@@ -659,8 +659,7 @@ fn codegen_regular_intrinsic_call<'tcx>(
659659 intrinsic_args ! ( fx, args => ( x, y, z) ; intrinsic) ;
660660 let layout = x. layout ( ) ;
661661
662- let width_bits = layout. size . bits ( ) as u64 ;
663- let width_bits = fx. bcx . ins ( ) . iconst ( types:: I32 , width_bits as i64 ) ;
662+ let width_bits = layout. size . bits ( ) as i64 ;
664663
665664 let lhs_bits = x. load_scalar ( fx) ;
666665 let rhs_bits = y. load_scalar ( fx) ;
@@ -669,17 +668,17 @@ fn codegen_regular_intrinsic_call<'tcx>(
669668 let ty = fx. bcx . func . dfg . value_type ( lhs_bits) ;
670669 let zero = fx. bcx . ins ( ) . iconst ( ty, 0 ) ;
671670
672- let shift_bits = fx. bcx . ins ( ) . urem ( raw_shift_bits, width_bits) ;
671+ let shift_bits = fx. bcx . ins ( ) . band_imm ( raw_shift_bits, width_bits - 1 ) ;
673672
674673 // lhs_bits << shift_bits
675674 let shl = fx. bcx . ins ( ) . ishl ( lhs_bits, shift_bits) ;
676675
677- let inv_shift_bits = fx. bcx . ins ( ) . isub ( width_bits , shift_bits ) ;
676+ let inv_shift_bits = fx. bcx . ins ( ) . irsub_imm ( shift_bits , width_bits ) ;
678677
679- // rhs_bits.bounded_shr (inv_shift_bits)
680- let inv_shift_bits_mod = fx. bcx . ins ( ) . urem ( inv_shift_bits, width_bits) ;
678+ // rhs_bits.unbounded_shr (inv_shift_bits)
679+ let inv_shift_bits_mod = fx. bcx . ins ( ) . band_imm ( inv_shift_bits, width_bits - 1 ) ;
681680 let shr = fx. bcx . ins ( ) . ushr ( rhs_bits, inv_shift_bits_mod) ;
682- let is_zero = fx. bcx . ins ( ) . icmp ( IntCC :: Equal , inv_shift_bits_mod , zero ) ;
681+ let is_zero = fx. bcx . ins ( ) . icmp_imm ( IntCC :: Equal , shift_bits , 0 ) ;
683682 let shr = fx. bcx . ins ( ) . select ( is_zero, zero, shr) ;
684683
685684 let res = fx. bcx . ins ( ) . bor ( shr, shl) ;
@@ -689,8 +688,7 @@ fn codegen_regular_intrinsic_call<'tcx>(
689688 intrinsic_args ! ( fx, args => ( x, y, z) ; intrinsic) ;
690689 let layout = x. layout ( ) ;
691690
692- let width_bits = layout. size . bits ( ) as u64 ;
693- let width_bits = fx. bcx . ins ( ) . iconst ( types:: I32 , width_bits as i64 ) ;
691+ let width_bits = layout. size . bits ( ) as i64 ;
694692
695693 let lhs_bits = x. load_scalar ( fx) ;
696694 let rhs_bits = y. load_scalar ( fx) ;
@@ -699,17 +697,17 @@ fn codegen_regular_intrinsic_call<'tcx>(
699697 let ty = fx. bcx . func . dfg . value_type ( lhs_bits) ;
700698 let zero = fx. bcx . ins ( ) . iconst ( ty, 0 ) ;
701699
702- let shift_bits = fx. bcx . ins ( ) . urem ( raw_shift_bits, width_bits) ;
700+ let shift_bits = fx. bcx . ins ( ) . band_imm ( raw_shift_bits, width_bits - 1 ) ;
703701
704702 // rhs_bits >> shift_bits
705703 let shr = fx. bcx . ins ( ) . ushr ( rhs_bits, shift_bits) ;
706704
707- let inv_shift_bits = fx. bcx . ins ( ) . isub ( width_bits , shift_bits ) ;
705+ let inv_shift_bits = fx. bcx . ins ( ) . irsub_imm ( shift_bits , width_bits ) ;
708706
709- // lhs_bits.bounded_shl (inv_shift_bits)
710- let inv_shift_bits_mod = fx. bcx . ins ( ) . urem ( inv_shift_bits, width_bits) ;
707+ // lhs_bits.unbounded_shl (inv_shift_bits)
708+ let inv_shift_bits_mod = fx. bcx . ins ( ) . band_imm ( inv_shift_bits, width_bits - 1 ) ;
711709 let shl = fx. bcx . ins ( ) . ishl ( lhs_bits, inv_shift_bits_mod) ;
712- let is_zero = fx. bcx . ins ( ) . icmp ( IntCC :: Equal , inv_shift_bits_mod , zero ) ;
710+ let is_zero = fx. bcx . ins ( ) . icmp_imm ( IntCC :: Equal , shift_bits , 0 ) ;
713711 let shl = fx. bcx . ins ( ) . select ( is_zero, zero, shl) ;
714712
715713 let res = fx. bcx . ins ( ) . bor ( shr, shl) ;
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