts;
mod sroa : ScalarReplacementOfAggregates;
mod strip_debuginfo : StripDebugInfo;
mod ssa_range_prop: SsaRangePropagation;
mod unreachable_enum_branching : UnreachableEnumBranching;
mod unreachable_prop : UnreachablePropagation;
mod validate : Validator;
Expand Down Expand Up @@ -741,6 +742,9 @@ pub(crate) fn run_optimization_passes<'tcx>(tcx: TyCtxt<'tcx>, body: &mut Body<'
&dead_store_elimination::DeadStoreElimination::Initial,
&gvn::GVN,
&simplify::SimplifyLocals::AfterGVN,
// This pass does attempt to track assignments.
// Keep it close to GVN which merges identical values into the same local.
&ssa_range_prop::SsaRangePropagation,
&match_branches::MatchBranchSimplification,
&dataflow_const_prop::DataflowConstProp,
&single_use_consts::SingleUseConsts,
Expand Down
219 changes: 219 additions & 0 deletions compiler/rustc_mir_transform/src/ssa_range_prop.rs
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@@ -0,0 +1,219 @@
//! A pass that propagates the known ranges of SSA locals.
//! We can know the ranges of SSA locals in certain locations for the following code:
//! ```
//! fn foo(a: u32) {
//! let b = a < 9; // the integer representation of b is within the full range [0, 2).
//! if b {
//! let c = b; // c is true since b is within the range [1, 2).
//! let d = a < 8; // d is true since a is within the range [0, 9).
//! }
//! }
//! ```
use rustc_abi::WrappingRange;
use rustc_const_eval::interpret::Scalar;
use rustc_data_structures::fx::FxHashMap;
use rustc_data_structures::graph::dominators::Dominators;
use rustc_index::bit_set::DenseBitSet;
use rustc_middle::mir::visit::MutVisitor;
use rustc_middle::mir::{BasicBlock, Body, Location, Operand, Place, TerminatorKind, *};
use rustc_middle::ty::{TyCtxt, TypingEnv};
use rustc_span::DUMMY_SP;

use crate::ssa::SsaLocals;

pub(super) struct SsaRangePropagation;

impl<'tcx> crate::MirPass<'tcx> for SsaRangePropagation {
fn is_enabled(&self, sess: &rustc_session::Session) -> bool {
sess.mir_opt_level() > 1
}

fn run_pass(&self, tcx: TyCtxt<'tcx>, body: &mut Body<'tcx>) {
let typing_env = body.typing_env(tcx);
let ssa = SsaLocals::new(tcx, body, typing_env);
// Clone dominators because we need them while mutating the body.
let dominators = body.basic_blocks.dominators().clone();
let mut range_set =
RangeSet::new(tcx, typing_env, body, &ssa, &body.local_decls, dominators);

let reverse_postorder = body.basic_blocks.reverse_postorder().to_vec();
for bb in reverse_postorder {
let data = &mut body.basic_blocks.as_mut_preserves_cfg()[bb];
range_set.visit_basic_block_data(bb, data);
}
}

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

struct RangeSet<'tcx, 'body, 'a> {
tcx: TyCtxt<'tcx>,
typing_env: TypingEnv<'tcx>,
ssa: &'a SsaLocals,
local_decls: &'body LocalDecls<'tcx>,
dominators: Dominators<BasicBlock>,
/// Known ranges at each locations.
ranges: FxHashMap<Place<'tcx>, Vec<(Location, WrappingRange)>>,
/// Determines if the basic block has a single unique predecessor.
unique_predecessors: DenseBitSet<BasicBlock>,
}

impl<'tcx, 'body, 'a> RangeSet<'tcx, 'body, 'a> {
fn new(
tcx: TyCtxt<'tcx>,
typing_env: TypingEnv<'tcx>,
body: &Body<'tcx>,
ssa: &'a SsaLocals,
local_decls: &'body LocalDecls<'tcx>,
dominators: Dominators<BasicBlock>,
) -> Self {
let predecessors = body.basic_blocks.predecessors();
let mut unique_predecessors = DenseBitSet::new_empty(body.basic_blocks.len());
for bb in body.basic_blocks.indices() {
if predecessors[bb].len() == 1 {
unique_predecessors.insert(bb);
}
}
RangeSet {
tcx,
typing_env,
ssa,
local_decls,
dominators,
ranges: FxHashMap::default(),
unique_predecessors,
}
}

/// Create a new known range at the location.
fn insert_range(&mut self, place: Place<'tcx>, location: Location, range: WrappingRange) {
assert!(self.is_ssa(place));
self.ranges.entry(place).or_default().push((location, range));
}

/// Get the known range at the location.
fn get_range(&self, place: &Place<'tcx>, location: Location) -> Option<WrappingRange> {
let Some(ranges) = self.ranges.get(place) else {
return None;
};
// FIXME: This should use the intersection of all valid ranges.
let (_, range) =
ranges.iter().find(|(range_loc, _)| range_loc.dominates(location, &self.dominators))?;
Some(*range)
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@cjgillot cjgillot Jan 11, 2026

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If we don't have a better range, should we fallback to the type-based range? For discriminants in particular?

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@dianqk dianqk Jan 12, 2026

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Yes. I will reland #148443 as a subsequent PR.

}

fn try_as_constant(
&mut self,
place: Place<'tcx>,
location: Location,
) -> Option<ConstOperand<'tcx>> {
if let Some(range) = self.get_range(&place, location)
&& range.start == range.end
{
let ty = place.ty(self.local_decls, self.tcx).ty;
let layout = self.tcx.layout_of(self.typing_env.as_query_input(ty)).ok()?;
let value = ConstValue::Scalar(Scalar::from_uint(range.start, layout.size));
let const_ = Const::Val(value, ty);
return Some(ConstOperand { span: DUMMY_SP, user_ty: None, const_ });
}
None
}

fn is_ssa(&self, place: Place<'tcx>) -> bool {
self.ssa.is_ssa(place.local) && place.is_stable_offset()
}
}

impl<'tcx> MutVisitor<'tcx> for RangeSet<'tcx, '_, '_> {
fn tcx(&self) -> TyCtxt<'tcx> {
self.tcx
}

fn visit_operand(&mut self, operand: &mut Operand<'tcx>, location: Location) {
// Attempts to simplify an operand to a constant value.
if let Some(place) = operand.place()
&& let Some(const_) = self.try_as_constant(place, location)
{
*operand = Operand::Constant(Box::new(const_));
};
}

fn visit_statement(&mut self, statement: &mut Statement<'tcx>, location: Location) {
self.super_statement(statement, location);
match &statement.kind {
StatementKind::Intrinsic(box NonDivergingIntrinsic::Assume(operand)) => {
if let Some(place) = operand.place()
&& self.is_ssa(place)
{
let successor = location.successor_within_block();
let range = WrappingRange { start: 1, end: 1 };
self.insert_range(place, successor, range);
}
}
_ => {}
}
}

fn visit_terminator(&mut self, terminator: &mut Terminator<'tcx>, location: Location) {
self.super_terminator(terminator, location);
match &terminator.kind {
TerminatorKind::Assert { cond, expected, target, .. } => {
if let Some(place) = cond.place()
&& self.is_ssa(place)
{
let successor = Location { block: *target, statement_index: 0 };
if location.dominates(successor, &self.dominators) {
assert_ne!(location.block, successor.block);
let val = *expected as u128;
let range = WrappingRange { start: val, end: val };
self.insert_range(place, successor, range);
}
}
}
TerminatorKind::SwitchInt { discr, targets } => {
if let Some(place) = discr.place()
&& self.is_ssa(place)
// Reduce the potential compile-time overhead.
&& targets.all_targets().len() < 16
{
let mut distinct_targets: FxHashMap<BasicBlock, u64> = FxHashMap::default();
for (_, target) in targets.iter() {
let targets = distinct_targets.entry(target).or_default();
*targets += 1;
}
for (val, target) in targets.iter() {
if distinct_targets[&target] != 1 {
// FIXME: For multiple targets, the range can be the union of their values.
continue;
}
let successor = Location { block: target, statement_index: 0 };
if self.unique_predecessors.contains(successor.block) {
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Can we use location.dominates(successor, &self.dominators) here too?

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@dianqk dianqk Jan 12, 2026

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No. SwitchInt has multiple targets. For instance, bb0 dominates bb2, but the match value can be 1 or 2 in bb2. on_if_2 show this case.

graph TD;
    bb0(["bb0: match(1:bb1, 2:bb2)"])-->|1|bb1;
    bb0-->|2|bb2;
    bb1-->bb2;
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There is another case. The test case is on_match_2. bb0 dominates bb1, but the match value can be 1 or 2.

graph TD;
    bb0(["bb0: match(1:bb1, 2:bb1)"])-->|1|bb1;
    bb0-->|2|bb1;
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assert_ne!(location.block, successor.block);
let range = WrappingRange { start: val, end: val };
self.insert_range(place, successor, range);
}
}

// FIXME: The range for the otherwise target be extend to more types.
// For instance, `val` is within the range [4, 1) at the otherwise target of `matches!(val, 1 | 2 | 3)`.
let otherwise = Location { block: targets.otherwise(), statement_index: 0 };
if place.ty(self.local_decls, self.tcx).ty.is_bool()
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Do you mind leaving a FIXME to extend this to other types?

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@dianqk dianqk Jan 8, 2026

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I have left a FIXME. Those FIXMEs can be fixed when it shows beneficial.

&& let [val] = targets.all_values()
&& self.unique_predecessors.contains(otherwise.block)
{
assert_ne!(location.block, otherwise.block);
let range = if val.get() == 0 {
WrappingRange { start: 1, end: 1 }
} else {
WrappingRange { start: 0, end: 0 }
};
self.insert_range(place, otherwise, range);
}
}
}
_ => {}
}
}
}
69 changes: 69 additions & 0 deletions tests/mir-opt/range/ssa_range.on_assert.SsaRangePropagation.diff
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@@ -0,0 +1,69 @@
- // MIR for `on_assert` before SsaRangePropagation
+ // MIR for `on_assert` after SsaRangePropagation

fn on_assert(_1: usize, _2: &[u8]) -> u8 {
debug i => _1;
debug v => _2;
let mut _0: u8;
let _3: ();
let mut _4: bool;
let mut _5: usize;
let mut _6: usize;
let mut _7: &[u8];
let mut _8: !;
let _9: usize;
let mut _10: usize;
let mut _11: bool;
scope 1 (inlined core::slice::<impl [u8]>::len) {
scope 2 (inlined std::ptr::metadata::<[u8]>) {
}
}

bb0: {
StorageLive(_3);
nop;
StorageLive(_5);
_5 = copy _1;
nop;
StorageLive(_7);
_7 = &(*_2);
_6 = PtrMetadata(copy _2);
StorageDead(_7);
_4 = Lt(copy _1, copy _6);
switchInt(copy _4) -> [0: bb2, otherwise: bb1];
}

bb1: {
nop;
StorageDead(_5);
_3 = const ();
nop;
StorageDead(_3);
StorageLive(_9);
_9 = copy _1;
_10 = copy _6;
- _11 = copy _4;
- assert(copy _4, "index out of bounds: the length is {} but the index is {}", copy _6, copy _1) -> [success: bb3, unwind unreachable];
+ _11 = const true;
+ assert(const true, "index out of bounds: the length is {} but the index is {}", copy _6, copy _1) -> [success: bb3, unwind unreachable];
}

bb2: {
nop;
StorageDead(_5);
StorageLive(_8);
_8 = panic(const "assertion failed: i < v.len()") -> unwind unreachable;
}

bb3: {
_0 = copy (*_2)[_1];
StorageDead(_9);
return;
}
}

ALLOC0 (size: 29, align: 1) {
0x00 │ 61 73 73 65 72 74 69 6f 6e 20 66 61 69 6c 65 64 │ assertion failed
0x10 │ 3a 20 69 20 3c 20 76 2e 6c 65 6e 28 29 │ : i < v.len()
}

56 changes: 56 additions & 0 deletions tests/mir-opt/range/ssa_range.on_assume.SsaRangePropagation.diff
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@@ -0,0 +1,56 @@
- // MIR for `on_assume` before SsaRangePropagation
+ // MIR for `on_assume` after SsaRangePropagation

fn on_assume(_1: usize, _2: &[u8]) -> u8 {
debug i => _1;
debug v => _2;
let mut _0: u8;
let _3: ();
let _4: ();
let mut _5: bool;
let mut _6: usize;
let mut _7: usize;
let mut _8: &[u8];
let _9: usize;
let mut _10: usize;
let mut _11: bool;
scope 1 (inlined core::slice::<impl [u8]>::len) {
scope 2 (inlined std::ptr::metadata::<[u8]>) {
}
}

bb0: {
StorageLive(_3);
StorageLive(_4);
nop;
StorageLive(_6);
_6 = copy _1;
nop;
StorageLive(_8);
_8 = &(*_2);
_7 = PtrMetadata(copy _2);
StorageDead(_8);
_5 = Lt(copy _1, copy _7);
nop;
StorageDead(_6);
assume(copy _5);
nop;
StorageDead(_4);
_3 = const ();
StorageDead(_3);
StorageLive(_9);
_9 = copy _1;
_10 = copy _7;
- _11 = copy _5;
- assert(copy _5, "index out of bounds: the length is {} but the index is {}", copy _7, copy _1) -> [success: bb1, unwind unreachable];
+ _11 = const true;
+ assert(const true, "index out of bounds: the length is {} but the index is {}", copy _7, copy _1) -> [success: bb1, unwind unreachable];
}

bb1: {
_0 = copy (*_2)[_1];
StorageDead(_9);
return;
}
}

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