; NOTE: Assertions have been autogenerated by utils/update_llc_test_checks.py ; RUN: llc --mtriple=loongarch32 < %s | FileCheck %s --check-prefix=LA32 ; RUN: llc --mtriple=loongarch64 < %s | FileCheck %s --check-prefix=LA64 define i8 @atomicrmw_xchg_i8_acquire(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_xchg_i8_acquire: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB0_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: addi.w $a5, $a1, 0 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a3 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB0_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_i8_acquire: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: addi.w $a3, $a3, 0 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB0_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: addi.w $a5, $a1, 0 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a3 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB0_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i8 %b acquire ret i8 %1 } define i8 @atomicrmw_xchg_0_i8_acquire(ptr %a) nounwind { ; LA32-LABEL: atomicrmw_xchg_0_i8_acquire: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a1, $a0, 3 ; LA32-NEXT: ori $a2, $zero, 255 ; LA32-NEXT: sll.w $a2, $a2, $a1 ; LA32-NEXT: nor $a2, $a2, $zero ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB1_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: and $a4, $a3, $a2 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB1_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a1 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_0_i8_acquire: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a1, $a0, 3 ; LA64-NEXT: ori $a2, $zero, 255 ; LA64-NEXT: sll.w $a2, $a2, $a1 ; LA64-NEXT: nor $a2, $a2, $zero ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amand_db.w $a3, $a2, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a1 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i8 0 acquire ret i8 %1 } define i8 @atomicrmw_xchg_minus_1_i8_acquire(ptr %a) nounwind { ; LA32-LABEL: atomicrmw_xchg_minus_1_i8_acquire: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a1, $a0, 3 ; LA32-NEXT: ori $a2, $zero, 255 ; LA32-NEXT: sll.w $a2, $a2, $a1 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB2_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: or $a4, $a3, $a2 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB2_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a1 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_minus_1_i8_acquire: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a1, $a0, 3 ; LA64-NEXT: ori $a2, $zero, 255 ; LA64-NEXT: sll.w $a2, $a2, $a1 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amor_db.w $a3, $a2, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a1 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i8 -1 acquire ret i8 %1 } define i16 @atomicrmw_xchg_i16_acquire(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_xchg_i16_acquire: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB3_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: addi.w $a5, $a1, 0 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a2 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB3_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_i16_acquire: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: addi.w $a2, $a2, 0 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB3_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: addi.w $a5, $a1, 0 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a2 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB3_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a3 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i16 %b acquire ret i16 %1 } define i16 @atomicrmw_xchg_0_i16_acquire(ptr %a) nounwind { ; LA32-LABEL: atomicrmw_xchg_0_i16_acquire: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a1, 15 ; LA32-NEXT: ori $a1, $a1, 4095 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: nor $a1, $a1, $zero ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB4_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: and $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB4_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_0_i16_acquire: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a1, 15 ; LA64-NEXT: ori $a1, $a1, 4095 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: nor $a1, $a1, $zero ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amand_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i16 0 acquire ret i16 %1 } define i16 @atomicrmw_xchg_minus_1_i16_acquire(ptr %a) nounwind { ; LA32-LABEL: atomicrmw_xchg_minus_1_i16_acquire: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a1, 15 ; LA32-NEXT: ori $a1, $a1, 4095 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB5_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: or $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB5_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_minus_1_i16_acquire: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a1, 15 ; LA64-NEXT: ori $a1, $a1, 4095 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i16 -1 acquire ret i16 %1 } define i32 @atomicrmw_xchg_i32_acquire(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_xchg_i32_acquire: ; LA32: # %bb.0: ; LA32-NEXT: .LBB6_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: move $a3, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB6_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_i32_acquire: ; LA64: # %bb.0: ; LA64-NEXT: amswap_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i32 %b acquire ret i32 %1 } define i64 @atomicrmw_xchg_i64_acquire(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_xchg_i64_acquire: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 2 ; LA32-NEXT: bl %plt(__atomic_exchange_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_i64_acquire: ; LA64: # %bb.0: ; LA64-NEXT: amswap_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i64 %b acquire ret i64 %1 } define i8 @atomicrmw_add_i8_acquire(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_add_i8_acquire: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB8_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: add.w $a5, $a4, $a1 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a3 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB8_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_add_i8_acquire: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: addi.w $a3, $a3, 0 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB8_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: add.w $a5, $a4, $a1 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a3 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB8_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a2 ; LA64-NEXT: ret %1 = atomicrmw add ptr %a, i8 %b acquire ret i8 %1 } define i16 @atomicrmw_add_i16_acquire(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_add_i16_acquire: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB9_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: add.w $a5, $a4, $a1 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a2 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB9_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_add_i16_acquire: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: addi.w $a2, $a2, 0 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB9_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: add.w $a5, $a4, $a1 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a2 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB9_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a3 ; LA64-NEXT: ret %1 = atomicrmw add ptr %a, i16 %b acquire ret i16 %1 } define i32 @atomicrmw_add_i32_acquire(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_add_i32_acquire: ; LA32: # %bb.0: ; LA32-NEXT: .LBB10_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: add.w $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB10_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_add_i32_acquire: ; LA64: # %bb.0: ; LA64-NEXT: amadd_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw add ptr %a, i32 %b acquire ret i32 %1 } define i64 @atomicrmw_add_i64_acquire(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_add_i64_acquire: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 2 ; LA32-NEXT: bl %plt(__atomic_fetch_add_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_add_i64_acquire: ; LA64: # %bb.0: ; LA64-NEXT: amadd_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw add ptr %a, i64 %b acquire ret i64 %1 } define i8 @atomicrmw_sub_i8_acquire(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_sub_i8_acquire: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB12_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: sub.w $a5, $a4, $a1 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a3 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB12_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_sub_i8_acquire: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: addi.w $a3, $a3, 0 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB12_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: sub.w $a5, $a4, $a1 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a3 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB12_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a2 ; LA64-NEXT: ret %1 = atomicrmw sub ptr %a, i8 %b acquire ret i8 %1 } define i16 @atomicrmw_sub_i16_acquire(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_sub_i16_acquire: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB13_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: sub.w $a5, $a4, $a1 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a2 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB13_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_sub_i16_acquire: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: addi.w $a2, $a2, 0 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB13_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: sub.w $a5, $a4, $a1 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a2 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB13_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a3 ; LA64-NEXT: ret %1 = atomicrmw sub ptr %a, i16 %b acquire ret i16 %1 } define i32 @atomicrmw_sub_i32_acquire(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_sub_i32_acquire: ; LA32: # %bb.0: ; LA32-NEXT: .LBB14_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: sub.w $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB14_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_sub_i32_acquire: ; LA64: # %bb.0: ; LA64-NEXT: sub.w $a2, $zero, $a1 ; LA64-NEXT: amadd_db.w $a1, $a2, $a0 ; LA64-NEXT: move $a0, $a1 ; LA64-NEXT: ret %1 = atomicrmw sub ptr %a, i32 %b acquire ret i32 %1 } define i64 @atomicrmw_sub_i64_acquire(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_sub_i64_acquire: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 2 ; LA32-NEXT: bl %plt(__atomic_fetch_sub_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_sub_i64_acquire: ; LA64: # %bb.0: ; LA64-NEXT: sub.d $a2, $zero, $a1 ; LA64-NEXT: amadd_db.d $a1, $a2, $a0 ; LA64-NEXT: move $a0, $a1 ; LA64-NEXT: ret %1 = atomicrmw sub ptr %a, i64 %b acquire ret i64 %1 } define i8 @atomicrmw_nand_i8_acquire(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_nand_i8_acquire: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB16_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: and $a5, $a4, $a1 ; LA32-NEXT: nor $a5, $a5, $zero ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a3 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB16_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_nand_i8_acquire: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: addi.w $a3, $a3, 0 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB16_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: and $a5, $a4, $a1 ; LA64-NEXT: nor $a5, $a5, $zero ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a3 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB16_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a2 ; LA64-NEXT: ret %1 = atomicrmw nand ptr %a, i8 %b acquire ret i8 %1 } define i16 @atomicrmw_nand_i16_acquire(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_nand_i16_acquire: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB17_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: and $a5, $a4, $a1 ; LA32-NEXT: nor $a5, $a5, $zero ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a2 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB17_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_nand_i16_acquire: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: addi.w $a2, $a2, 0 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB17_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: and $a5, $a4, $a1 ; LA64-NEXT: nor $a5, $a5, $zero ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a2 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB17_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a3 ; LA64-NEXT: ret %1 = atomicrmw nand ptr %a, i16 %b acquire ret i16 %1 } define i32 @atomicrmw_nand_i32_acquire(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_nand_i32_acquire: ; LA32: # %bb.0: ; LA32-NEXT: .LBB18_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: and $a3, $a2, $a1 ; LA32-NEXT: nor $a3, $a3, $zero ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB18_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_nand_i32_acquire: ; LA64: # %bb.0: ; LA64-NEXT: .LBB18_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a2, $a0, 0 ; LA64-NEXT: and $a3, $a2, $a1 ; LA64-NEXT: nor $a3, $a3, $zero ; LA64-NEXT: sc.w $a3, $a0, 0 ; LA64-NEXT: beqz $a3, .LBB18_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw nand ptr %a, i32 %b acquire ret i32 %1 } define i64 @atomicrmw_nand_i64_acquire(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_nand_i64_acquire: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 2 ; LA32-NEXT: bl %plt(__atomic_fetch_nand_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_nand_i64_acquire: ; LA64: # %bb.0: ; LA64-NEXT: .LBB19_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.d $a2, $a0, 0 ; LA64-NEXT: and $a3, $a2, $a1 ; LA64-NEXT: nor $a3, $a3, $zero ; LA64-NEXT: sc.d $a3, $a0, 0 ; LA64-NEXT: beqz $a3, .LBB19_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw nand ptr %a, i64 %b acquire ret i64 %1 } define i8 @atomicrmw_and_i8_acquire(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_and_i8_acquire: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: orn $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB20_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: and $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB20_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_and_i8_acquire: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: orn $a1, $a1, $a3 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amand_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw and ptr %a, i8 %b acquire ret i8 %1 } define i16 @atomicrmw_and_i16_acquire(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_and_i16_acquire: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: orn $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB21_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: and $a4, $a2, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB21_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a2, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_and_i16_acquire: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: orn $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amand_db.w $a2, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a2, $a3 ; LA64-NEXT: ret %1 = atomicrmw and ptr %a, i16 %b acquire ret i16 %1 } define i32 @atomicrmw_and_i32_acquire(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_and_i32_acquire: ; LA32: # %bb.0: ; LA32-NEXT: .LBB22_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: and $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB22_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_and_i32_acquire: ; LA64: # %bb.0: ; LA64-NEXT: amand_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw and ptr %a, i32 %b acquire ret i32 %1 } define i64 @atomicrmw_and_i64_acquire(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_and_i64_acquire: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 2 ; LA32-NEXT: bl %plt(__atomic_fetch_and_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_and_i64_acquire: ; LA64: # %bb.0: ; LA64-NEXT: amand_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw and ptr %a, i64 %b acquire ret i64 %1 } define i8 @atomicrmw_or_i8_acquire(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_or_i8_acquire: ; LA32: # %bb.0: ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB24_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: or $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB24_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_or_i8_acquire: ; LA64: # %bb.0: ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw or ptr %a, i8 %b acquire ret i8 %1 } define i16 @atomicrmw_or_i16_acquire(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_or_i16_acquire: ; LA32: # %bb.0: ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB25_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: or $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB25_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_or_i16_acquire: ; LA64: # %bb.0: ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw or ptr %a, i16 %b acquire ret i16 %1 } define i32 @atomicrmw_or_i32_acquire(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_or_i32_acquire: ; LA32: # %bb.0: ; LA32-NEXT: .LBB26_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: or $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB26_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_or_i32_acquire: ; LA64: # %bb.0: ; LA64-NEXT: amor_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw or ptr %a, i32 %b acquire ret i32 %1 } define i64 @atomicrmw_or_i64_acquire(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_or_i64_acquire: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 2 ; LA32-NEXT: bl %plt(__atomic_fetch_or_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_or_i64_acquire: ; LA64: # %bb.0: ; LA64-NEXT: amor_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw or ptr %a, i64 %b acquire ret i64 %1 } define i8 @atomicrmw_xor_i8_acquire(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_xor_i8_acquire: ; LA32: # %bb.0: ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB28_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: xor $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB28_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xor_i8_acquire: ; LA64: # %bb.0: ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amxor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw xor ptr %a, i8 %b acquire ret i8 %1 } define i16 @atomicrmw_xor_i16_acquire(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_xor_i16_acquire: ; LA32: # %bb.0: ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB29_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: xor $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB29_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xor_i16_acquire: ; LA64: # %bb.0: ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amxor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw xor ptr %a, i16 %b acquire ret i16 %1 } define i32 @atomicrmw_xor_i32_acquire(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_xor_i32_acquire: ; LA32: # %bb.0: ; LA32-NEXT: .LBB30_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: xor $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB30_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xor_i32_acquire: ; LA64: # %bb.0: ; LA64-NEXT: amxor_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw xor ptr %a, i32 %b acquire ret i32 %1 } define i64 @atomicrmw_xor_i64_acquire(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_xor_i64_acquire: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 2 ; LA32-NEXT: bl %plt(__atomic_fetch_xor_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xor_i64_acquire: ; LA64: # %bb.0: ; LA64-NEXT: amxor_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw xor ptr %a, i64 %b acquire ret i64 %1 } define i8 @atomicrmw_xchg_i8_release(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_xchg_i8_release: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB32_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: addi.w $a5, $a1, 0 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a3 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB32_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_i8_release: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: addi.w $a3, $a3, 0 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB32_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: addi.w $a5, $a1, 0 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a3 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB32_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i8 %b release ret i8 %1 } define i8 @atomicrmw_xchg_0_i8_release(ptr %a) nounwind { ; LA32-LABEL: atomicrmw_xchg_0_i8_release: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a1, $a0, 3 ; LA32-NEXT: ori $a2, $zero, 255 ; LA32-NEXT: sll.w $a2, $a2, $a1 ; LA32-NEXT: nor $a2, $a2, $zero ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB33_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: and $a4, $a3, $a2 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB33_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a1 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_0_i8_release: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a1, $a0, 3 ; LA64-NEXT: ori $a2, $zero, 255 ; LA64-NEXT: sll.w $a2, $a2, $a1 ; LA64-NEXT: nor $a2, $a2, $zero ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amand_db.w $a3, $a2, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a1 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i8 0 release ret i8 %1 } define i8 @atomicrmw_xchg_minus_1_i8_release(ptr %a) nounwind { ; LA32-LABEL: atomicrmw_xchg_minus_1_i8_release: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a1, $a0, 3 ; LA32-NEXT: ori $a2, $zero, 255 ; LA32-NEXT: sll.w $a2, $a2, $a1 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB34_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: or $a4, $a3, $a2 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB34_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a1 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_minus_1_i8_release: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a1, $a0, 3 ; LA64-NEXT: ori $a2, $zero, 255 ; LA64-NEXT: sll.w $a2, $a2, $a1 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amor_db.w $a3, $a2, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a1 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i8 -1 release ret i8 %1 } define i16 @atomicrmw_xchg_i16_release(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_xchg_i16_release: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB35_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: addi.w $a5, $a1, 0 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a2 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB35_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_i16_release: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: addi.w $a2, $a2, 0 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB35_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: addi.w $a5, $a1, 0 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a2 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB35_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a3 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i16 %b release ret i16 %1 } define i16 @atomicrmw_xchg_0_i16_release(ptr %a) nounwind { ; LA32-LABEL: atomicrmw_xchg_0_i16_release: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a1, 15 ; LA32-NEXT: ori $a1, $a1, 4095 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: nor $a1, $a1, $zero ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB36_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: and $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB36_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_0_i16_release: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a1, 15 ; LA64-NEXT: ori $a1, $a1, 4095 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: nor $a1, $a1, $zero ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amand_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i16 0 release ret i16 %1 } define i16 @atomicrmw_xchg_minus_1_i16_release(ptr %a) nounwind { ; LA32-LABEL: atomicrmw_xchg_minus_1_i16_release: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a1, 15 ; LA32-NEXT: ori $a1, $a1, 4095 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB37_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: or $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB37_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_minus_1_i16_release: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a1, 15 ; LA64-NEXT: ori $a1, $a1, 4095 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i16 -1 release ret i16 %1 } define i32 @atomicrmw_xchg_i32_release(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_xchg_i32_release: ; LA32: # %bb.0: ; LA32-NEXT: .LBB38_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: move $a3, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB38_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_i32_release: ; LA64: # %bb.0: ; LA64-NEXT: amswap_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i32 %b release ret i32 %1 } define i64 @atomicrmw_xchg_i64_release(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_xchg_i64_release: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 3 ; LA32-NEXT: bl %plt(__atomic_exchange_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_i64_release: ; LA64: # %bb.0: ; LA64-NEXT: amswap_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i64 %b release ret i64 %1 } define i8 @atomicrmw_add_i8_release(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_add_i8_release: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB40_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: add.w $a5, $a4, $a1 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a3 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB40_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_add_i8_release: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: addi.w $a3, $a3, 0 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB40_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: add.w $a5, $a4, $a1 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a3 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB40_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a2 ; LA64-NEXT: ret %1 = atomicrmw add ptr %a, i8 %b release ret i8 %1 } define i16 @atomicrmw_add_i16_release(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_add_i16_release: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB41_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: add.w $a5, $a4, $a1 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a2 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB41_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_add_i16_release: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: addi.w $a2, $a2, 0 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB41_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: add.w $a5, $a4, $a1 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a2 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB41_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a3 ; LA64-NEXT: ret %1 = atomicrmw add ptr %a, i16 %b release ret i16 %1 } define i32 @atomicrmw_add_i32_release(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_add_i32_release: ; LA32: # %bb.0: ; LA32-NEXT: .LBB42_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: add.w $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB42_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_add_i32_release: ; LA64: # %bb.0: ; LA64-NEXT: amadd_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw add ptr %a, i32 %b release ret i32 %1 } define i64 @atomicrmw_add_i64_release(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_add_i64_release: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 3 ; LA32-NEXT: bl %plt(__atomic_fetch_add_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_add_i64_release: ; LA64: # %bb.0: ; LA64-NEXT: amadd_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw add ptr %a, i64 %b release ret i64 %1 } define i8 @atomicrmw_sub_i8_release(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_sub_i8_release: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB44_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: sub.w $a5, $a4, $a1 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a3 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB44_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_sub_i8_release: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: addi.w $a3, $a3, 0 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB44_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: sub.w $a5, $a4, $a1 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a3 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB44_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a2 ; LA64-NEXT: ret %1 = atomicrmw sub ptr %a, i8 %b release ret i8 %1 } define i16 @atomicrmw_sub_i16_release(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_sub_i16_release: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB45_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: sub.w $a5, $a4, $a1 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a2 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB45_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_sub_i16_release: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: addi.w $a2, $a2, 0 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB45_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: sub.w $a5, $a4, $a1 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a2 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB45_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a3 ; LA64-NEXT: ret %1 = atomicrmw sub ptr %a, i16 %b release ret i16 %1 } define i32 @atomicrmw_sub_i32_release(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_sub_i32_release: ; LA32: # %bb.0: ; LA32-NEXT: .LBB46_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: sub.w $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB46_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_sub_i32_release: ; LA64: # %bb.0: ; LA64-NEXT: sub.w $a2, $zero, $a1 ; LA64-NEXT: amadd_db.w $a1, $a2, $a0 ; LA64-NEXT: move $a0, $a1 ; LA64-NEXT: ret %1 = atomicrmw sub ptr %a, i32 %b release ret i32 %1 } define i64 @atomicrmw_sub_i64_release(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_sub_i64_release: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 3 ; LA32-NEXT: bl %plt(__atomic_fetch_sub_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_sub_i64_release: ; LA64: # %bb.0: ; LA64-NEXT: sub.d $a2, $zero, $a1 ; LA64-NEXT: amadd_db.d $a1, $a2, $a0 ; LA64-NEXT: move $a0, $a1 ; LA64-NEXT: ret %1 = atomicrmw sub ptr %a, i64 %b release ret i64 %1 } define i8 @atomicrmw_nand_i8_release(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_nand_i8_release: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB48_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: and $a5, $a4, $a1 ; LA32-NEXT: nor $a5, $a5, $zero ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a3 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB48_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_nand_i8_release: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: addi.w $a3, $a3, 0 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB48_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: and $a5, $a4, $a1 ; LA64-NEXT: nor $a5, $a5, $zero ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a3 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB48_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a2 ; LA64-NEXT: ret %1 = atomicrmw nand ptr %a, i8 %b release ret i8 %1 } define i16 @atomicrmw_nand_i16_release(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_nand_i16_release: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB49_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: and $a5, $a4, $a1 ; LA32-NEXT: nor $a5, $a5, $zero ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a2 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB49_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_nand_i16_release: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: addi.w $a2, $a2, 0 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB49_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: and $a5, $a4, $a1 ; LA64-NEXT: nor $a5, $a5, $zero ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a2 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB49_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a3 ; LA64-NEXT: ret %1 = atomicrmw nand ptr %a, i16 %b release ret i16 %1 } define i32 @atomicrmw_nand_i32_release(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_nand_i32_release: ; LA32: # %bb.0: ; LA32-NEXT: .LBB50_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: and $a3, $a2, $a1 ; LA32-NEXT: nor $a3, $a3, $zero ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB50_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_nand_i32_release: ; LA64: # %bb.0: ; LA64-NEXT: .LBB50_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a2, $a0, 0 ; LA64-NEXT: and $a3, $a2, $a1 ; LA64-NEXT: nor $a3, $a3, $zero ; LA64-NEXT: sc.w $a3, $a0, 0 ; LA64-NEXT: beqz $a3, .LBB50_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw nand ptr %a, i32 %b release ret i32 %1 } define i64 @atomicrmw_nand_i64_release(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_nand_i64_release: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 3 ; LA32-NEXT: bl %plt(__atomic_fetch_nand_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_nand_i64_release: ; LA64: # %bb.0: ; LA64-NEXT: .LBB51_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.d $a2, $a0, 0 ; LA64-NEXT: and $a3, $a2, $a1 ; LA64-NEXT: nor $a3, $a3, $zero ; LA64-NEXT: sc.d $a3, $a0, 0 ; LA64-NEXT: beqz $a3, .LBB51_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw nand ptr %a, i64 %b release ret i64 %1 } define i8 @atomicrmw_and_i8_release(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_and_i8_release: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: orn $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB52_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: and $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB52_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_and_i8_release: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: orn $a1, $a1, $a3 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amand_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw and ptr %a, i8 %b release ret i8 %1 } define i16 @atomicrmw_and_i16_release(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_and_i16_release: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: orn $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB53_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: and $a4, $a2, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB53_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a2, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_and_i16_release: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: orn $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amand_db.w $a2, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a2, $a3 ; LA64-NEXT: ret %1 = atomicrmw and ptr %a, i16 %b release ret i16 %1 } define i32 @atomicrmw_and_i32_release(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_and_i32_release: ; LA32: # %bb.0: ; LA32-NEXT: .LBB54_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: and $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB54_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_and_i32_release: ; LA64: # %bb.0: ; LA64-NEXT: amand_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw and ptr %a, i32 %b release ret i32 %1 } define i64 @atomicrmw_and_i64_release(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_and_i64_release: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 3 ; LA32-NEXT: bl %plt(__atomic_fetch_and_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_and_i64_release: ; LA64: # %bb.0: ; LA64-NEXT: amand_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw and ptr %a, i64 %b release ret i64 %1 } define i8 @atomicrmw_or_i8_release(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_or_i8_release: ; LA32: # %bb.0: ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB56_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: or $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB56_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_or_i8_release: ; LA64: # %bb.0: ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw or ptr %a, i8 %b release ret i8 %1 } define i16 @atomicrmw_or_i16_release(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_or_i16_release: ; LA32: # %bb.0: ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB57_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: or $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB57_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_or_i16_release: ; LA64: # %bb.0: ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw or ptr %a, i16 %b release ret i16 %1 } define i32 @atomicrmw_or_i32_release(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_or_i32_release: ; LA32: # %bb.0: ; LA32-NEXT: .LBB58_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: or $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB58_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_or_i32_release: ; LA64: # %bb.0: ; LA64-NEXT: amor_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw or ptr %a, i32 %b release ret i32 %1 } define i64 @atomicrmw_or_i64_release(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_or_i64_release: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 3 ; LA32-NEXT: bl %plt(__atomic_fetch_or_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_or_i64_release: ; LA64: # %bb.0: ; LA64-NEXT: amor_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw or ptr %a, i64 %b release ret i64 %1 } define i8 @atomicrmw_xor_i8_release(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_xor_i8_release: ; LA32: # %bb.0: ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB60_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: xor $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB60_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xor_i8_release: ; LA64: # %bb.0: ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amxor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw xor ptr %a, i8 %b release ret i8 %1 } define i16 @atomicrmw_xor_i16_release(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_xor_i16_release: ; LA32: # %bb.0: ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB61_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: xor $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB61_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xor_i16_release: ; LA64: # %bb.0: ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amxor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw xor ptr %a, i16 %b release ret i16 %1 } define i32 @atomicrmw_xor_i32_release(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_xor_i32_release: ; LA32: # %bb.0: ; LA32-NEXT: .LBB62_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: xor $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB62_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xor_i32_release: ; LA64: # %bb.0: ; LA64-NEXT: amxor_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw xor ptr %a, i32 %b release ret i32 %1 } define i64 @atomicrmw_xor_i64_release(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_xor_i64_release: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 3 ; LA32-NEXT: bl %plt(__atomic_fetch_xor_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xor_i64_release: ; LA64: # %bb.0: ; LA64-NEXT: amxor_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw xor ptr %a, i64 %b release ret i64 %1 } define i8 @atomicrmw_xchg_i8_acq_rel(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_xchg_i8_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB64_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: addi.w $a5, $a1, 0 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a3 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB64_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_i8_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: addi.w $a3, $a3, 0 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB64_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: addi.w $a5, $a1, 0 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a3 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB64_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i8 %b acq_rel ret i8 %1 } define i8 @atomicrmw_xchg_0_i8_acq_rel(ptr %a) nounwind { ; LA32-LABEL: atomicrmw_xchg_0_i8_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a1, $a0, 3 ; LA32-NEXT: ori $a2, $zero, 255 ; LA32-NEXT: sll.w $a2, $a2, $a1 ; LA32-NEXT: nor $a2, $a2, $zero ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB65_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: and $a4, $a3, $a2 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB65_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a1 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_0_i8_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a1, $a0, 3 ; LA64-NEXT: ori $a2, $zero, 255 ; LA64-NEXT: sll.w $a2, $a2, $a1 ; LA64-NEXT: nor $a2, $a2, $zero ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amand_db.w $a3, $a2, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a1 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i8 0 acq_rel ret i8 %1 } define i8 @atomicrmw_xchg_minus_1_i8_acq_rel(ptr %a) nounwind { ; LA32-LABEL: atomicrmw_xchg_minus_1_i8_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a1, $a0, 3 ; LA32-NEXT: ori $a2, $zero, 255 ; LA32-NEXT: sll.w $a2, $a2, $a1 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB66_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: or $a4, $a3, $a2 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB66_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a1 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_minus_1_i8_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a1, $a0, 3 ; LA64-NEXT: ori $a2, $zero, 255 ; LA64-NEXT: sll.w $a2, $a2, $a1 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amor_db.w $a3, $a2, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a1 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i8 -1 acq_rel ret i8 %1 } define i16 @atomicrmw_xchg_i16_acq_rel(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_xchg_i16_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB67_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: addi.w $a5, $a1, 0 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a2 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB67_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_i16_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: addi.w $a2, $a2, 0 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB67_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: addi.w $a5, $a1, 0 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a2 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB67_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a3 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i16 %b acq_rel ret i16 %1 } define i16 @atomicrmw_xchg_0_i16_acq_rel(ptr %a) nounwind { ; LA32-LABEL: atomicrmw_xchg_0_i16_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a1, 15 ; LA32-NEXT: ori $a1, $a1, 4095 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: nor $a1, $a1, $zero ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB68_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: and $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB68_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_0_i16_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a1, 15 ; LA64-NEXT: ori $a1, $a1, 4095 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: nor $a1, $a1, $zero ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amand_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i16 0 acq_rel ret i16 %1 } define i16 @atomicrmw_xchg_minus_1_i16_acq_rel(ptr %a) nounwind { ; LA32-LABEL: atomicrmw_xchg_minus_1_i16_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a1, 15 ; LA32-NEXT: ori $a1, $a1, 4095 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB69_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: or $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB69_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_minus_1_i16_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a1, 15 ; LA64-NEXT: ori $a1, $a1, 4095 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i16 -1 acq_rel ret i16 %1 } define i32 @atomicrmw_xchg_i32_acq_rel(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_xchg_i32_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: .LBB70_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: move $a3, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB70_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_i32_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: amswap_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i32 %b acq_rel ret i32 %1 } define i64 @atomicrmw_xchg_i64_acq_rel(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_xchg_i64_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 4 ; LA32-NEXT: bl %plt(__atomic_exchange_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_i64_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: amswap_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i64 %b acq_rel ret i64 %1 } define i8 @atomicrmw_add_i8_acq_rel(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_add_i8_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB72_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: add.w $a5, $a4, $a1 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a3 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB72_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_add_i8_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: addi.w $a3, $a3, 0 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB72_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: add.w $a5, $a4, $a1 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a3 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB72_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a2 ; LA64-NEXT: ret %1 = atomicrmw add ptr %a, i8 %b acq_rel ret i8 %1 } define i16 @atomicrmw_add_i16_acq_rel(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_add_i16_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB73_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: add.w $a5, $a4, $a1 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a2 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB73_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_add_i16_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: addi.w $a2, $a2, 0 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB73_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: add.w $a5, $a4, $a1 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a2 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB73_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a3 ; LA64-NEXT: ret %1 = atomicrmw add ptr %a, i16 %b acq_rel ret i16 %1 } define i32 @atomicrmw_add_i32_acq_rel(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_add_i32_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: .LBB74_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: add.w $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB74_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_add_i32_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: amadd_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw add ptr %a, i32 %b acq_rel ret i32 %1 } define i64 @atomicrmw_add_i64_acq_rel(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_add_i64_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 4 ; LA32-NEXT: bl %plt(__atomic_fetch_add_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_add_i64_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: amadd_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw add ptr %a, i64 %b acq_rel ret i64 %1 } define i8 @atomicrmw_sub_i8_acq_rel(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_sub_i8_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB76_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: sub.w $a5, $a4, $a1 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a3 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB76_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_sub_i8_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: addi.w $a3, $a3, 0 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB76_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: sub.w $a5, $a4, $a1 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a3 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB76_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a2 ; LA64-NEXT: ret %1 = atomicrmw sub ptr %a, i8 %b acq_rel ret i8 %1 } define i16 @atomicrmw_sub_i16_acq_rel(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_sub_i16_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB77_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: sub.w $a5, $a4, $a1 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a2 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB77_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_sub_i16_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: addi.w $a2, $a2, 0 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB77_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: sub.w $a5, $a4, $a1 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a2 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB77_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a3 ; LA64-NEXT: ret %1 = atomicrmw sub ptr %a, i16 %b acq_rel ret i16 %1 } define i32 @atomicrmw_sub_i32_acq_rel(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_sub_i32_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: .LBB78_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: sub.w $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB78_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_sub_i32_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: sub.w $a2, $zero, $a1 ; LA64-NEXT: amadd_db.w $a1, $a2, $a0 ; LA64-NEXT: move $a0, $a1 ; LA64-NEXT: ret %1 = atomicrmw sub ptr %a, i32 %b acq_rel ret i32 %1 } define i64 @atomicrmw_sub_i64_acq_rel(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_sub_i64_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 4 ; LA32-NEXT: bl %plt(__atomic_fetch_sub_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_sub_i64_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: sub.d $a2, $zero, $a1 ; LA64-NEXT: amadd_db.d $a1, $a2, $a0 ; LA64-NEXT: move $a0, $a1 ; LA64-NEXT: ret %1 = atomicrmw sub ptr %a, i64 %b acq_rel ret i64 %1 } define i8 @atomicrmw_nand_i8_acq_rel(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_nand_i8_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB80_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: and $a5, $a4, $a1 ; LA32-NEXT: nor $a5, $a5, $zero ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a3 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB80_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_nand_i8_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: addi.w $a3, $a3, 0 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB80_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: and $a5, $a4, $a1 ; LA64-NEXT: nor $a5, $a5, $zero ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a3 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB80_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a2 ; LA64-NEXT: ret %1 = atomicrmw nand ptr %a, i8 %b acq_rel ret i8 %1 } define i16 @atomicrmw_nand_i16_acq_rel(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_nand_i16_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB81_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: and $a5, $a4, $a1 ; LA32-NEXT: nor $a5, $a5, $zero ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a2 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB81_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_nand_i16_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: addi.w $a2, $a2, 0 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB81_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: and $a5, $a4, $a1 ; LA64-NEXT: nor $a5, $a5, $zero ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a2 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB81_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a3 ; LA64-NEXT: ret %1 = atomicrmw nand ptr %a, i16 %b acq_rel ret i16 %1 } define i32 @atomicrmw_nand_i32_acq_rel(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_nand_i32_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: .LBB82_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: and $a3, $a2, $a1 ; LA32-NEXT: nor $a3, $a3, $zero ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB82_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_nand_i32_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: .LBB82_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a2, $a0, 0 ; LA64-NEXT: and $a3, $a2, $a1 ; LA64-NEXT: nor $a3, $a3, $zero ; LA64-NEXT: sc.w $a3, $a0, 0 ; LA64-NEXT: beqz $a3, .LBB82_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw nand ptr %a, i32 %b acq_rel ret i32 %1 } define i64 @atomicrmw_nand_i64_acq_rel(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_nand_i64_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 4 ; LA32-NEXT: bl %plt(__atomic_fetch_nand_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_nand_i64_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: .LBB83_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.d $a2, $a0, 0 ; LA64-NEXT: and $a3, $a2, $a1 ; LA64-NEXT: nor $a3, $a3, $zero ; LA64-NEXT: sc.d $a3, $a0, 0 ; LA64-NEXT: beqz $a3, .LBB83_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw nand ptr %a, i64 %b acq_rel ret i64 %1 } define i8 @atomicrmw_and_i8_acq_rel(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_and_i8_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: orn $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB84_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: and $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB84_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_and_i8_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: orn $a1, $a1, $a3 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amand_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw and ptr %a, i8 %b acq_rel ret i8 %1 } define i16 @atomicrmw_and_i16_acq_rel(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_and_i16_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: orn $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB85_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: and $a4, $a2, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB85_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a2, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_and_i16_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: orn $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amand_db.w $a2, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a2, $a3 ; LA64-NEXT: ret %1 = atomicrmw and ptr %a, i16 %b acq_rel ret i16 %1 } define i32 @atomicrmw_and_i32_acq_rel(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_and_i32_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: .LBB86_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: and $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB86_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_and_i32_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: amand_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw and ptr %a, i32 %b acq_rel ret i32 %1 } define i64 @atomicrmw_and_i64_acq_rel(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_and_i64_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 4 ; LA32-NEXT: bl %plt(__atomic_fetch_and_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_and_i64_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: amand_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw and ptr %a, i64 %b acq_rel ret i64 %1 } define i8 @atomicrmw_or_i8_acq_rel(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_or_i8_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB88_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: or $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB88_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_or_i8_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw or ptr %a, i8 %b acq_rel ret i8 %1 } define i16 @atomicrmw_or_i16_acq_rel(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_or_i16_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB89_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: or $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB89_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_or_i16_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw or ptr %a, i16 %b acq_rel ret i16 %1 } define i32 @atomicrmw_or_i32_acq_rel(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_or_i32_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: .LBB90_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: or $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB90_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_or_i32_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: amor_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw or ptr %a, i32 %b acq_rel ret i32 %1 } define i64 @atomicrmw_or_i64_acq_rel(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_or_i64_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 4 ; LA32-NEXT: bl %plt(__atomic_fetch_or_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_or_i64_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: amor_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw or ptr %a, i64 %b acq_rel ret i64 %1 } define i8 @atomicrmw_xor_i8_acq_rel(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_xor_i8_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB92_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: xor $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB92_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xor_i8_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amxor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw xor ptr %a, i8 %b acq_rel ret i8 %1 } define i16 @atomicrmw_xor_i16_acq_rel(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_xor_i16_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB93_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: xor $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB93_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xor_i16_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amxor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw xor ptr %a, i16 %b acq_rel ret i16 %1 } define i32 @atomicrmw_xor_i32_acq_rel(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_xor_i32_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: .LBB94_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: xor $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB94_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xor_i32_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: amxor_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw xor ptr %a, i32 %b acq_rel ret i32 %1 } define i64 @atomicrmw_xor_i64_acq_rel(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_xor_i64_acq_rel: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 4 ; LA32-NEXT: bl %plt(__atomic_fetch_xor_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xor_i64_acq_rel: ; LA64: # %bb.0: ; LA64-NEXT: amxor_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw xor ptr %a, i64 %b acq_rel ret i64 %1 } define i8 @atomicrmw_xchg_i8_seq_cst(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_xchg_i8_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB96_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: addi.w $a5, $a1, 0 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a3 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB96_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_i8_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: addi.w $a3, $a3, 0 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB96_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: addi.w $a5, $a1, 0 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a3 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB96_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i8 %b seq_cst ret i8 %1 } define i8 @atomicrmw_xchg_0_i8_seq_cst(ptr %a) nounwind { ; LA32-LABEL: atomicrmw_xchg_0_i8_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a1, $a0, 3 ; LA32-NEXT: ori $a2, $zero, 255 ; LA32-NEXT: sll.w $a2, $a2, $a1 ; LA32-NEXT: nor $a2, $a2, $zero ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB97_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: and $a4, $a3, $a2 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB97_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a1 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_0_i8_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a1, $a0, 3 ; LA64-NEXT: ori $a2, $zero, 255 ; LA64-NEXT: sll.w $a2, $a2, $a1 ; LA64-NEXT: nor $a2, $a2, $zero ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amand_db.w $a3, $a2, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a1 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i8 0 seq_cst ret i8 %1 } define i8 @atomicrmw_xchg_minus_1_i8_seq_cst(ptr %a) nounwind { ; LA32-LABEL: atomicrmw_xchg_minus_1_i8_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a1, $a0, 3 ; LA32-NEXT: ori $a2, $zero, 255 ; LA32-NEXT: sll.w $a2, $a2, $a1 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB98_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: or $a4, $a3, $a2 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB98_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a1 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_minus_1_i8_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a1, $a0, 3 ; LA64-NEXT: ori $a2, $zero, 255 ; LA64-NEXT: sll.w $a2, $a2, $a1 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amor_db.w $a3, $a2, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a1 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i8 -1 seq_cst ret i8 %1 } define i16 @atomicrmw_xchg_i16_seq_cst(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_xchg_i16_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB99_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: addi.w $a5, $a1, 0 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a2 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB99_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_i16_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: addi.w $a2, $a2, 0 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB99_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: addi.w $a5, $a1, 0 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a2 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB99_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a3 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i16 %b seq_cst ret i16 %1 } define i16 @atomicrmw_xchg_0_i16_seq_cst(ptr %a) nounwind { ; LA32-LABEL: atomicrmw_xchg_0_i16_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a1, 15 ; LA32-NEXT: ori $a1, $a1, 4095 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: nor $a1, $a1, $zero ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB100_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: and $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB100_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_0_i16_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a1, 15 ; LA64-NEXT: ori $a1, $a1, 4095 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: nor $a1, $a1, $zero ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amand_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i16 0 seq_cst ret i16 %1 } define i16 @atomicrmw_xchg_minus_1_i16_seq_cst(ptr %a) nounwind { ; LA32-LABEL: atomicrmw_xchg_minus_1_i16_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a1, 15 ; LA32-NEXT: ori $a1, $a1, 4095 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB101_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: or $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB101_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_minus_1_i16_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a1, 15 ; LA64-NEXT: ori $a1, $a1, 4095 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i16 -1 seq_cst ret i16 %1 } define i32 @atomicrmw_xchg_i32_seq_cst(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_xchg_i32_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: .LBB102_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: move $a3, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB102_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_i32_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: amswap_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i32 %b seq_cst ret i32 %1 } define i64 @atomicrmw_xchg_i64_seq_cst(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_xchg_i64_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 5 ; LA32-NEXT: bl %plt(__atomic_exchange_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_i64_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: amswap_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i64 %b seq_cst ret i64 %1 } define i8 @atomicrmw_add_i8_seq_cst(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_add_i8_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB104_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: add.w $a5, $a4, $a1 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a3 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB104_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_add_i8_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: addi.w $a3, $a3, 0 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB104_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: add.w $a5, $a4, $a1 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a3 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB104_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a2 ; LA64-NEXT: ret %1 = atomicrmw add ptr %a, i8 %b seq_cst ret i8 %1 } define i16 @atomicrmw_add_i16_seq_cst(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_add_i16_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB105_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: add.w $a5, $a4, $a1 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a2 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB105_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_add_i16_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: addi.w $a2, $a2, 0 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB105_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: add.w $a5, $a4, $a1 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a2 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB105_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a3 ; LA64-NEXT: ret %1 = atomicrmw add ptr %a, i16 %b seq_cst ret i16 %1 } define i32 @atomicrmw_add_i32_seq_cst(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_add_i32_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: .LBB106_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: add.w $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB106_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_add_i32_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: amadd_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw add ptr %a, i32 %b seq_cst ret i32 %1 } define i64 @atomicrmw_add_i64_seq_cst(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_add_i64_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 5 ; LA32-NEXT: bl %plt(__atomic_fetch_add_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_add_i64_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: amadd_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw add ptr %a, i64 %b seq_cst ret i64 %1 } define i8 @atomicrmw_sub_i8_seq_cst(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_sub_i8_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB108_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: sub.w $a5, $a4, $a1 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a3 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB108_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_sub_i8_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: addi.w $a3, $a3, 0 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB108_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: sub.w $a5, $a4, $a1 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a3 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB108_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a2 ; LA64-NEXT: ret %1 = atomicrmw sub ptr %a, i8 %b seq_cst ret i8 %1 } define i16 @atomicrmw_sub_i16_seq_cst(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_sub_i16_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB109_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: sub.w $a5, $a4, $a1 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a2 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB109_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_sub_i16_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: addi.w $a2, $a2, 0 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB109_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: sub.w $a5, $a4, $a1 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a2 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB109_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a3 ; LA64-NEXT: ret %1 = atomicrmw sub ptr %a, i16 %b seq_cst ret i16 %1 } define i32 @atomicrmw_sub_i32_seq_cst(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_sub_i32_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: .LBB110_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: sub.w $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB110_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_sub_i32_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: sub.w $a2, $zero, $a1 ; LA64-NEXT: amadd_db.w $a1, $a2, $a0 ; LA64-NEXT: move $a0, $a1 ; LA64-NEXT: ret %1 = atomicrmw sub ptr %a, i32 %b seq_cst ret i32 %1 } define i64 @atomicrmw_sub_i64_seq_cst(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_sub_i64_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 5 ; LA32-NEXT: bl %plt(__atomic_fetch_sub_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_sub_i64_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: sub.d $a2, $zero, $a1 ; LA64-NEXT: amadd_db.d $a1, $a2, $a0 ; LA64-NEXT: move $a0, $a1 ; LA64-NEXT: ret %1 = atomicrmw sub ptr %a, i64 %b seq_cst ret i64 %1 } define i8 @atomicrmw_nand_i8_seq_cst(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_nand_i8_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB112_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: and $a5, $a4, $a1 ; LA32-NEXT: nor $a5, $a5, $zero ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a3 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB112_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_nand_i8_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: addi.w $a3, $a3, 0 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB112_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: and $a5, $a4, $a1 ; LA64-NEXT: nor $a5, $a5, $zero ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a3 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB112_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a2 ; LA64-NEXT: ret %1 = atomicrmw nand ptr %a, i8 %b seq_cst ret i8 %1 } define i16 @atomicrmw_nand_i16_seq_cst(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_nand_i16_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB113_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: and $a5, $a4, $a1 ; LA32-NEXT: nor $a5, $a5, $zero ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a2 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB113_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_nand_i16_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: addi.w $a2, $a2, 0 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB113_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: and $a5, $a4, $a1 ; LA64-NEXT: nor $a5, $a5, $zero ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a2 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB113_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a3 ; LA64-NEXT: ret %1 = atomicrmw nand ptr %a, i16 %b seq_cst ret i16 %1 } define i32 @atomicrmw_nand_i32_seq_cst(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_nand_i32_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: .LBB114_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: and $a3, $a2, $a1 ; LA32-NEXT: nor $a3, $a3, $zero ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB114_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_nand_i32_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: .LBB114_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a2, $a0, 0 ; LA64-NEXT: and $a3, $a2, $a1 ; LA64-NEXT: nor $a3, $a3, $zero ; LA64-NEXT: sc.w $a3, $a0, 0 ; LA64-NEXT: beqz $a3, .LBB114_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw nand ptr %a, i32 %b seq_cst ret i32 %1 } define i64 @atomicrmw_nand_i64_seq_cst(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_nand_i64_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 5 ; LA32-NEXT: bl %plt(__atomic_fetch_nand_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_nand_i64_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: .LBB115_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.d $a2, $a0, 0 ; LA64-NEXT: and $a3, $a2, $a1 ; LA64-NEXT: nor $a3, $a3, $zero ; LA64-NEXT: sc.d $a3, $a0, 0 ; LA64-NEXT: beqz $a3, .LBB115_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw nand ptr %a, i64 %b seq_cst ret i64 %1 } define i8 @atomicrmw_and_i8_seq_cst(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_and_i8_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: orn $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB116_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: and $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB116_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_and_i8_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: orn $a1, $a1, $a3 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amand_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw and ptr %a, i8 %b seq_cst ret i8 %1 } define i16 @atomicrmw_and_i16_seq_cst(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_and_i16_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: orn $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB117_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: and $a4, $a2, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB117_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a2, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_and_i16_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: orn $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amand_db.w $a2, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a2, $a3 ; LA64-NEXT: ret %1 = atomicrmw and ptr %a, i16 %b seq_cst ret i16 %1 } define i32 @atomicrmw_and_i32_seq_cst(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_and_i32_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: .LBB118_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: and $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB118_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_and_i32_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: amand_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw and ptr %a, i32 %b seq_cst ret i32 %1 } define i64 @atomicrmw_and_i64_seq_cst(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_and_i64_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 5 ; LA32-NEXT: bl %plt(__atomic_fetch_and_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_and_i64_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: amand_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw and ptr %a, i64 %b seq_cst ret i64 %1 } define i8 @atomicrmw_or_i8_seq_cst(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_or_i8_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB120_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: or $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB120_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_or_i8_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw or ptr %a, i8 %b seq_cst ret i8 %1 } define i16 @atomicrmw_or_i16_seq_cst(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_or_i16_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB121_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: or $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB121_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_or_i16_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw or ptr %a, i16 %b seq_cst ret i16 %1 } define i32 @atomicrmw_or_i32_seq_cst(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_or_i32_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: .LBB122_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: or $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB122_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_or_i32_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: amor_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw or ptr %a, i32 %b seq_cst ret i32 %1 } define i64 @atomicrmw_or_i64_seq_cst(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_or_i64_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 5 ; LA32-NEXT: bl %plt(__atomic_fetch_or_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_or_i64_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: amor_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw or ptr %a, i64 %b seq_cst ret i64 %1 } define i8 @atomicrmw_xor_i8_seq_cst(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_xor_i8_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB124_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: xor $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB124_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xor_i8_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amxor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw xor ptr %a, i8 %b seq_cst ret i8 %1 } define i16 @atomicrmw_xor_i16_seq_cst(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_xor_i16_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB125_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: xor $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB125_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xor_i16_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amxor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw xor ptr %a, i16 %b seq_cst ret i16 %1 } define i32 @atomicrmw_xor_i32_seq_cst(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_xor_i32_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: .LBB126_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: xor $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB126_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xor_i32_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: amxor_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw xor ptr %a, i32 %b seq_cst ret i32 %1 } define i64 @atomicrmw_xor_i64_seq_cst(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_xor_i64_seq_cst: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: ori $a3, $zero, 5 ; LA32-NEXT: bl %plt(__atomic_fetch_xor_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xor_i64_seq_cst: ; LA64: # %bb.0: ; LA64-NEXT: amxor_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw xor ptr %a, i64 %b seq_cst ret i64 %1 } define i8 @atomicrmw_xchg_i8_monotonic(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_xchg_i8_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB128_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: addi.w $a5, $a1, 0 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a3 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB128_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_i8_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: addi.w $a3, $a3, 0 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB128_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: addi.w $a5, $a1, 0 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a3 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB128_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i8 %b monotonic ret i8 %1 } define i8 @atomicrmw_xchg_0_i8_monotonic(ptr %a) nounwind { ; LA32-LABEL: atomicrmw_xchg_0_i8_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a1, $a0, 3 ; LA32-NEXT: ori $a2, $zero, 255 ; LA32-NEXT: sll.w $a2, $a2, $a1 ; LA32-NEXT: nor $a2, $a2, $zero ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB129_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: and $a4, $a3, $a2 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB129_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a1 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_0_i8_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a1, $a0, 3 ; LA64-NEXT: ori $a2, $zero, 255 ; LA64-NEXT: sll.w $a2, $a2, $a1 ; LA64-NEXT: nor $a2, $a2, $zero ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amand_db.w $a3, $a2, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a1 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i8 0 monotonic ret i8 %1 } define i8 @atomicrmw_xchg_minus_1_i8_monotonic(ptr %a) nounwind { ; LA32-LABEL: atomicrmw_xchg_minus_1_i8_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a1, $a0, 3 ; LA32-NEXT: ori $a2, $zero, 255 ; LA32-NEXT: sll.w $a2, $a2, $a1 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB130_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: or $a4, $a3, $a2 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB130_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a1 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_minus_1_i8_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a1, $a0, 3 ; LA64-NEXT: ori $a2, $zero, 255 ; LA64-NEXT: sll.w $a2, $a2, $a1 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amor_db.w $a3, $a2, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a1 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i8 -1 monotonic ret i8 %1 } define i16 @atomicrmw_xchg_i16_monotonic(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_xchg_i16_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB131_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: addi.w $a5, $a1, 0 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a2 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB131_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_i16_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: addi.w $a2, $a2, 0 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB131_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: addi.w $a5, $a1, 0 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a2 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB131_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a3 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i16 %b monotonic ret i16 %1 } define i16 @atomicrmw_xchg_0_i16_monotonic(ptr %a) nounwind { ; LA32-LABEL: atomicrmw_xchg_0_i16_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a1, 15 ; LA32-NEXT: ori $a1, $a1, 4095 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: nor $a1, $a1, $zero ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB132_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: and $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB132_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_0_i16_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a1, 15 ; LA64-NEXT: ori $a1, $a1, 4095 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: nor $a1, $a1, $zero ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amand_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i16 0 monotonic ret i16 %1 } define i16 @atomicrmw_xchg_minus_1_i16_monotonic(ptr %a) nounwind { ; LA32-LABEL: atomicrmw_xchg_minus_1_i16_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a1, 15 ; LA32-NEXT: ori $a1, $a1, 4095 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB133_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: or $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB133_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_minus_1_i16_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a1, 15 ; LA64-NEXT: ori $a1, $a1, 4095 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i16 -1 monotonic ret i16 %1 } define i32 @atomicrmw_xchg_i32_monotonic(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_xchg_i32_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: .LBB134_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: move $a3, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB134_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_i32_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: amswap_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i32 %b monotonic ret i32 %1 } define i64 @atomicrmw_xchg_i64_monotonic(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_xchg_i64_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: move $a3, $zero ; LA32-NEXT: bl %plt(__atomic_exchange_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xchg_i64_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: amswap_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw xchg ptr %a, i64 %b monotonic ret i64 %1 } define i8 @atomicrmw_add_i8_monotonic(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_add_i8_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB136_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: add.w $a5, $a4, $a1 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a3 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB136_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_add_i8_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: addi.w $a3, $a3, 0 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB136_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: add.w $a5, $a4, $a1 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a3 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB136_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a2 ; LA64-NEXT: ret %1 = atomicrmw add ptr %a, i8 %b monotonic ret i8 %1 } define i16 @atomicrmw_add_i16_monotonic(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_add_i16_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB137_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: add.w $a5, $a4, $a1 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a2 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB137_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_add_i16_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: addi.w $a2, $a2, 0 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB137_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: add.w $a5, $a4, $a1 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a2 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB137_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a3 ; LA64-NEXT: ret %1 = atomicrmw add ptr %a, i16 %b monotonic ret i16 %1 } define i32 @atomicrmw_add_i32_monotonic(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_add_i32_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: .LBB138_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: add.w $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB138_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_add_i32_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: amadd_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw add ptr %a, i32 %b monotonic ret i32 %1 } define i64 @atomicrmw_add_i64_monotonic(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_add_i64_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: move $a3, $zero ; LA32-NEXT: bl %plt(__atomic_fetch_add_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_add_i64_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: amadd_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw add ptr %a, i64 %b monotonic ret i64 %1 } define i8 @atomicrmw_sub_i8_monotonic(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_sub_i8_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB140_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: sub.w $a5, $a4, $a1 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a3 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB140_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_sub_i8_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: addi.w $a3, $a3, 0 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB140_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: sub.w $a5, $a4, $a1 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a3 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB140_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a2 ; LA64-NEXT: ret %1 = atomicrmw sub ptr %a, i8 %b monotonic ret i8 %1 } define i16 @atomicrmw_sub_i16_monotonic(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_sub_i16_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB141_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: sub.w $a5, $a4, $a1 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a2 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB141_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_sub_i16_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: addi.w $a2, $a2, 0 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB141_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: sub.w $a5, $a4, $a1 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a2 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB141_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a3 ; LA64-NEXT: ret %1 = atomicrmw sub ptr %a, i16 %b monotonic ret i16 %1 } define i32 @atomicrmw_sub_i32_monotonic(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_sub_i32_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: .LBB142_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: sub.w $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB142_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_sub_i32_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: sub.w $a2, $zero, $a1 ; LA64-NEXT: amadd_db.w $a1, $a2, $a0 ; LA64-NEXT: move $a0, $a1 ; LA64-NEXT: ret %1 = atomicrmw sub ptr %a, i32 %b monotonic ret i32 %1 } define i64 @atomicrmw_sub_i64_monotonic(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_sub_i64_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: move $a3, $zero ; LA32-NEXT: bl %plt(__atomic_fetch_sub_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_sub_i64_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: sub.d $a2, $zero, $a1 ; LA64-NEXT: amadd_db.d $a1, $a2, $a0 ; LA64-NEXT: move $a0, $a1 ; LA64-NEXT: ret %1 = atomicrmw sub ptr %a, i64 %b monotonic ret i64 %1 } define i8 @atomicrmw_nand_i8_monotonic(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_nand_i8_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB144_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: and $a5, $a4, $a1 ; LA32-NEXT: nor $a5, $a5, $zero ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a3 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB144_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_nand_i8_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: addi.w $a3, $a3, 0 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB144_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: and $a5, $a4, $a1 ; LA64-NEXT: nor $a5, $a5, $zero ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a3 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB144_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a2 ; LA64-NEXT: ret %1 = atomicrmw nand ptr %a, i8 %b monotonic ret i8 %1 } define i16 @atomicrmw_nand_i16_monotonic(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_nand_i16_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB145_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a4, $a0, 0 ; LA32-NEXT: and $a5, $a4, $a1 ; LA32-NEXT: nor $a5, $a5, $zero ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: and $a5, $a5, $a2 ; LA32-NEXT: xor $a5, $a4, $a5 ; LA32-NEXT: sc.w $a5, $a0, 0 ; LA32-NEXT: beqz $a5, .LBB145_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a4, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_nand_i16_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: addi.w $a2, $a2, 0 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: addi.w $a1, $a1, 0 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: .LBB145_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a4, $a0, 0 ; LA64-NEXT: and $a5, $a4, $a1 ; LA64-NEXT: nor $a5, $a5, $zero ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: and $a5, $a5, $a2 ; LA64-NEXT: xor $a5, $a4, $a5 ; LA64-NEXT: sc.w $a5, $a0, 0 ; LA64-NEXT: beqz $a5, .LBB145_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: srl.w $a0, $a4, $a3 ; LA64-NEXT: ret %1 = atomicrmw nand ptr %a, i16 %b monotonic ret i16 %1 } define i32 @atomicrmw_nand_i32_monotonic(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_nand_i32_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: .LBB146_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: and $a3, $a2, $a1 ; LA32-NEXT: nor $a3, $a3, $zero ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB146_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_nand_i32_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: .LBB146_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.w $a2, $a0, 0 ; LA64-NEXT: and $a3, $a2, $a1 ; LA64-NEXT: nor $a3, $a3, $zero ; LA64-NEXT: sc.w $a3, $a0, 0 ; LA64-NEXT: beqz $a3, .LBB146_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw nand ptr %a, i32 %b monotonic ret i32 %1 } define i64 @atomicrmw_nand_i64_monotonic(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_nand_i64_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: move $a3, $zero ; LA32-NEXT: bl %plt(__atomic_fetch_nand_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_nand_i64_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: .LBB147_1: # =>This Inner Loop Header: Depth=1 ; LA64-NEXT: ll.d $a2, $a0, 0 ; LA64-NEXT: and $a3, $a2, $a1 ; LA64-NEXT: nor $a3, $a3, $zero ; LA64-NEXT: sc.d $a3, $a0, 0 ; LA64-NEXT: beqz $a3, .LBB147_1 ; LA64-NEXT: # %bb.2: ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw nand ptr %a, i64 %b monotonic ret i64 %1 } define i8 @atomicrmw_and_i8_monotonic(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_and_i8_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: ori $a3, $zero, 255 ; LA32-NEXT: sll.w $a3, $a3, $a2 ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: orn $a1, $a1, $a3 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB148_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: and $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB148_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_and_i8_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: ori $a3, $zero, 255 ; LA64-NEXT: sll.w $a3, $a3, $a2 ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: orn $a1, $a1, $a3 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amand_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw and ptr %a, i8 %b monotonic ret i8 %1 } define i16 @atomicrmw_and_i16_monotonic(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_and_i16_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: lu12i.w $a2, 15 ; LA32-NEXT: ori $a2, $a2, 4095 ; LA32-NEXT: slli.w $a3, $a0, 3 ; LA32-NEXT: sll.w $a2, $a2, $a3 ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: sll.w $a1, $a1, $a3 ; LA32-NEXT: orn $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB149_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: and $a4, $a2, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB149_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a2, $a3 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_and_i16_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: lu12i.w $a2, 15 ; LA64-NEXT: ori $a2, $a2, 4095 ; LA64-NEXT: slli.d $a3, $a0, 3 ; LA64-NEXT: sll.w $a2, $a2, $a3 ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: sll.w $a1, $a1, $a3 ; LA64-NEXT: orn $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amand_db.w $a2, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a2, $a3 ; LA64-NEXT: ret %1 = atomicrmw and ptr %a, i16 %b monotonic ret i16 %1 } define i32 @atomicrmw_and_i32_monotonic(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_and_i32_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: .LBB150_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: and $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB150_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_and_i32_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: amand_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw and ptr %a, i32 %b monotonic ret i32 %1 } define i64 @atomicrmw_and_i64_monotonic(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_and_i64_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: move $a3, $zero ; LA32-NEXT: bl %plt(__atomic_fetch_and_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_and_i64_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: amand_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw and ptr %a, i64 %b monotonic ret i64 %1 } define i8 @atomicrmw_or_i8_monotonic(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_or_i8_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB152_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: or $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB152_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_or_i8_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw or ptr %a, i8 %b monotonic ret i8 %1 } define i16 @atomicrmw_or_i16_monotonic(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_or_i16_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB153_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: or $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB153_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_or_i16_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw or ptr %a, i16 %b monotonic ret i16 %1 } define i32 @atomicrmw_or_i32_monotonic(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_or_i32_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: .LBB154_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: or $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB154_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_or_i32_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: amor_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw or ptr %a, i32 %b monotonic ret i32 %1 } define i64 @atomicrmw_or_i64_monotonic(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_or_i64_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: move $a3, $zero ; LA32-NEXT: bl %plt(__atomic_fetch_or_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_or_i64_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: amor_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw or ptr %a, i64 %b monotonic ret i64 %1 } define i8 @atomicrmw_xor_i8_monotonic(ptr %a, i8 %b) nounwind { ; LA32-LABEL: atomicrmw_xor_i8_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: andi $a1, $a1, 255 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB156_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: xor $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB156_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xor_i8_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: andi $a1, $a1, 255 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amxor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw xor ptr %a, i8 %b monotonic ret i8 %1 } define i16 @atomicrmw_xor_i16_monotonic(ptr %a, i16 %b) nounwind { ; LA32-LABEL: atomicrmw_xor_i16_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: bstrpick.w $a1, $a1, 15, 0 ; LA32-NEXT: slli.w $a2, $a0, 3 ; LA32-NEXT: sll.w $a1, $a1, $a2 ; LA32-NEXT: bstrins.w $a0, $zero, 1, 0 ; LA32-NEXT: .LBB157_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a3, $a0, 0 ; LA32-NEXT: xor $a4, $a3, $a1 ; LA32-NEXT: sc.w $a4, $a0, 0 ; LA32-NEXT: beqz $a4, .LBB157_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: srl.w $a0, $a3, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xor_i16_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: bstrpick.d $a1, $a1, 15, 0 ; LA64-NEXT: slli.d $a2, $a0, 3 ; LA64-NEXT: sll.w $a1, $a1, $a2 ; LA64-NEXT: bstrins.d $a0, $zero, 1, 0 ; LA64-NEXT: amxor_db.w $a3, $a1, $a0 ; LA64-NEXT: srl.w $a0, $a3, $a2 ; LA64-NEXT: ret %1 = atomicrmw xor ptr %a, i16 %b monotonic ret i16 %1 } define i32 @atomicrmw_xor_i32_monotonic(ptr %a, i32 %b) nounwind { ; LA32-LABEL: atomicrmw_xor_i32_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: .LBB158_1: # =>This Inner Loop Header: Depth=1 ; LA32-NEXT: ll.w $a2, $a0, 0 ; LA32-NEXT: xor $a3, $a2, $a1 ; LA32-NEXT: sc.w $a3, $a0, 0 ; LA32-NEXT: beqz $a3, .LBB158_1 ; LA32-NEXT: # %bb.2: ; LA32-NEXT: move $a0, $a2 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xor_i32_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: amxor_db.w $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw xor ptr %a, i32 %b monotonic ret i32 %1 } define i64 @atomicrmw_xor_i64_monotonic(ptr %a, i64 %b) nounwind { ; LA32-LABEL: atomicrmw_xor_i64_monotonic: ; LA32: # %bb.0: ; LA32-NEXT: addi.w $sp, $sp, -16 ; LA32-NEXT: st.w $ra, $sp, 12 # 4-byte Folded Spill ; LA32-NEXT: move $a3, $zero ; LA32-NEXT: bl %plt(__atomic_fetch_xor_8) ; LA32-NEXT: ld.w $ra, $sp, 12 # 4-byte Folded Reload ; LA32-NEXT: addi.w $sp, $sp, 16 ; LA32-NEXT: ret ; ; LA64-LABEL: atomicrmw_xor_i64_monotonic: ; LA64: # %bb.0: ; LA64-NEXT: amxor_db.d $a2, $a1, $a0 ; LA64-NEXT: move $a0, $a2 ; LA64-NEXT: ret %1 = atomicrmw xor ptr %a, i64 %b monotonic ret i64 %1 }