@@ -138,8 +138,17 @@ fn univariant_uninterned<'tcx>(
138138 if optimize {
139139 let end = if let StructKind::MaybeUnsized = kind { fields.len() - 1 } else { fields.len() };
140140 let optimizing = &mut inverse_memory_index[..end];
141- let field_align = |f: &TyAndLayout<'_>| {
142- if let Some(pack) = pack { f.align.abi.min(pack) } else { f.align.abi }
141+ let effective_field_align = |f: &TyAndLayout<'_>| {
142+ if let Some(pack) = pack {
143+ f.align.abi.min(pack)
144+ } else if f.size.bytes().is_power_of_two() && f.size.bytes() >= f.align.abi.bytes() {
145+ // Try to put fields which have a 2^n size and smaller alignment together with
146+ // fields that have an alignment matching that size.
147+ // E.g. group [u8; 4] with u32 fields
148+ Align::from_bytes(f.align.abi.bytes()).unwrap_or(f.align.abi)
149+ } else {
150+ f.align.abi
151+ }
143152 };
144153
145154 // If `-Z randomize-layout` was enabled for the type definition we can shuffle
@@ -161,14 +170,14 @@ fn univariant_uninterned<'tcx>(
161170 // Place ZSTs first to avoid "interesting offsets",
162171 // especially with only one or two non-ZST fields.
163172 let f = &fields[x as usize];
164- (!f.is_zst(), cmp::Reverse(field_align (f)))
173+ (!f.is_zst(), cmp::Reverse(effective_field_align (f)))
165174 });
166175 }
167176
168177 StructKind::Prefixed(..) => {
169178 // Sort in ascending alignment so that the layout stays optimal
170179 // regardless of the prefix
171- optimizing.sort_by_key(|&x| field_align (&fields[x as usize]));
180+ optimizing.sort_by_key(|&x| effective_field_align (&fields[x as usize]));
172181 }
173182 }
174183
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