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|
//! Performs various peephole optimizations.
use crate::MirPass;
use rustc_hir::Mutability;
use rustc_middle::mir::{
BinOp, Body, Constant, ConstantKind, LocalDecls, Operand, Place, ProjectionElem, Rvalue,
SourceInfo, Statement, StatementKind, Terminator, TerminatorKind, UnOp,
};
use rustc_middle::ty::{self, TyCtxt};
pub struct InstCombine;
impl<'tcx> MirPass<'tcx> for InstCombine {
fn is_enabled(&self, sess: &rustc_session::Session) -> bool {
sess.mir_opt_level() > 0
}
fn run_pass(&self, tcx: TyCtxt<'tcx>, body: &mut Body<'tcx>) {
let ctx = InstCombineContext { tcx, local_decls: &body.local_decls };
for block in body.basic_blocks.as_mut() {
for statement in block.statements.iter_mut() {
match statement.kind {
StatementKind::Assign(box (_place, ref mut rvalue)) => {
ctx.combine_bool_cmp(&statement.source_info, rvalue);
ctx.combine_ref_deref(&statement.source_info, rvalue);
ctx.combine_len(&statement.source_info, rvalue);
}
_ => {}
}
}
ctx.combine_primitive_clone(
&mut block.terminator.as_mut().unwrap(),
&mut block.statements,
);
}
}
}
struct InstCombineContext<'tcx, 'a> {
tcx: TyCtxt<'tcx>,
local_decls: &'a LocalDecls<'tcx>,
}
impl<'tcx> InstCombineContext<'tcx, '_> {
fn should_combine(&self, source_info: &SourceInfo, rvalue: &Rvalue<'tcx>) -> bool {
self.tcx.consider_optimizing(|| {
format!("InstCombine - Rvalue: {:?} SourceInfo: {:?}", rvalue, source_info)
})
}
/// Transform boolean comparisons into logical operations.
fn combine_bool_cmp(&self, source_info: &SourceInfo, rvalue: &mut Rvalue<'tcx>) {
match rvalue {
Rvalue::BinaryOp(op @ (BinOp::Eq | BinOp::Ne), box (a, b)) => {
let new = match (op, self.try_eval_bool(a), self.try_eval_bool(b)) {
// Transform "Eq(a, true)" ==> "a"
(BinOp::Eq, _, Some(true)) => Some(Rvalue::Use(a.clone())),
// Transform "Ne(a, false)" ==> "a"
(BinOp::Ne, _, Some(false)) => Some(Rvalue::Use(a.clone())),
// Transform "Eq(true, b)" ==> "b"
(BinOp::Eq, Some(true), _) => Some(Rvalue::Use(b.clone())),
// Transform "Ne(false, b)" ==> "b"
(BinOp::Ne, Some(false), _) => Some(Rvalue::Use(b.clone())),
// Transform "Eq(false, b)" ==> "Not(b)"
(BinOp::Eq, Some(false), _) => Some(Rvalue::UnaryOp(UnOp::Not, b.clone())),
// Transform "Ne(true, b)" ==> "Not(b)"
(BinOp::Ne, Some(true), _) => Some(Rvalue::UnaryOp(UnOp::Not, b.clone())),
// Transform "Eq(a, false)" ==> "Not(a)"
(BinOp::Eq, _, Some(false)) => Some(Rvalue::UnaryOp(UnOp::Not, a.clone())),
// Transform "Ne(a, true)" ==> "Not(a)"
(BinOp::Ne, _, Some(true)) => Some(Rvalue::UnaryOp(UnOp::Not, a.clone())),
_ => None,
};
if let Some(new) = new && self.should_combine(source_info, rvalue) {
*rvalue = new;
}
}
_ => {}
}
}
fn try_eval_bool(&self, a: &Operand<'_>) -> Option<bool> {
let a = a.constant()?;
if a.literal.ty().is_bool() { a.literal.try_to_bool() } else { None }
}
/// Transform "&(*a)" ==> "a".
fn combine_ref_deref(&self, source_info: &SourceInfo, rvalue: &mut Rvalue<'tcx>) {
if let Rvalue::Ref(_, _, place) = rvalue {
if let Some((base, ProjectionElem::Deref)) = place.as_ref().last_projection() {
if let ty::Ref(_, _, Mutability::Not) =
base.ty(self.local_decls, self.tcx).ty.kind()
{
// The dereferenced place must have type `&_`, so that we don't copy `&mut _`.
} else {
return;
}
if !self.should_combine(source_info, rvalue) {
return;
}
*rvalue = Rvalue::Use(Operand::Copy(Place {
local: base.local,
projection: self.tcx.intern_place_elems(base.projection),
}));
}
}
}
/// Transform "Len([_; N])" ==> "N".
fn combine_len(&self, source_info: &SourceInfo, rvalue: &mut Rvalue<'tcx>) {
if let Rvalue::Len(ref place) = *rvalue {
let place_ty = place.ty(self.local_decls, self.tcx).ty;
if let ty::Array(_, len) = *place_ty.kind() {
if !self.should_combine(source_info, rvalue) {
return;
}
let literal = ConstantKind::from_const(len, self.tcx);
let constant = Constant { span: source_info.span, literal, user_ty: None };
*rvalue = Rvalue::Use(Operand::Constant(Box::new(constant)));
}
}
}
fn combine_primitive_clone(
&self,
terminator: &mut Terminator<'tcx>,
statements: &mut Vec<Statement<'tcx>>,
) {
let TerminatorKind::Call { func, args, destination, target, .. } = &mut terminator.kind
else { return };
// It's definitely not a clone if there are multiple arguments
if args.len() != 1 {
return;
}
let Some(destination_block) = *target
else { return };
// Only bother looking more if it's easy to know what we're calling
let Some((fn_def_id, fn_substs)) = func.const_fn_def()
else { return };
// Clone needs one subst, so we can cheaply rule out other stuff
if fn_substs.len() != 1 {
return;
}
// These types are easily available from locals, so check that before
// doing DefId lookups to figure out what we're actually calling.
let arg_ty = args[0].ty(self.local_decls, self.tcx);
let ty::Ref(_region, inner_ty, Mutability::Not) = *arg_ty.kind()
else { return };
if !inner_ty.is_trivially_pure_clone_copy() {
return;
}
let trait_def_id = self.tcx.trait_of_item(fn_def_id);
if trait_def_id.is_none() || trait_def_id != self.tcx.lang_items().clone_trait() {
return;
}
if !self.tcx.consider_optimizing(|| {
format!(
"InstCombine - Call: {:?} SourceInfo: {:?}",
(fn_def_id, fn_substs),
terminator.source_info
)
}) {
return;
}
let Some(arg_place) = args.pop().unwrap().place()
else { return };
statements.push(Statement {
source_info: terminator.source_info,
kind: StatementKind::Assign(Box::new((
*destination,
Rvalue::Use(Operand::Copy(
arg_place.project_deeper(&[ProjectionElem::Deref], self.tcx),
)),
))),
});
terminator.kind = TerminatorKind::Goto { target: destination_block };
}
}
|
