[codegen] assume the tag, not the relative discriminant
This commit is contained in:
Scott McMurray
@@ -498,6 +498,35 @@ impl<'a, 'tcx, V: CodegenObject> OperandRef<'tcx, V> {
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bx.cx().const_uint(cast_to, niche_variants.start().as_u32() as u64);
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(is_niche, tagged_discr, 0)
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} else {
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// Thanks to parameter attributes and load metadata, LLVM already knows
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// the general valid range of the tag. It's possible, though, for there
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// to be an impossible value *in the middle*, which those ranges don't
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// communicate, so it's worth an `assume` to let the optimizer know.
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// Most importantly, this means when optimizing a variant test like
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// `SELECT(is_niche, complex, CONST) == CONST` it's ok to simplify that
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// to `!is_niche` because the `complex` part can't possibly match.
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//
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// This was previously asserted on `tagged_discr` below, where the
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// impossible value is more obvious, but that caused an intermediate
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// value to become multi-use and thus not optimize, so instead this
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// assumes on the original input which is always multi-use. See
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// <https://github.com/llvm/llvm-project/issues/134024#issuecomment-3131782555>
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//
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// FIXME: If we ever get range assume operand bundles in LLVM (so we
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// don't need the `icmp`s in the instruction stream any more), it
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// might be worth moving this back to being on the switch argument
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// where it's more obviously applicable.
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if niche_variants.contains(&untagged_variant)
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&& bx.cx().sess().opts.optimize != OptLevel::No
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{
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let impossible = niche_start
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.wrapping_add(u128::from(untagged_variant.as_u32()))
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.wrapping_sub(u128::from(niche_variants.start().as_u32()));
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let impossible = bx.cx().const_uint_big(tag_llty, impossible);
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let ne = bx.icmp(IntPredicate::IntNE, tag, impossible);
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bx.assume(ne);
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}
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// With multiple niched variants we'll have to actually compute
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// the variant index from the stored tag.
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//
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@@ -588,20 +617,6 @@ impl<'a, 'tcx, V: CodegenObject> OperandRef<'tcx, V> {
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let untagged_variant_const =
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bx.cx().const_uint(cast_to, u64::from(untagged_variant.as_u32()));
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// Thanks to parameter attributes and load metadata, LLVM already knows
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// the general valid range of the tag. It's possible, though, for there
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// to be an impossible value *in the middle*, which those ranges don't
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// communicate, so it's worth an `assume` to let the optimizer know.
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// Most importantly, this means when optimizing a variant test like
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// `SELECT(is_niche, complex, CONST) == CONST` it's ok to simplify that
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// to `!is_niche` because the `complex` part can't possibly match.
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if niche_variants.contains(&untagged_variant)
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&& bx.cx().sess().opts.optimize != OptLevel::No
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{
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let ne = bx.icmp(IntPredicate::IntNE, tagged_discr, untagged_variant_const);
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bx.assume(ne);
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}
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let discr = bx.select(is_niche, tagged_discr, untagged_variant_const);
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// In principle we could insert assumes on the possible range of `discr`, but
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