; NOTE: Assertions have been autogenerated by utils/update_llc_test_checks.py
; RUN: llc -mtriple=powerpc64le-linux-gnu < %s | FileCheck %s -check-prefix=PPC64LE

define i8 @test0(i8* %ptr) {
; PPC64LE-LABEL: test0:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lbz 3, 0(3)
; PPC64LE-NEXT:    blr
  %val = load atomic i8, i8* %ptr unordered, align 1
  ret i8 %val
}

define i8 @test1(i8* %ptr) {
; PPC64LE-LABEL: test1:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lbz 3, 0(3)
; PPC64LE-NEXT:    blr
  %val = load atomic i8, i8* %ptr monotonic, align 1
  ret i8 %val
}

define i8 @test2(i8* %ptr) {
; PPC64LE-LABEL: test2:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lbz 3, 0(3)
; PPC64LE-NEXT:    cmpd 7, 3, 3
; PPC64LE-NEXT:    bne- 7, .+4
; PPC64LE-NEXT:    isync
; PPC64LE-NEXT:    blr
  %val = load atomic i8, i8* %ptr acquire, align 1
  ret i8 %val
}

define i8 @test3(i8* %ptr) {
; PPC64LE-LABEL: test3:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:    lbz 3, 0(3)
; PPC64LE-NEXT:    cmpd 7, 3, 3
; PPC64LE-NEXT:    bne- 7, .+4
; PPC64LE-NEXT:    isync
; PPC64LE-NEXT:    blr
  %val = load atomic i8, i8* %ptr seq_cst, align 1
  ret i8 %val
}

define i16 @test4(i16* %ptr) {
; PPC64LE-LABEL: test4:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lhz 3, 0(3)
; PPC64LE-NEXT:    blr
  %val = load atomic i16, i16* %ptr unordered, align 2
  ret i16 %val
}

define i16 @test5(i16* %ptr) {
; PPC64LE-LABEL: test5:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lhz 3, 0(3)
; PPC64LE-NEXT:    blr
  %val = load atomic i16, i16* %ptr monotonic, align 2
  ret i16 %val
}

define i16 @test6(i16* %ptr) {
; PPC64LE-LABEL: test6:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lhz 3, 0(3)
; PPC64LE-NEXT:    cmpd 7, 3, 3
; PPC64LE-NEXT:    bne- 7, .+4
; PPC64LE-NEXT:    isync
; PPC64LE-NEXT:    blr
  %val = load atomic i16, i16* %ptr acquire, align 2
  ret i16 %val
}

define i16 @test7(i16* %ptr) {
; PPC64LE-LABEL: test7:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:    lhz 3, 0(3)
; PPC64LE-NEXT:    cmpd 7, 3, 3
; PPC64LE-NEXT:    bne- 7, .+4
; PPC64LE-NEXT:    isync
; PPC64LE-NEXT:    blr
  %val = load atomic i16, i16* %ptr seq_cst, align 2
  ret i16 %val
}

define i32 @test8(i32* %ptr) {
; PPC64LE-LABEL: test8:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwz 3, 0(3)
; PPC64LE-NEXT:    blr
  %val = load atomic i32, i32* %ptr unordered, align 4
  ret i32 %val
}

define i32 @test9(i32* %ptr) {
; PPC64LE-LABEL: test9:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwz 3, 0(3)
; PPC64LE-NEXT:    blr
  %val = load atomic i32, i32* %ptr monotonic, align 4
  ret i32 %val
}

define i32 @test10(i32* %ptr) {
; PPC64LE-LABEL: test10:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwz 3, 0(3)
; PPC64LE-NEXT:    cmpd 7, 3, 3
; PPC64LE-NEXT:    bne- 7, .+4
; PPC64LE-NEXT:    isync
; PPC64LE-NEXT:    blr
  %val = load atomic i32, i32* %ptr acquire, align 4
  ret i32 %val
}

define i32 @test11(i32* %ptr) {
; PPC64LE-LABEL: test11:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:    lwz 3, 0(3)
; PPC64LE-NEXT:    cmpd 7, 3, 3
; PPC64LE-NEXT:    bne- 7, .+4
; PPC64LE-NEXT:    isync
; PPC64LE-NEXT:    blr
  %val = load atomic i32, i32* %ptr seq_cst, align 4
  ret i32 %val
}

define i64 @test12(i64* %ptr) {
; PPC64LE-LABEL: test12:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    ld 3, 0(3)
; PPC64LE-NEXT:    blr
  %val = load atomic i64, i64* %ptr unordered, align 8
  ret i64 %val
}

define i64 @test13(i64* %ptr) {
; PPC64LE-LABEL: test13:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    ld 3, 0(3)
; PPC64LE-NEXT:    blr
  %val = load atomic i64, i64* %ptr monotonic, align 8
  ret i64 %val
}

define i64 @test14(i64* %ptr) {
; PPC64LE-LABEL: test14:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    ld 3, 0(3)
; PPC64LE-NEXT:    cmpd 7, 3, 3
; PPC64LE-NEXT:    bne- 7, .+4
; PPC64LE-NEXT:    isync
; PPC64LE-NEXT:    blr
  %val = load atomic i64, i64* %ptr acquire, align 8
  ret i64 %val
}

define i64 @test15(i64* %ptr) {
; PPC64LE-LABEL: test15:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:    ld 3, 0(3)
; PPC64LE-NEXT:    cmpd 7, 3, 3
; PPC64LE-NEXT:    bne- 7, .+4
; PPC64LE-NEXT:    isync
; PPC64LE-NEXT:    blr
  %val = load atomic i64, i64* %ptr seq_cst, align 8
  ret i64 %val
}

define void @test16(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test16:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    stb 4, 0(3)
; PPC64LE-NEXT:    blr
  store atomic i8 %val, i8* %ptr unordered, align 1
  ret void
}

define void @test17(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test17:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    stb 4, 0(3)
; PPC64LE-NEXT:    blr
  store atomic i8 %val, i8* %ptr monotonic, align 1
  ret void
}

define void @test18(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test18:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    stb 4, 0(3)
; PPC64LE-NEXT:    blr
  store atomic i8 %val, i8* %ptr release, align 1
  ret void
}

define void @test19(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test19:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:    stb 4, 0(3)
; PPC64LE-NEXT:    blr
  store atomic i8 %val, i8* %ptr seq_cst, align 1
  ret void
}

define void @test20(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test20:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sth 4, 0(3)
; PPC64LE-NEXT:    blr
  store atomic i16 %val, i16* %ptr unordered, align 2
  ret void
}

define void @test21(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test21:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sth 4, 0(3)
; PPC64LE-NEXT:    blr
  store atomic i16 %val, i16* %ptr monotonic, align 2
  ret void
}

define void @test22(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test22:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    sth 4, 0(3)
; PPC64LE-NEXT:    blr
  store atomic i16 %val, i16* %ptr release, align 2
  ret void
}

define void @test23(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test23:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:    sth 4, 0(3)
; PPC64LE-NEXT:    blr
  store atomic i16 %val, i16* %ptr seq_cst, align 2
  ret void
}

define void @test24(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test24:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    stw 4, 0(3)
; PPC64LE-NEXT:    blr
  store atomic i32 %val, i32* %ptr unordered, align 4
  ret void
}

define void @test25(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test25:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    stw 4, 0(3)
; PPC64LE-NEXT:    blr
  store atomic i32 %val, i32* %ptr monotonic, align 4
  ret void
}

define void @test26(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test26:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    stw 4, 0(3)
; PPC64LE-NEXT:    blr
  store atomic i32 %val, i32* %ptr release, align 4
  ret void
}

define void @test27(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test27:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:    stw 4, 0(3)
; PPC64LE-NEXT:    blr
  store atomic i32 %val, i32* %ptr seq_cst, align 4
  ret void
}

define void @test28(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test28:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    std 4, 0(3)
; PPC64LE-NEXT:    blr
  store atomic i64 %val, i64* %ptr unordered, align 8
  ret void
}

define void @test29(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test29:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    std 4, 0(3)
; PPC64LE-NEXT:    blr
  store atomic i64 %val, i64* %ptr monotonic, align 8
  ret void
}

define void @test30(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test30:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    std 4, 0(3)
; PPC64LE-NEXT:    blr
  store atomic i64 %val, i64* %ptr release, align 8
  ret void
}

define void @test31(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test31:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:    std 4, 0(3)
; PPC64LE-NEXT:    blr
  store atomic i64 %val, i64* %ptr seq_cst, align 8
  ret void
}

define void @test32() {
; PPC64LE-LABEL: test32:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  fence acquire
  ret void
}

define void @test33() {
; PPC64LE-LABEL: test33:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  fence release
  ret void
}

define void @test34() {
; PPC64LE-LABEL: test34:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  fence acq_rel
  ret void
}

define void @test35() {
; PPC64LE-LABEL: test35:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:    blr
  fence seq_cst
  ret void
}

define void @test36() {
; PPC64LE-LABEL: test36:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  fence syncscope("singlethread") acquire
  ret void
}

define void @test37() {
; PPC64LE-LABEL: test37:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  fence syncscope("singlethread") release
  ret void
}

define void @test38() {
; PPC64LE-LABEL: test38:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  fence syncscope("singlethread") acq_rel
  ret void
}

define void @test39() {
; PPC64LE-LABEL: test39:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:    blr
  fence syncscope("singlethread") seq_cst
  ret void
}

define void @test40(i8* %ptr, i8 %cmp, i8 %val) {
; PPC64LE-LABEL: test40:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 24, 31
; PPC64LE-NEXT:    b .LBB40_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB40_1:
; PPC64LE-NEXT:    stbcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB40_2:
; PPC64LE-NEXT:    lbarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    beq 0, .LBB40_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i8* %ptr, i8 %cmp, i8 %val monotonic monotonic
  ret void
}

define void @test41(i8* %ptr, i8 %cmp, i8 %val) {
; PPC64LE-LABEL: test41:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 24, 31
; PPC64LE-NEXT:  .LBB41_1:
; PPC64LE-NEXT:    lbarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB41_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB41_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB41_4:
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i8* %ptr, i8 %cmp, i8 %val acquire monotonic
  ret void
}

define void @test42(i8* %ptr, i8 %cmp, i8 %val) {
; PPC64LE-LABEL: test42:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 24, 31
; PPC64LE-NEXT:  .LBB42_1:
; PPC64LE-NEXT:    lbarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB42_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB42_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB42_4:
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i8* %ptr, i8 %cmp, i8 %val acquire acquire
  ret void
}

define void @test43(i8* %ptr, i8 %cmp, i8 %val) {
; PPC64LE-LABEL: test43:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 24, 31
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    b .LBB43_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB43_1:
; PPC64LE-NEXT:    stbcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB43_2:
; PPC64LE-NEXT:    lbarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    beq 0, .LBB43_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i8* %ptr, i8 %cmp, i8 %val release monotonic
  ret void
}

define void @test44(i8* %ptr, i8 %cmp, i8 %val) {
; PPC64LE-LABEL: test44:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 24, 31
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    b .LBB44_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB44_1:
; PPC64LE-NEXT:    stbcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB44_2:
; PPC64LE-NEXT:    lbarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    beq 0, .LBB44_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i8* %ptr, i8 %cmp, i8 %val release acquire
  ret void
}

define void @test45(i8* %ptr, i8 %cmp, i8 %val) {
; PPC64LE-LABEL: test45:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 24, 31
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB45_1:
; PPC64LE-NEXT:    lbarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB45_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB45_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB45_4:
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i8* %ptr, i8 %cmp, i8 %val acq_rel monotonic
  ret void
}

define void @test46(i8* %ptr, i8 %cmp, i8 %val) {
; PPC64LE-LABEL: test46:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 24, 31
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB46_1:
; PPC64LE-NEXT:    lbarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB46_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB46_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB46_4:
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i8* %ptr, i8 %cmp, i8 %val acq_rel acquire
  ret void
}

define void @test47(i8* %ptr, i8 %cmp, i8 %val) {
; PPC64LE-LABEL: test47:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 24, 31
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB47_1:
; PPC64LE-NEXT:    lbarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB47_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB47_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB47_4:
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i8* %ptr, i8 %cmp, i8 %val seq_cst monotonic
  ret void
}

define void @test48(i8* %ptr, i8 %cmp, i8 %val) {
; PPC64LE-LABEL: test48:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 24, 31
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB48_1:
; PPC64LE-NEXT:    lbarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB48_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB48_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB48_4:
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i8* %ptr, i8 %cmp, i8 %val seq_cst acquire
  ret void
}

define void @test49(i8* %ptr, i8 %cmp, i8 %val) {
; PPC64LE-LABEL: test49:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 24, 31
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB49_1:
; PPC64LE-NEXT:    lbarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB49_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB49_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB49_4:
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i8* %ptr, i8 %cmp, i8 %val seq_cst seq_cst
  ret void
}

define void @test50(i16* %ptr, i16 %cmp, i16 %val) {
; PPC64LE-LABEL: test50:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 16, 31
; PPC64LE-NEXT:    b .LBB50_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB50_1:
; PPC64LE-NEXT:    sthcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB50_2:
; PPC64LE-NEXT:    lharx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    beq 0, .LBB50_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i16* %ptr, i16 %cmp, i16 %val monotonic monotonic
  ret void
}

define void @test51(i16* %ptr, i16 %cmp, i16 %val) {
; PPC64LE-LABEL: test51:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 16, 31
; PPC64LE-NEXT:  .LBB51_1:
; PPC64LE-NEXT:    lharx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB51_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB51_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB51_4:
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i16* %ptr, i16 %cmp, i16 %val acquire monotonic
  ret void
}

define void @test52(i16* %ptr, i16 %cmp, i16 %val) {
; PPC64LE-LABEL: test52:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 16, 31
; PPC64LE-NEXT:  .LBB52_1:
; PPC64LE-NEXT:    lharx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB52_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB52_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB52_4:
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i16* %ptr, i16 %cmp, i16 %val acquire acquire
  ret void
}

define void @test53(i16* %ptr, i16 %cmp, i16 %val) {
; PPC64LE-LABEL: test53:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 16, 31
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    b .LBB53_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB53_1:
; PPC64LE-NEXT:    sthcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB53_2:
; PPC64LE-NEXT:    lharx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    beq 0, .LBB53_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i16* %ptr, i16 %cmp, i16 %val release monotonic
  ret void
}

define void @test54(i16* %ptr, i16 %cmp, i16 %val) {
; PPC64LE-LABEL: test54:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 16, 31
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    b .LBB54_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB54_1:
; PPC64LE-NEXT:    sthcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB54_2:
; PPC64LE-NEXT:    lharx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    beq 0, .LBB54_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i16* %ptr, i16 %cmp, i16 %val release acquire
  ret void
}

define void @test55(i16* %ptr, i16 %cmp, i16 %val) {
; PPC64LE-LABEL: test55:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 16, 31
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB55_1:
; PPC64LE-NEXT:    lharx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB55_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB55_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB55_4:
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i16* %ptr, i16 %cmp, i16 %val acq_rel monotonic
  ret void
}

define void @test56(i16* %ptr, i16 %cmp, i16 %val) {
; PPC64LE-LABEL: test56:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 16, 31
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB56_1:
; PPC64LE-NEXT:    lharx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB56_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB56_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB56_4:
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i16* %ptr, i16 %cmp, i16 %val acq_rel acquire
  ret void
}

define void @test57(i16* %ptr, i16 %cmp, i16 %val) {
; PPC64LE-LABEL: test57:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 16, 31
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB57_1:
; PPC64LE-NEXT:    lharx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB57_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB57_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB57_4:
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i16* %ptr, i16 %cmp, i16 %val seq_cst monotonic
  ret void
}

define void @test58(i16* %ptr, i16 %cmp, i16 %val) {
; PPC64LE-LABEL: test58:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 16, 31
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB58_1:
; PPC64LE-NEXT:    lharx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB58_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB58_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB58_4:
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i16* %ptr, i16 %cmp, i16 %val seq_cst acquire
  ret void
}

define void @test59(i16* %ptr, i16 %cmp, i16 %val) {
; PPC64LE-LABEL: test59:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 16, 31
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB59_1:
; PPC64LE-NEXT:    lharx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB59_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB59_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB59_4:
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i16* %ptr, i16 %cmp, i16 %val seq_cst seq_cst
  ret void
}

define void @test60(i32* %ptr, i32 %cmp, i32 %val) {
; PPC64LE-LABEL: test60:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    b .LBB60_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB60_1:
; PPC64LE-NEXT:    stwcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB60_2:
; PPC64LE-NEXT:    lwarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    beq 0, .LBB60_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i32* %ptr, i32 %cmp, i32 %val monotonic monotonic
  ret void
}

define void @test61(i32* %ptr, i32 %cmp, i32 %val) {
; PPC64LE-LABEL: test61:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB61_1:
; PPC64LE-NEXT:    lwarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB61_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB61_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB61_4:
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i32* %ptr, i32 %cmp, i32 %val acquire monotonic
  ret void
}

define void @test62(i32* %ptr, i32 %cmp, i32 %val) {
; PPC64LE-LABEL: test62:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB62_1:
; PPC64LE-NEXT:    lwarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB62_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB62_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB62_4:
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i32* %ptr, i32 %cmp, i32 %val acquire acquire
  ret void
}

define void @test63(i32* %ptr, i32 %cmp, i32 %val) {
; PPC64LE-LABEL: test63:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    b .LBB63_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB63_1:
; PPC64LE-NEXT:    stwcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB63_2:
; PPC64LE-NEXT:    lwarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    beq 0, .LBB63_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i32* %ptr, i32 %cmp, i32 %val release monotonic
  ret void
}

define void @test64(i32* %ptr, i32 %cmp, i32 %val) {
; PPC64LE-LABEL: test64:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    b .LBB64_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB64_1:
; PPC64LE-NEXT:    stwcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB64_2:
; PPC64LE-NEXT:    lwarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    beq 0, .LBB64_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i32* %ptr, i32 %cmp, i32 %val release acquire
  ret void
}

define void @test65(i32* %ptr, i32 %cmp, i32 %val) {
; PPC64LE-LABEL: test65:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB65_1:
; PPC64LE-NEXT:    lwarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB65_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB65_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB65_4:
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i32* %ptr, i32 %cmp, i32 %val acq_rel monotonic
  ret void
}

define void @test66(i32* %ptr, i32 %cmp, i32 %val) {
; PPC64LE-LABEL: test66:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB66_1:
; PPC64LE-NEXT:    lwarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB66_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB66_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB66_4:
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i32* %ptr, i32 %cmp, i32 %val acq_rel acquire
  ret void
}

define void @test67(i32* %ptr, i32 %cmp, i32 %val) {
; PPC64LE-LABEL: test67:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB67_1:
; PPC64LE-NEXT:    lwarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB67_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB67_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB67_4:
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i32* %ptr, i32 %cmp, i32 %val seq_cst monotonic
  ret void
}

define void @test68(i32* %ptr, i32 %cmp, i32 %val) {
; PPC64LE-LABEL: test68:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB68_1:
; PPC64LE-NEXT:    lwarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB68_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB68_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB68_4:
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i32* %ptr, i32 %cmp, i32 %val seq_cst acquire
  ret void
}

define void @test69(i32* %ptr, i32 %cmp, i32 %val) {
; PPC64LE-LABEL: test69:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB69_1:
; PPC64LE-NEXT:    lwarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB69_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB69_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB69_4:
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i32* %ptr, i32 %cmp, i32 %val seq_cst seq_cst
  ret void
}

define void @test70(i64* %ptr, i64 %cmp, i64 %val) {
; PPC64LE-LABEL: test70:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    b .LBB70_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB70_1:
; PPC64LE-NEXT:    stdcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB70_2:
; PPC64LE-NEXT:    ldarx 6, 0, 3
; PPC64LE-NEXT:    cmpd 4, 6
; PPC64LE-NEXT:    beq 0, .LBB70_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i64* %ptr, i64 %cmp, i64 %val monotonic monotonic
  ret void
}

define void @test71(i64* %ptr, i64 %cmp, i64 %val) {
; PPC64LE-LABEL: test71:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB71_1:
; PPC64LE-NEXT:    ldarx 6, 0, 3
; PPC64LE-NEXT:    cmpd 4, 6
; PPC64LE-NEXT:    bne 0, .LBB71_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB71_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB71_4:
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i64* %ptr, i64 %cmp, i64 %val acquire monotonic
  ret void
}

define void @test72(i64* %ptr, i64 %cmp, i64 %val) {
; PPC64LE-LABEL: test72:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB72_1:
; PPC64LE-NEXT:    ldarx 6, 0, 3
; PPC64LE-NEXT:    cmpd 4, 6
; PPC64LE-NEXT:    bne 0, .LBB72_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB72_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB72_4:
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i64* %ptr, i64 %cmp, i64 %val acquire acquire
  ret void
}

define void @test73(i64* %ptr, i64 %cmp, i64 %val) {
; PPC64LE-LABEL: test73:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    b .LBB73_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB73_1:
; PPC64LE-NEXT:    stdcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB73_2:
; PPC64LE-NEXT:    ldarx 6, 0, 3
; PPC64LE-NEXT:    cmpd 4, 6
; PPC64LE-NEXT:    beq 0, .LBB73_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i64* %ptr, i64 %cmp, i64 %val release monotonic
  ret void
}

define void @test74(i64* %ptr, i64 %cmp, i64 %val) {
; PPC64LE-LABEL: test74:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    b .LBB74_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB74_1:
; PPC64LE-NEXT:    stdcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB74_2:
; PPC64LE-NEXT:    ldarx 6, 0, 3
; PPC64LE-NEXT:    cmpd 4, 6
; PPC64LE-NEXT:    beq 0, .LBB74_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i64* %ptr, i64 %cmp, i64 %val release acquire
  ret void
}

define void @test75(i64* %ptr, i64 %cmp, i64 %val) {
; PPC64LE-LABEL: test75:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB75_1:
; PPC64LE-NEXT:    ldarx 6, 0, 3
; PPC64LE-NEXT:    cmpd 4, 6
; PPC64LE-NEXT:    bne 0, .LBB75_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB75_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB75_4:
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i64* %ptr, i64 %cmp, i64 %val acq_rel monotonic
  ret void
}

define void @test76(i64* %ptr, i64 %cmp, i64 %val) {
; PPC64LE-LABEL: test76:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB76_1:
; PPC64LE-NEXT:    ldarx 6, 0, 3
; PPC64LE-NEXT:    cmpd 4, 6
; PPC64LE-NEXT:    bne 0, .LBB76_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB76_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB76_4:
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i64* %ptr, i64 %cmp, i64 %val acq_rel acquire
  ret void
}

define void @test77(i64* %ptr, i64 %cmp, i64 %val) {
; PPC64LE-LABEL: test77:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB77_1:
; PPC64LE-NEXT:    ldarx 6, 0, 3
; PPC64LE-NEXT:    cmpd 4, 6
; PPC64LE-NEXT:    bne 0, .LBB77_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB77_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB77_4:
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i64* %ptr, i64 %cmp, i64 %val seq_cst monotonic
  ret void
}

define void @test78(i64* %ptr, i64 %cmp, i64 %val) {
; PPC64LE-LABEL: test78:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB78_1:
; PPC64LE-NEXT:    ldarx 6, 0, 3
; PPC64LE-NEXT:    cmpd 4, 6
; PPC64LE-NEXT:    bne 0, .LBB78_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB78_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB78_4:
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i64* %ptr, i64 %cmp, i64 %val seq_cst acquire
  ret void
}

define void @test79(i64* %ptr, i64 %cmp, i64 %val) {
; PPC64LE-LABEL: test79:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB79_1:
; PPC64LE-NEXT:    ldarx 6, 0, 3
; PPC64LE-NEXT:    cmpd 4, 6
; PPC64LE-NEXT:    bne 0, .LBB79_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB79_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB79_4:
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i64* %ptr, i64 %cmp, i64 %val seq_cst seq_cst
  ret void
}

define void @test80(i8* %ptr, i8 %cmp, i8 %val) {
; PPC64LE-LABEL: test80:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 24, 31
; PPC64LE-NEXT:    b .LBB80_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB80_1:
; PPC64LE-NEXT:    stbcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB80_2:
; PPC64LE-NEXT:    lbarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    beq 0, .LBB80_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i8* %ptr, i8 %cmp, i8 %val syncscope("singlethread") monotonic monotonic
  ret void
}

define void @test81(i8* %ptr, i8 %cmp, i8 %val) {
; PPC64LE-LABEL: test81:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 24, 31
; PPC64LE-NEXT:  .LBB81_1:
; PPC64LE-NEXT:    lbarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB81_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB81_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB81_4:
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i8* %ptr, i8 %cmp, i8 %val syncscope("singlethread") acquire monotonic
  ret void
}

define void @test82(i8* %ptr, i8 %cmp, i8 %val) {
; PPC64LE-LABEL: test82:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 24, 31
; PPC64LE-NEXT:  .LBB82_1:
; PPC64LE-NEXT:    lbarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB82_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB82_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB82_4:
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i8* %ptr, i8 %cmp, i8 %val syncscope("singlethread") acquire acquire
  ret void
}

define void @test83(i8* %ptr, i8 %cmp, i8 %val) {
; PPC64LE-LABEL: test83:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 24, 31
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    b .LBB83_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB83_1:
; PPC64LE-NEXT:    stbcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB83_2:
; PPC64LE-NEXT:    lbarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    beq 0, .LBB83_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i8* %ptr, i8 %cmp, i8 %val syncscope("singlethread") release monotonic
  ret void
}

define void @test84(i8* %ptr, i8 %cmp, i8 %val) {
; PPC64LE-LABEL: test84:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 24, 31
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    b .LBB84_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB84_1:
; PPC64LE-NEXT:    stbcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB84_2:
; PPC64LE-NEXT:    lbarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    beq 0, .LBB84_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i8* %ptr, i8 %cmp, i8 %val syncscope("singlethread") release acquire
  ret void
}

define void @test85(i8* %ptr, i8 %cmp, i8 %val) {
; PPC64LE-LABEL: test85:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 24, 31
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB85_1:
; PPC64LE-NEXT:    lbarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB85_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB85_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB85_4:
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i8* %ptr, i8 %cmp, i8 %val syncscope("singlethread") acq_rel monotonic
  ret void
}

define void @test86(i8* %ptr, i8 %cmp, i8 %val) {
; PPC64LE-LABEL: test86:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 24, 31
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB86_1:
; PPC64LE-NEXT:    lbarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB86_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB86_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB86_4:
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i8* %ptr, i8 %cmp, i8 %val syncscope("singlethread") acq_rel acquire
  ret void
}

define void @test87(i8* %ptr, i8 %cmp, i8 %val) {
; PPC64LE-LABEL: test87:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 24, 31
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB87_1:
; PPC64LE-NEXT:    lbarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB87_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB87_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB87_4:
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i8* %ptr, i8 %cmp, i8 %val syncscope("singlethread") seq_cst monotonic
  ret void
}

define void @test88(i8* %ptr, i8 %cmp, i8 %val) {
; PPC64LE-LABEL: test88:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 24, 31
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB88_1:
; PPC64LE-NEXT:    lbarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB88_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB88_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB88_4:
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i8* %ptr, i8 %cmp, i8 %val syncscope("singlethread") seq_cst acquire
  ret void
}

define void @test89(i8* %ptr, i8 %cmp, i8 %val) {
; PPC64LE-LABEL: test89:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 24, 31
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB89_1:
; PPC64LE-NEXT:    lbarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB89_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB89_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB89_4:
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i8* %ptr, i8 %cmp, i8 %val syncscope("singlethread") seq_cst seq_cst
  ret void
}

define void @test90(i16* %ptr, i16 %cmp, i16 %val) {
; PPC64LE-LABEL: test90:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 16, 31
; PPC64LE-NEXT:    b .LBB90_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB90_1:
; PPC64LE-NEXT:    sthcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB90_2:
; PPC64LE-NEXT:    lharx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    beq 0, .LBB90_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i16* %ptr, i16 %cmp, i16 %val syncscope("singlethread") monotonic monotonic
  ret void
}

define void @test91(i16* %ptr, i16 %cmp, i16 %val) {
; PPC64LE-LABEL: test91:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 16, 31
; PPC64LE-NEXT:  .LBB91_1:
; PPC64LE-NEXT:    lharx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB91_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB91_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB91_4:
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i16* %ptr, i16 %cmp, i16 %val syncscope("singlethread") acquire monotonic
  ret void
}

define void @test92(i16* %ptr, i16 %cmp, i16 %val) {
; PPC64LE-LABEL: test92:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 16, 31
; PPC64LE-NEXT:  .LBB92_1:
; PPC64LE-NEXT:    lharx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB92_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB92_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB92_4:
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i16* %ptr, i16 %cmp, i16 %val syncscope("singlethread") acquire acquire
  ret void
}

define void @test93(i16* %ptr, i16 %cmp, i16 %val) {
; PPC64LE-LABEL: test93:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 16, 31
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    b .LBB93_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB93_1:
; PPC64LE-NEXT:    sthcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB93_2:
; PPC64LE-NEXT:    lharx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    beq 0, .LBB93_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i16* %ptr, i16 %cmp, i16 %val syncscope("singlethread") release monotonic
  ret void
}

define void @test94(i16* %ptr, i16 %cmp, i16 %val) {
; PPC64LE-LABEL: test94:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 16, 31
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    b .LBB94_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB94_1:
; PPC64LE-NEXT:    sthcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB94_2:
; PPC64LE-NEXT:    lharx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    beq 0, .LBB94_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i16* %ptr, i16 %cmp, i16 %val syncscope("singlethread") release acquire
  ret void
}

define void @test95(i16* %ptr, i16 %cmp, i16 %val) {
; PPC64LE-LABEL: test95:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 16, 31
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB95_1:
; PPC64LE-NEXT:    lharx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB95_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB95_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB95_4:
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i16* %ptr, i16 %cmp, i16 %val syncscope("singlethread") acq_rel monotonic
  ret void
}

define void @test96(i16* %ptr, i16 %cmp, i16 %val) {
; PPC64LE-LABEL: test96:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 16, 31
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB96_1:
; PPC64LE-NEXT:    lharx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB96_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB96_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB96_4:
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i16* %ptr, i16 %cmp, i16 %val syncscope("singlethread") acq_rel acquire
  ret void
}

define void @test97(i16* %ptr, i16 %cmp, i16 %val) {
; PPC64LE-LABEL: test97:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 16, 31
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB97_1:
; PPC64LE-NEXT:    lharx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB97_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB97_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB97_4:
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i16* %ptr, i16 %cmp, i16 %val syncscope("singlethread") seq_cst monotonic
  ret void
}

define void @test98(i16* %ptr, i16 %cmp, i16 %val) {
; PPC64LE-LABEL: test98:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 16, 31
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB98_1:
; PPC64LE-NEXT:    lharx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB98_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB98_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB98_4:
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i16* %ptr, i16 %cmp, i16 %val syncscope("singlethread") seq_cst acquire
  ret void
}

define void @test99(i16* %ptr, i16 %cmp, i16 %val) {
; PPC64LE-LABEL: test99:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    rlwinm 4, 4, 0, 16, 31
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB99_1:
; PPC64LE-NEXT:    lharx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB99_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB99_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB99_4:
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i16* %ptr, i16 %cmp, i16 %val syncscope("singlethread") seq_cst seq_cst
  ret void
}

define void @test100(i32* %ptr, i32 %cmp, i32 %val) {
; PPC64LE-LABEL: test100:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    b .LBB100_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB100_1:
; PPC64LE-NEXT:    stwcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB100_2:
; PPC64LE-NEXT:    lwarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    beq 0, .LBB100_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i32* %ptr, i32 %cmp, i32 %val syncscope("singlethread") monotonic monotonic
  ret void
}

define void @test101(i32* %ptr, i32 %cmp, i32 %val) {
; PPC64LE-LABEL: test101:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB101_1:
; PPC64LE-NEXT:    lwarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB101_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB101_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB101_4:
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i32* %ptr, i32 %cmp, i32 %val syncscope("singlethread") acquire monotonic
  ret void
}

define void @test102(i32* %ptr, i32 %cmp, i32 %val) {
; PPC64LE-LABEL: test102:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB102_1:
; PPC64LE-NEXT:    lwarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB102_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB102_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB102_4:
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i32* %ptr, i32 %cmp, i32 %val syncscope("singlethread") acquire acquire
  ret void
}

define void @test103(i32* %ptr, i32 %cmp, i32 %val) {
; PPC64LE-LABEL: test103:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    b .LBB103_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB103_1:
; PPC64LE-NEXT:    stwcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB103_2:
; PPC64LE-NEXT:    lwarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    beq 0, .LBB103_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i32* %ptr, i32 %cmp, i32 %val syncscope("singlethread") release monotonic
  ret void
}

define void @test104(i32* %ptr, i32 %cmp, i32 %val) {
; PPC64LE-LABEL: test104:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    b .LBB104_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB104_1:
; PPC64LE-NEXT:    stwcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB104_2:
; PPC64LE-NEXT:    lwarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    beq 0, .LBB104_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i32* %ptr, i32 %cmp, i32 %val syncscope("singlethread") release acquire
  ret void
}

define void @test105(i32* %ptr, i32 %cmp, i32 %val) {
; PPC64LE-LABEL: test105:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB105_1:
; PPC64LE-NEXT:    lwarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB105_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB105_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB105_4:
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i32* %ptr, i32 %cmp, i32 %val syncscope("singlethread") acq_rel monotonic
  ret void
}

define void @test106(i32* %ptr, i32 %cmp, i32 %val) {
; PPC64LE-LABEL: test106:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB106_1:
; PPC64LE-NEXT:    lwarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB106_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB106_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB106_4:
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i32* %ptr, i32 %cmp, i32 %val syncscope("singlethread") acq_rel acquire
  ret void
}

define void @test107(i32* %ptr, i32 %cmp, i32 %val) {
; PPC64LE-LABEL: test107:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB107_1:
; PPC64LE-NEXT:    lwarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB107_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB107_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB107_4:
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i32* %ptr, i32 %cmp, i32 %val syncscope("singlethread") seq_cst monotonic
  ret void
}

define void @test108(i32* %ptr, i32 %cmp, i32 %val) {
; PPC64LE-LABEL: test108:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB108_1:
; PPC64LE-NEXT:    lwarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB108_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB108_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB108_4:
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i32* %ptr, i32 %cmp, i32 %val syncscope("singlethread") seq_cst acquire
  ret void
}

define void @test109(i32* %ptr, i32 %cmp, i32 %val) {
; PPC64LE-LABEL: test109:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB109_1:
; PPC64LE-NEXT:    lwarx 6, 0, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bne 0, .LBB109_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB109_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB109_4:
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i32* %ptr, i32 %cmp, i32 %val syncscope("singlethread") seq_cst seq_cst
  ret void
}

define void @test110(i64* %ptr, i64 %cmp, i64 %val) {
; PPC64LE-LABEL: test110:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    b .LBB110_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB110_1:
; PPC64LE-NEXT:    stdcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB110_2:
; PPC64LE-NEXT:    ldarx 6, 0, 3
; PPC64LE-NEXT:    cmpd 4, 6
; PPC64LE-NEXT:    beq 0, .LBB110_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i64* %ptr, i64 %cmp, i64 %val syncscope("singlethread") monotonic monotonic
  ret void
}

define void @test111(i64* %ptr, i64 %cmp, i64 %val) {
; PPC64LE-LABEL: test111:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB111_1:
; PPC64LE-NEXT:    ldarx 6, 0, 3
; PPC64LE-NEXT:    cmpd 4, 6
; PPC64LE-NEXT:    bne 0, .LBB111_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB111_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB111_4:
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i64* %ptr, i64 %cmp, i64 %val syncscope("singlethread") acquire monotonic
  ret void
}

define void @test112(i64* %ptr, i64 %cmp, i64 %val) {
; PPC64LE-LABEL: test112:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB112_1:
; PPC64LE-NEXT:    ldarx 6, 0, 3
; PPC64LE-NEXT:    cmpd 4, 6
; PPC64LE-NEXT:    bne 0, .LBB112_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB112_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB112_4:
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i64* %ptr, i64 %cmp, i64 %val syncscope("singlethread") acquire acquire
  ret void
}

define void @test113(i64* %ptr, i64 %cmp, i64 %val) {
; PPC64LE-LABEL: test113:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    b .LBB113_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB113_1:
; PPC64LE-NEXT:    stdcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB113_2:
; PPC64LE-NEXT:    ldarx 6, 0, 3
; PPC64LE-NEXT:    cmpd 4, 6
; PPC64LE-NEXT:    beq 0, .LBB113_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i64* %ptr, i64 %cmp, i64 %val syncscope("singlethread") release monotonic
  ret void
}

define void @test114(i64* %ptr, i64 %cmp, i64 %val) {
; PPC64LE-LABEL: test114:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    b .LBB114_2
; PPC64LE-NEXT:    .p2align 5
; PPC64LE-NEXT:  .LBB114_1:
; PPC64LE-NEXT:    stdcx. 5, 0, 3
; PPC64LE-NEXT:    beqlr 0
; PPC64LE-NEXT:  .LBB114_2:
; PPC64LE-NEXT:    ldarx 6, 0, 3
; PPC64LE-NEXT:    cmpd 4, 6
; PPC64LE-NEXT:    beq 0, .LBB114_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    blr
  %res = cmpxchg i64* %ptr, i64 %cmp, i64 %val syncscope("singlethread") release acquire
  ret void
}

define void @test115(i64* %ptr, i64 %cmp, i64 %val) {
; PPC64LE-LABEL: test115:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB115_1:
; PPC64LE-NEXT:    ldarx 6, 0, 3
; PPC64LE-NEXT:    cmpd 4, 6
; PPC64LE-NEXT:    bne 0, .LBB115_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB115_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB115_4:
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i64* %ptr, i64 %cmp, i64 %val syncscope("singlethread") acq_rel monotonic
  ret void
}

define void @test116(i64* %ptr, i64 %cmp, i64 %val) {
; PPC64LE-LABEL: test116:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB116_1:
; PPC64LE-NEXT:    ldarx 6, 0, 3
; PPC64LE-NEXT:    cmpd 4, 6
; PPC64LE-NEXT:    bne 0, .LBB116_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB116_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB116_4:
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i64* %ptr, i64 %cmp, i64 %val syncscope("singlethread") acq_rel acquire
  ret void
}

define void @test117(i64* %ptr, i64 %cmp, i64 %val) {
; PPC64LE-LABEL: test117:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB117_1:
; PPC64LE-NEXT:    ldarx 6, 0, 3
; PPC64LE-NEXT:    cmpd 4, 6
; PPC64LE-NEXT:    bne 0, .LBB117_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB117_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB117_4:
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i64* %ptr, i64 %cmp, i64 %val syncscope("singlethread") seq_cst monotonic
  ret void
}

define void @test118(i64* %ptr, i64 %cmp, i64 %val) {
; PPC64LE-LABEL: test118:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB118_1:
; PPC64LE-NEXT:    ldarx 6, 0, 3
; PPC64LE-NEXT:    cmpd 4, 6
; PPC64LE-NEXT:    bne 0, .LBB118_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB118_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB118_4:
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i64* %ptr, i64 %cmp, i64 %val syncscope("singlethread") seq_cst acquire
  ret void
}

define void @test119(i64* %ptr, i64 %cmp, i64 %val) {
; PPC64LE-LABEL: test119:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB119_1:
; PPC64LE-NEXT:    ldarx 6, 0, 3
; PPC64LE-NEXT:    cmpd 4, 6
; PPC64LE-NEXT:    bne 0, .LBB119_4
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 5, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB119_1
; PPC64LE-NEXT:  # %bb.3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
; PPC64LE-NEXT:  .LBB119_4:
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %res = cmpxchg i64* %ptr, i64 %cmp, i64 %val syncscope("singlethread") seq_cst seq_cst
  ret void
}

define i8 @test120(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test120:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB120_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB120_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i8* %ptr, i8 %val monotonic
  ret i8 %ret
}

define i8 @test121(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test121:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB121_1:
; PPC64LE-NEXT:    lbarx 3, 0, 5
; PPC64LE-NEXT:    stbcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB121_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i8* %ptr, i8 %val acquire
  ret i8 %ret
}

define i8 @test122(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test122:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB122_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB122_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i8* %ptr, i8 %val release
  ret i8 %ret
}

define i8 @test123(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test123:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB123_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB123_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i8* %ptr, i8 %val acq_rel
  ret i8 %ret
}

define i8 @test124(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test124:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB124_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB124_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i8* %ptr, i8 %val seq_cst
  ret i8 %ret
}

define i16 @test125(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test125:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB125_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB125_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i16* %ptr, i16 %val monotonic
  ret i16 %ret
}

define i16 @test126(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test126:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB126_1:
; PPC64LE-NEXT:    lharx 3, 0, 5
; PPC64LE-NEXT:    sthcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB126_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i16* %ptr, i16 %val acquire
  ret i16 %ret
}

define i16 @test127(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test127:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB127_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB127_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i16* %ptr, i16 %val release
  ret i16 %ret
}

define i16 @test128(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test128:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB128_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB128_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i16* %ptr, i16 %val acq_rel
  ret i16 %ret
}

define i16 @test129(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test129:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB129_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB129_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i16* %ptr, i16 %val seq_cst
  ret i16 %ret
}

define i32 @test130(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test130:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB130_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB130_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i32* %ptr, i32 %val monotonic
  ret i32 %ret
}

define i32 @test131(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test131:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB131_1:
; PPC64LE-NEXT:    lwarx 3, 0, 5
; PPC64LE-NEXT:    stwcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB131_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i32* %ptr, i32 %val acquire
  ret i32 %ret
}

define i32 @test132(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test132:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB132_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB132_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i32* %ptr, i32 %val release
  ret i32 %ret
}

define i32 @test133(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test133:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB133_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB133_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i32* %ptr, i32 %val acq_rel
  ret i32 %ret
}

define i32 @test134(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test134:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB134_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB134_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i32* %ptr, i32 %val seq_cst
  ret i32 %ret
}

define i64 @test135(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test135:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB135_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB135_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i64* %ptr, i64 %val monotonic
  ret i64 %ret
}

define i64 @test136(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test136:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB136_1:
; PPC64LE-NEXT:    ldarx 3, 0, 5
; PPC64LE-NEXT:    stdcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB136_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i64* %ptr, i64 %val acquire
  ret i64 %ret
}

define i64 @test137(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test137:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB137_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB137_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i64* %ptr, i64 %val release
  ret i64 %ret
}

define i64 @test138(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test138:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB138_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB138_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i64* %ptr, i64 %val acq_rel
  ret i64 %ret
}

define i64 @test139(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test139:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB139_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB139_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i64* %ptr, i64 %val seq_cst
  ret i64 %ret
}

define i8 @test140(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test140:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB140_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB140_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i8* %ptr, i8 %val monotonic
  ret i8 %ret
}

define i8 @test141(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test141:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB141_1:
; PPC64LE-NEXT:    lbarx 3, 0, 5
; PPC64LE-NEXT:    add 6, 4, 3
; PPC64LE-NEXT:    stbcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB141_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i8* %ptr, i8 %val acquire
  ret i8 %ret
}

define i8 @test142(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test142:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB142_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB142_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i8* %ptr, i8 %val release
  ret i8 %ret
}

define i8 @test143(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test143:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB143_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB143_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i8* %ptr, i8 %val acq_rel
  ret i8 %ret
}

define i8 @test144(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test144:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB144_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB144_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i8* %ptr, i8 %val seq_cst
  ret i8 %ret
}

define i16 @test145(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test145:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB145_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB145_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i16* %ptr, i16 %val monotonic
  ret i16 %ret
}

define i16 @test146(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test146:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB146_1:
; PPC64LE-NEXT:    lharx 3, 0, 5
; PPC64LE-NEXT:    add 6, 4, 3
; PPC64LE-NEXT:    sthcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB146_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i16* %ptr, i16 %val acquire
  ret i16 %ret
}

define i16 @test147(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test147:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB147_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB147_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i16* %ptr, i16 %val release
  ret i16 %ret
}

define i16 @test148(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test148:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB148_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB148_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i16* %ptr, i16 %val acq_rel
  ret i16 %ret
}

define i16 @test149(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test149:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB149_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB149_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i16* %ptr, i16 %val seq_cst
  ret i16 %ret
}

define i32 @test150(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test150:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB150_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB150_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i32* %ptr, i32 %val monotonic
  ret i32 %ret
}

define i32 @test151(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test151:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB151_1:
; PPC64LE-NEXT:    lwarx 3, 0, 5
; PPC64LE-NEXT:    add 6, 4, 3
; PPC64LE-NEXT:    stwcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB151_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i32* %ptr, i32 %val acquire
  ret i32 %ret
}

define i32 @test152(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test152:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB152_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB152_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i32* %ptr, i32 %val release
  ret i32 %ret
}

define i32 @test153(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test153:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB153_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB153_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i32* %ptr, i32 %val acq_rel
  ret i32 %ret
}

define i32 @test154(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test154:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB154_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB154_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i32* %ptr, i32 %val seq_cst
  ret i32 %ret
}

define i64 @test155(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test155:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB155_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB155_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i64* %ptr, i64 %val monotonic
  ret i64 %ret
}

define i64 @test156(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test156:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB156_1:
; PPC64LE-NEXT:    ldarx 3, 0, 5
; PPC64LE-NEXT:    add 6, 4, 3
; PPC64LE-NEXT:    stdcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB156_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i64* %ptr, i64 %val acquire
  ret i64 %ret
}

define i64 @test157(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test157:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB157_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB157_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i64* %ptr, i64 %val release
  ret i64 %ret
}

define i64 @test158(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test158:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB158_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB158_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i64* %ptr, i64 %val acq_rel
  ret i64 %ret
}

define i64 @test159(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test159:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB159_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB159_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i64* %ptr, i64 %val seq_cst
  ret i64 %ret
}

define i8 @test160(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test160:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB160_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB160_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i8* %ptr, i8 %val monotonic
  ret i8 %ret
}

define i8 @test161(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test161:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB161_1:
; PPC64LE-NEXT:    lbarx 3, 0, 5
; PPC64LE-NEXT:    subf 6, 4, 3
; PPC64LE-NEXT:    stbcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB161_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i8* %ptr, i8 %val acquire
  ret i8 %ret
}

define i8 @test162(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test162:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB162_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB162_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i8* %ptr, i8 %val release
  ret i8 %ret
}

define i8 @test163(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test163:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB163_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB163_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i8* %ptr, i8 %val acq_rel
  ret i8 %ret
}

define i8 @test164(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test164:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB164_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB164_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i8* %ptr, i8 %val seq_cst
  ret i8 %ret
}

define i16 @test165(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test165:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB165_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB165_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i16* %ptr, i16 %val monotonic
  ret i16 %ret
}

define i16 @test166(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test166:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB166_1:
; PPC64LE-NEXT:    lharx 3, 0, 5
; PPC64LE-NEXT:    subf 6, 4, 3
; PPC64LE-NEXT:    sthcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB166_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i16* %ptr, i16 %val acquire
  ret i16 %ret
}

define i16 @test167(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test167:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB167_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB167_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i16* %ptr, i16 %val release
  ret i16 %ret
}

define i16 @test168(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test168:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB168_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB168_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i16* %ptr, i16 %val acq_rel
  ret i16 %ret
}

define i16 @test169(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test169:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB169_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB169_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i16* %ptr, i16 %val seq_cst
  ret i16 %ret
}

define i32 @test170(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test170:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB170_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB170_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i32* %ptr, i32 %val monotonic
  ret i32 %ret
}

define i32 @test171(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test171:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB171_1:
; PPC64LE-NEXT:    lwarx 3, 0, 5
; PPC64LE-NEXT:    subf 6, 4, 3
; PPC64LE-NEXT:    stwcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB171_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i32* %ptr, i32 %val acquire
  ret i32 %ret
}

define i32 @test172(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test172:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB172_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB172_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i32* %ptr, i32 %val release
  ret i32 %ret
}

define i32 @test173(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test173:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB173_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB173_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i32* %ptr, i32 %val acq_rel
  ret i32 %ret
}

define i32 @test174(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test174:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB174_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB174_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i32* %ptr, i32 %val seq_cst
  ret i32 %ret
}

define i64 @test175(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test175:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB175_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    sub 6, 5, 4
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB175_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i64* %ptr, i64 %val monotonic
  ret i64 %ret
}

define i64 @test176(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test176:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB176_1:
; PPC64LE-NEXT:    ldarx 3, 0, 5
; PPC64LE-NEXT:    sub 6, 3, 4
; PPC64LE-NEXT:    stdcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB176_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i64* %ptr, i64 %val acquire
  ret i64 %ret
}

define i64 @test177(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test177:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB177_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    sub 6, 5, 4
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB177_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i64* %ptr, i64 %val release
  ret i64 %ret
}

define i64 @test178(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test178:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB178_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    sub 6, 5, 4
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB178_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i64* %ptr, i64 %val acq_rel
  ret i64 %ret
}

define i64 @test179(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test179:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB179_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    sub 6, 5, 4
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB179_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i64* %ptr, i64 %val seq_cst
  ret i64 %ret
}

define i8 @test180(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test180:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB180_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB180_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i8* %ptr, i8 %val monotonic
  ret i8 %ret
}

define i8 @test181(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test181:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB181_1:
; PPC64LE-NEXT:    lbarx 3, 0, 5
; PPC64LE-NEXT:    and 6, 4, 3
; PPC64LE-NEXT:    stbcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB181_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i8* %ptr, i8 %val acquire
  ret i8 %ret
}

define i8 @test182(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test182:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB182_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB182_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i8* %ptr, i8 %val release
  ret i8 %ret
}

define i8 @test183(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test183:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB183_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB183_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i8* %ptr, i8 %val acq_rel
  ret i8 %ret
}

define i8 @test184(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test184:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB184_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB184_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i8* %ptr, i8 %val seq_cst
  ret i8 %ret
}

define i16 @test185(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test185:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB185_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB185_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i16* %ptr, i16 %val monotonic
  ret i16 %ret
}

define i16 @test186(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test186:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB186_1:
; PPC64LE-NEXT:    lharx 3, 0, 5
; PPC64LE-NEXT:    and 6, 4, 3
; PPC64LE-NEXT:    sthcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB186_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i16* %ptr, i16 %val acquire
  ret i16 %ret
}

define i16 @test187(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test187:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB187_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB187_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i16* %ptr, i16 %val release
  ret i16 %ret
}

define i16 @test188(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test188:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB188_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB188_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i16* %ptr, i16 %val acq_rel
  ret i16 %ret
}

define i16 @test189(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test189:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB189_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB189_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i16* %ptr, i16 %val seq_cst
  ret i16 %ret
}

define i32 @test190(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test190:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB190_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB190_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i32* %ptr, i32 %val monotonic
  ret i32 %ret
}

define i32 @test191(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test191:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB191_1:
; PPC64LE-NEXT:    lwarx 3, 0, 5
; PPC64LE-NEXT:    and 6, 4, 3
; PPC64LE-NEXT:    stwcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB191_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i32* %ptr, i32 %val acquire
  ret i32 %ret
}

define i32 @test192(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test192:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB192_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB192_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i32* %ptr, i32 %val release
  ret i32 %ret
}

define i32 @test193(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test193:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB193_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB193_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i32* %ptr, i32 %val acq_rel
  ret i32 %ret
}

define i32 @test194(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test194:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB194_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB194_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i32* %ptr, i32 %val seq_cst
  ret i32 %ret
}

define i64 @test195(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test195:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB195_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB195_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i64* %ptr, i64 %val monotonic
  ret i64 %ret
}

define i64 @test196(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test196:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB196_1:
; PPC64LE-NEXT:    ldarx 3, 0, 5
; PPC64LE-NEXT:    and 6, 4, 3
; PPC64LE-NEXT:    stdcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB196_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i64* %ptr, i64 %val acquire
  ret i64 %ret
}

define i64 @test197(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test197:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB197_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB197_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i64* %ptr, i64 %val release
  ret i64 %ret
}

define i64 @test198(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test198:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB198_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB198_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i64* %ptr, i64 %val acq_rel
  ret i64 %ret
}

define i64 @test199(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test199:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB199_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB199_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i64* %ptr, i64 %val seq_cst
  ret i64 %ret
}

define i8 @test200(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test200:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB200_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB200_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i8* %ptr, i8 %val monotonic
  ret i8 %ret
}

define i8 @test201(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test201:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB201_1:
; PPC64LE-NEXT:    lbarx 3, 0, 5
; PPC64LE-NEXT:    nand 6, 4, 3
; PPC64LE-NEXT:    stbcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB201_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i8* %ptr, i8 %val acquire
  ret i8 %ret
}

define i8 @test202(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test202:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB202_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB202_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i8* %ptr, i8 %val release
  ret i8 %ret
}

define i8 @test203(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test203:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB203_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB203_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i8* %ptr, i8 %val acq_rel
  ret i8 %ret
}

define i8 @test204(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test204:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB204_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB204_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i8* %ptr, i8 %val seq_cst
  ret i8 %ret
}

define i16 @test205(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test205:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB205_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB205_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i16* %ptr, i16 %val monotonic
  ret i16 %ret
}

define i16 @test206(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test206:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB206_1:
; PPC64LE-NEXT:    lharx 3, 0, 5
; PPC64LE-NEXT:    nand 6, 4, 3
; PPC64LE-NEXT:    sthcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB206_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i16* %ptr, i16 %val acquire
  ret i16 %ret
}

define i16 @test207(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test207:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB207_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB207_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i16* %ptr, i16 %val release
  ret i16 %ret
}

define i16 @test208(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test208:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB208_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB208_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i16* %ptr, i16 %val acq_rel
  ret i16 %ret
}

define i16 @test209(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test209:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB209_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB209_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i16* %ptr, i16 %val seq_cst
  ret i16 %ret
}

define i32 @test210(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test210:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB210_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB210_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i32* %ptr, i32 %val monotonic
  ret i32 %ret
}

define i32 @test211(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test211:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB211_1:
; PPC64LE-NEXT:    lwarx 3, 0, 5
; PPC64LE-NEXT:    nand 6, 4, 3
; PPC64LE-NEXT:    stwcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB211_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i32* %ptr, i32 %val acquire
  ret i32 %ret
}

define i32 @test212(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test212:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB212_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB212_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i32* %ptr, i32 %val release
  ret i32 %ret
}

define i32 @test213(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test213:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB213_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB213_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i32* %ptr, i32 %val acq_rel
  ret i32 %ret
}

define i32 @test214(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test214:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB214_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB214_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i32* %ptr, i32 %val seq_cst
  ret i32 %ret
}

define i64 @test215(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test215:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB215_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB215_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i64* %ptr, i64 %val monotonic
  ret i64 %ret
}

define i64 @test216(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test216:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB216_1:
; PPC64LE-NEXT:    ldarx 3, 0, 5
; PPC64LE-NEXT:    nand 6, 4, 3
; PPC64LE-NEXT:    stdcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB216_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i64* %ptr, i64 %val acquire
  ret i64 %ret
}

define i64 @test217(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test217:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB217_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB217_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i64* %ptr, i64 %val release
  ret i64 %ret
}

define i64 @test218(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test218:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB218_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB218_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i64* %ptr, i64 %val acq_rel
  ret i64 %ret
}

define i64 @test219(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test219:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB219_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB219_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i64* %ptr, i64 %val seq_cst
  ret i64 %ret
}

define i8 @test220(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test220:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB220_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB220_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i8* %ptr, i8 %val monotonic
  ret i8 %ret
}

define i8 @test221(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test221:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB221_1:
; PPC64LE-NEXT:    lbarx 3, 0, 5
; PPC64LE-NEXT:    or 6, 4, 3
; PPC64LE-NEXT:    stbcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB221_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i8* %ptr, i8 %val acquire
  ret i8 %ret
}

define i8 @test222(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test222:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB222_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB222_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i8* %ptr, i8 %val release
  ret i8 %ret
}

define i8 @test223(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test223:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB223_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB223_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i8* %ptr, i8 %val acq_rel
  ret i8 %ret
}

define i8 @test224(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test224:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB224_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB224_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i8* %ptr, i8 %val seq_cst
  ret i8 %ret
}

define i16 @test225(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test225:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB225_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB225_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i16* %ptr, i16 %val monotonic
  ret i16 %ret
}

define i16 @test226(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test226:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB226_1:
; PPC64LE-NEXT:    lharx 3, 0, 5
; PPC64LE-NEXT:    or 6, 4, 3
; PPC64LE-NEXT:    sthcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB226_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i16* %ptr, i16 %val acquire
  ret i16 %ret
}

define i16 @test227(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test227:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB227_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB227_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i16* %ptr, i16 %val release
  ret i16 %ret
}

define i16 @test228(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test228:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB228_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB228_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i16* %ptr, i16 %val acq_rel
  ret i16 %ret
}

define i16 @test229(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test229:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB229_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB229_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i16* %ptr, i16 %val seq_cst
  ret i16 %ret
}

define i32 @test230(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test230:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB230_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB230_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i32* %ptr, i32 %val monotonic
  ret i32 %ret
}

define i32 @test231(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test231:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB231_1:
; PPC64LE-NEXT:    lwarx 3, 0, 5
; PPC64LE-NEXT:    or 6, 4, 3
; PPC64LE-NEXT:    stwcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB231_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i32* %ptr, i32 %val acquire
  ret i32 %ret
}

define i32 @test232(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test232:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB232_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB232_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i32* %ptr, i32 %val release
  ret i32 %ret
}

define i32 @test233(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test233:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB233_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB233_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i32* %ptr, i32 %val acq_rel
  ret i32 %ret
}

define i32 @test234(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test234:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB234_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB234_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i32* %ptr, i32 %val seq_cst
  ret i32 %ret
}

define i64 @test235(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test235:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB235_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB235_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i64* %ptr, i64 %val monotonic
  ret i64 %ret
}

define i64 @test236(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test236:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB236_1:
; PPC64LE-NEXT:    ldarx 3, 0, 5
; PPC64LE-NEXT:    or 6, 4, 3
; PPC64LE-NEXT:    stdcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB236_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i64* %ptr, i64 %val acquire
  ret i64 %ret
}

define i64 @test237(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test237:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB237_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB237_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i64* %ptr, i64 %val release
  ret i64 %ret
}

define i64 @test238(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test238:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB238_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB238_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i64* %ptr, i64 %val acq_rel
  ret i64 %ret
}

define i64 @test239(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test239:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB239_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB239_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i64* %ptr, i64 %val seq_cst
  ret i64 %ret
}

define i8 @test240(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test240:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB240_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB240_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i8* %ptr, i8 %val monotonic
  ret i8 %ret
}

define i8 @test241(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test241:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB241_1:
; PPC64LE-NEXT:    lbarx 3, 0, 5
; PPC64LE-NEXT:    xor 6, 4, 3
; PPC64LE-NEXT:    stbcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB241_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i8* %ptr, i8 %val acquire
  ret i8 %ret
}

define i8 @test242(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test242:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB242_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB242_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i8* %ptr, i8 %val release
  ret i8 %ret
}

define i8 @test243(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test243:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB243_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB243_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i8* %ptr, i8 %val acq_rel
  ret i8 %ret
}

define i8 @test244(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test244:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB244_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB244_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i8* %ptr, i8 %val seq_cst
  ret i8 %ret
}

define i16 @test245(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test245:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB245_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB245_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i16* %ptr, i16 %val monotonic
  ret i16 %ret
}

define i16 @test246(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test246:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB246_1:
; PPC64LE-NEXT:    lharx 3, 0, 5
; PPC64LE-NEXT:    xor 6, 4, 3
; PPC64LE-NEXT:    sthcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB246_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i16* %ptr, i16 %val acquire
  ret i16 %ret
}

define i16 @test247(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test247:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB247_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB247_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i16* %ptr, i16 %val release
  ret i16 %ret
}

define i16 @test248(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test248:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB248_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB248_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i16* %ptr, i16 %val acq_rel
  ret i16 %ret
}

define i16 @test249(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test249:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB249_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB249_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i16* %ptr, i16 %val seq_cst
  ret i16 %ret
}

define i32 @test250(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test250:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB250_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB250_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i32* %ptr, i32 %val monotonic
  ret i32 %ret
}

define i32 @test251(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test251:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB251_1:
; PPC64LE-NEXT:    lwarx 3, 0, 5
; PPC64LE-NEXT:    xor 6, 4, 3
; PPC64LE-NEXT:    stwcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB251_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i32* %ptr, i32 %val acquire
  ret i32 %ret
}

define i32 @test252(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test252:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB252_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB252_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i32* %ptr, i32 %val release
  ret i32 %ret
}

define i32 @test253(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test253:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB253_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB253_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i32* %ptr, i32 %val acq_rel
  ret i32 %ret
}

define i32 @test254(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test254:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB254_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB254_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i32* %ptr, i32 %val seq_cst
  ret i32 %ret
}

define i64 @test255(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test255:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB255_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB255_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i64* %ptr, i64 %val monotonic
  ret i64 %ret
}

define i64 @test256(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test256:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB256_1:
; PPC64LE-NEXT:    ldarx 3, 0, 5
; PPC64LE-NEXT:    xor 6, 4, 3
; PPC64LE-NEXT:    stdcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB256_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i64* %ptr, i64 %val acquire
  ret i64 %ret
}

define i64 @test257(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test257:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB257_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB257_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i64* %ptr, i64 %val release
  ret i64 %ret
}

define i64 @test258(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test258:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB258_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB258_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i64* %ptr, i64 %val acq_rel
  ret i64 %ret
}

define i64 @test259(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test259:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB259_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB259_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i64* %ptr, i64 %val seq_cst
  ret i64 %ret
}

define i8 @test260(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test260:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB260_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    extsb 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    ble 0, .LBB260_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB260_1
; PPC64LE-NEXT:  .LBB260_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i8* %ptr, i8 %val monotonic
  ret i8 %ret
}

define i8 @test261(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test261:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB261_1:
; PPC64LE-NEXT:    lbarx 3, 0, 5
; PPC64LE-NEXT:    extsb 6, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    ble 0, .LBB261_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB261_1
; PPC64LE-NEXT:  .LBB261_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i8* %ptr, i8 %val acquire
  ret i8 %ret
}

define i8 @test262(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test262:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB262_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    extsb 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    ble 0, .LBB262_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB262_1
; PPC64LE-NEXT:  .LBB262_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i8* %ptr, i8 %val release
  ret i8 %ret
}

define i8 @test263(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test263:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB263_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    extsb 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    ble 0, .LBB263_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB263_1
; PPC64LE-NEXT:  .LBB263_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i8* %ptr, i8 %val acq_rel
  ret i8 %ret
}

define i8 @test264(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test264:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB264_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    extsb 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    ble 0, .LBB264_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB264_1
; PPC64LE-NEXT:  .LBB264_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i8* %ptr, i8 %val seq_cst
  ret i8 %ret
}

define i16 @test265(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test265:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB265_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    extsh 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    ble 0, .LBB265_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB265_1
; PPC64LE-NEXT:  .LBB265_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i16* %ptr, i16 %val monotonic
  ret i16 %ret
}

define i16 @test266(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test266:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB266_1:
; PPC64LE-NEXT:    lharx 3, 0, 5
; PPC64LE-NEXT:    extsh 6, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    ble 0, .LBB266_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB266_1
; PPC64LE-NEXT:  .LBB266_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i16* %ptr, i16 %val acquire
  ret i16 %ret
}

define i16 @test267(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test267:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB267_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    extsh 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    ble 0, .LBB267_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB267_1
; PPC64LE-NEXT:  .LBB267_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i16* %ptr, i16 %val release
  ret i16 %ret
}

define i16 @test268(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test268:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB268_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    extsh 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    ble 0, .LBB268_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB268_1
; PPC64LE-NEXT:  .LBB268_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i16* %ptr, i16 %val acq_rel
  ret i16 %ret
}

define i16 @test269(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test269:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB269_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    extsh 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    ble 0, .LBB269_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB269_1
; PPC64LE-NEXT:  .LBB269_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i16* %ptr, i16 %val seq_cst
  ret i16 %ret
}

define i32 @test270(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test270:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB270_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmpw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB270_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB270_1
; PPC64LE-NEXT:  .LBB270_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i32* %ptr, i32 %val monotonic
  ret i32 %ret
}

define i32 @test271(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test271:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB271_1:
; PPC64LE-NEXT:    lwarx 3, 0, 5
; PPC64LE-NEXT:    cmpw 4, 3
; PPC64LE-NEXT:    ble 0, .LBB271_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB271_1
; PPC64LE-NEXT:  .LBB271_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i32* %ptr, i32 %val acquire
  ret i32 %ret
}

define i32 @test272(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test272:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB272_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmpw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB272_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB272_1
; PPC64LE-NEXT:  .LBB272_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i32* %ptr, i32 %val release
  ret i32 %ret
}

define i32 @test273(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test273:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB273_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmpw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB273_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB273_1
; PPC64LE-NEXT:  .LBB273_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i32* %ptr, i32 %val acq_rel
  ret i32 %ret
}

define i32 @test274(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test274:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB274_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmpw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB274_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB274_1
; PPC64LE-NEXT:  .LBB274_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i32* %ptr, i32 %val seq_cst
  ret i32 %ret
}

define i64 @test275(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test275:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB275_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpd 4, 5
; PPC64LE-NEXT:    ble 0, .LBB275_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB275_1
; PPC64LE-NEXT:  .LBB275_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i64* %ptr, i64 %val monotonic
  ret i64 %ret
}

define i64 @test276(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test276:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB276_1:
; PPC64LE-NEXT:    ldarx 3, 0, 5
; PPC64LE-NEXT:    cmpd 4, 3
; PPC64LE-NEXT:    ble 0, .LBB276_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB276_1
; PPC64LE-NEXT:  .LBB276_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i64* %ptr, i64 %val acquire
  ret i64 %ret
}

define i64 @test277(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test277:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB277_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpd 4, 5
; PPC64LE-NEXT:    ble 0, .LBB277_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB277_1
; PPC64LE-NEXT:  .LBB277_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i64* %ptr, i64 %val release
  ret i64 %ret
}

define i64 @test278(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test278:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB278_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpd 4, 5
; PPC64LE-NEXT:    ble 0, .LBB278_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB278_1
; PPC64LE-NEXT:  .LBB278_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i64* %ptr, i64 %val acq_rel
  ret i64 %ret
}

define i64 @test279(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test279:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB279_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpd 4, 5
; PPC64LE-NEXT:    ble 0, .LBB279_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB279_1
; PPC64LE-NEXT:  .LBB279_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i64* %ptr, i64 %val seq_cst
  ret i64 %ret
}

define i8 @test280(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test280:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB280_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    extsb 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bge 0, .LBB280_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB280_1
; PPC64LE-NEXT:  .LBB280_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i8* %ptr, i8 %val monotonic
  ret i8 %ret
}

define i8 @test281(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test281:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB281_1:
; PPC64LE-NEXT:    lbarx 3, 0, 5
; PPC64LE-NEXT:    extsb 6, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bge 0, .LBB281_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB281_1
; PPC64LE-NEXT:  .LBB281_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i8* %ptr, i8 %val acquire
  ret i8 %ret
}

define i8 @test282(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test282:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB282_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    extsb 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bge 0, .LBB282_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB282_1
; PPC64LE-NEXT:  .LBB282_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i8* %ptr, i8 %val release
  ret i8 %ret
}

define i8 @test283(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test283:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB283_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    extsb 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bge 0, .LBB283_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB283_1
; PPC64LE-NEXT:  .LBB283_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i8* %ptr, i8 %val acq_rel
  ret i8 %ret
}

define i8 @test284(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test284:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB284_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    extsb 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bge 0, .LBB284_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB284_1
; PPC64LE-NEXT:  .LBB284_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i8* %ptr, i8 %val seq_cst
  ret i8 %ret
}

define i16 @test285(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test285:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB285_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    extsh 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bge 0, .LBB285_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB285_1
; PPC64LE-NEXT:  .LBB285_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i16* %ptr, i16 %val monotonic
  ret i16 %ret
}

define i16 @test286(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test286:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB286_1:
; PPC64LE-NEXT:    lharx 3, 0, 5
; PPC64LE-NEXT:    extsh 6, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bge 0, .LBB286_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB286_1
; PPC64LE-NEXT:  .LBB286_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i16* %ptr, i16 %val acquire
  ret i16 %ret
}

define i16 @test287(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test287:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB287_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    extsh 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bge 0, .LBB287_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB287_1
; PPC64LE-NEXT:  .LBB287_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i16* %ptr, i16 %val release
  ret i16 %ret
}

define i16 @test288(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test288:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB288_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    extsh 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bge 0, .LBB288_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB288_1
; PPC64LE-NEXT:  .LBB288_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i16* %ptr, i16 %val acq_rel
  ret i16 %ret
}

define i16 @test289(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test289:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB289_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    extsh 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bge 0, .LBB289_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB289_1
; PPC64LE-NEXT:  .LBB289_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i16* %ptr, i16 %val seq_cst
  ret i16 %ret
}

define i32 @test290(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test290:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB290_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmpw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB290_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB290_1
; PPC64LE-NEXT:  .LBB290_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i32* %ptr, i32 %val monotonic
  ret i32 %ret
}

define i32 @test291(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test291:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB291_1:
; PPC64LE-NEXT:    lwarx 3, 0, 5
; PPC64LE-NEXT:    cmpw 4, 3
; PPC64LE-NEXT:    bge 0, .LBB291_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB291_1
; PPC64LE-NEXT:  .LBB291_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i32* %ptr, i32 %val acquire
  ret i32 %ret
}

define i32 @test292(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test292:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB292_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmpw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB292_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB292_1
; PPC64LE-NEXT:  .LBB292_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i32* %ptr, i32 %val release
  ret i32 %ret
}

define i32 @test293(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test293:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB293_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmpw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB293_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB293_1
; PPC64LE-NEXT:  .LBB293_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i32* %ptr, i32 %val acq_rel
  ret i32 %ret
}

define i32 @test294(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test294:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB294_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmpw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB294_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB294_1
; PPC64LE-NEXT:  .LBB294_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i32* %ptr, i32 %val seq_cst
  ret i32 %ret
}

define i64 @test295(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test295:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB295_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpd 4, 5
; PPC64LE-NEXT:    bge 0, .LBB295_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB295_1
; PPC64LE-NEXT:  .LBB295_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i64* %ptr, i64 %val monotonic
  ret i64 %ret
}

define i64 @test296(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test296:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB296_1:
; PPC64LE-NEXT:    ldarx 3, 0, 5
; PPC64LE-NEXT:    cmpd 4, 3
; PPC64LE-NEXT:    bge 0, .LBB296_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB296_1
; PPC64LE-NEXT:  .LBB296_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i64* %ptr, i64 %val acquire
  ret i64 %ret
}

define i64 @test297(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test297:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB297_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpd 4, 5
; PPC64LE-NEXT:    bge 0, .LBB297_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB297_1
; PPC64LE-NEXT:  .LBB297_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i64* %ptr, i64 %val release
  ret i64 %ret
}

define i64 @test298(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test298:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB298_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpd 4, 5
; PPC64LE-NEXT:    bge 0, .LBB298_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB298_1
; PPC64LE-NEXT:  .LBB298_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i64* %ptr, i64 %val acq_rel
  ret i64 %ret
}

define i64 @test299(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test299:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB299_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpd 4, 5
; PPC64LE-NEXT:    bge 0, .LBB299_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB299_1
; PPC64LE-NEXT:  .LBB299_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i64* %ptr, i64 %val seq_cst
  ret i64 %ret
}

define i8 @test300(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test300:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB300_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB300_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB300_1
; PPC64LE-NEXT:  .LBB300_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i8* %ptr, i8 %val monotonic
  ret i8 %ret
}

define i8 @test301(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test301:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB301_1:
; PPC64LE-NEXT:    lbarx 3, 0, 5
; PPC64LE-NEXT:    cmplw 4, 3
; PPC64LE-NEXT:    ble 0, .LBB301_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB301_1
; PPC64LE-NEXT:  .LBB301_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i8* %ptr, i8 %val acquire
  ret i8 %ret
}

define i8 @test302(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test302:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB302_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB302_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB302_1
; PPC64LE-NEXT:  .LBB302_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i8* %ptr, i8 %val release
  ret i8 %ret
}

define i8 @test303(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test303:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB303_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB303_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB303_1
; PPC64LE-NEXT:  .LBB303_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i8* %ptr, i8 %val acq_rel
  ret i8 %ret
}

define i8 @test304(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test304:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB304_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB304_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB304_1
; PPC64LE-NEXT:  .LBB304_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i8* %ptr, i8 %val seq_cst
  ret i8 %ret
}

define i16 @test305(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test305:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB305_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB305_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB305_1
; PPC64LE-NEXT:  .LBB305_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i16* %ptr, i16 %val monotonic
  ret i16 %ret
}

define i16 @test306(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test306:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB306_1:
; PPC64LE-NEXT:    lharx 3, 0, 5
; PPC64LE-NEXT:    cmplw 4, 3
; PPC64LE-NEXT:    ble 0, .LBB306_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB306_1
; PPC64LE-NEXT:  .LBB306_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i16* %ptr, i16 %val acquire
  ret i16 %ret
}

define i16 @test307(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test307:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB307_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB307_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB307_1
; PPC64LE-NEXT:  .LBB307_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i16* %ptr, i16 %val release
  ret i16 %ret
}

define i16 @test308(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test308:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB308_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB308_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB308_1
; PPC64LE-NEXT:  .LBB308_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i16* %ptr, i16 %val acq_rel
  ret i16 %ret
}

define i16 @test309(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test309:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB309_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB309_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB309_1
; PPC64LE-NEXT:  .LBB309_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i16* %ptr, i16 %val seq_cst
  ret i16 %ret
}

define i32 @test310(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test310:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB310_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB310_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB310_1
; PPC64LE-NEXT:  .LBB310_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i32* %ptr, i32 %val monotonic
  ret i32 %ret
}

define i32 @test311(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test311:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB311_1:
; PPC64LE-NEXT:    lwarx 3, 0, 5
; PPC64LE-NEXT:    cmplw 4, 3
; PPC64LE-NEXT:    ble 0, .LBB311_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB311_1
; PPC64LE-NEXT:  .LBB311_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i32* %ptr, i32 %val acquire
  ret i32 %ret
}

define i32 @test312(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test312:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB312_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB312_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB312_1
; PPC64LE-NEXT:  .LBB312_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i32* %ptr, i32 %val release
  ret i32 %ret
}

define i32 @test313(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test313:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB313_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB313_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB313_1
; PPC64LE-NEXT:  .LBB313_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i32* %ptr, i32 %val acq_rel
  ret i32 %ret
}

define i32 @test314(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test314:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB314_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB314_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB314_1
; PPC64LE-NEXT:  .LBB314_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i32* %ptr, i32 %val seq_cst
  ret i32 %ret
}

define i64 @test315(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test315:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB315_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpld 4, 5
; PPC64LE-NEXT:    ble 0, .LBB315_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB315_1
; PPC64LE-NEXT:  .LBB315_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i64* %ptr, i64 %val monotonic
  ret i64 %ret
}

define i64 @test316(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test316:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB316_1:
; PPC64LE-NEXT:    ldarx 3, 0, 5
; PPC64LE-NEXT:    cmpld 4, 3
; PPC64LE-NEXT:    ble 0, .LBB316_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB316_1
; PPC64LE-NEXT:  .LBB316_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i64* %ptr, i64 %val acquire
  ret i64 %ret
}

define i64 @test317(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test317:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB317_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpld 4, 5
; PPC64LE-NEXT:    ble 0, .LBB317_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB317_1
; PPC64LE-NEXT:  .LBB317_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i64* %ptr, i64 %val release
  ret i64 %ret
}

define i64 @test318(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test318:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB318_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpld 4, 5
; PPC64LE-NEXT:    ble 0, .LBB318_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB318_1
; PPC64LE-NEXT:  .LBB318_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i64* %ptr, i64 %val acq_rel
  ret i64 %ret
}

define i64 @test319(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test319:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB319_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpld 4, 5
; PPC64LE-NEXT:    ble 0, .LBB319_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB319_1
; PPC64LE-NEXT:  .LBB319_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i64* %ptr, i64 %val seq_cst
  ret i64 %ret
}

define i8 @test320(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test320:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB320_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB320_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB320_1
; PPC64LE-NEXT:  .LBB320_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i8* %ptr, i8 %val monotonic
  ret i8 %ret
}

define i8 @test321(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test321:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB321_1:
; PPC64LE-NEXT:    lbarx 3, 0, 5
; PPC64LE-NEXT:    cmplw 4, 3
; PPC64LE-NEXT:    bge 0, .LBB321_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB321_1
; PPC64LE-NEXT:  .LBB321_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i8* %ptr, i8 %val acquire
  ret i8 %ret
}

define i8 @test322(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test322:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB322_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB322_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB322_1
; PPC64LE-NEXT:  .LBB322_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i8* %ptr, i8 %val release
  ret i8 %ret
}

define i8 @test323(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test323:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB323_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB323_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB323_1
; PPC64LE-NEXT:  .LBB323_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i8* %ptr, i8 %val acq_rel
  ret i8 %ret
}

define i8 @test324(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test324:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB324_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB324_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB324_1
; PPC64LE-NEXT:  .LBB324_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i8* %ptr, i8 %val seq_cst
  ret i8 %ret
}

define i16 @test325(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test325:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB325_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB325_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB325_1
; PPC64LE-NEXT:  .LBB325_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i16* %ptr, i16 %val monotonic
  ret i16 %ret
}

define i16 @test326(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test326:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB326_1:
; PPC64LE-NEXT:    lharx 3, 0, 5
; PPC64LE-NEXT:    cmplw 4, 3
; PPC64LE-NEXT:    bge 0, .LBB326_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB326_1
; PPC64LE-NEXT:  .LBB326_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i16* %ptr, i16 %val acquire
  ret i16 %ret
}

define i16 @test327(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test327:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB327_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB327_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB327_1
; PPC64LE-NEXT:  .LBB327_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i16* %ptr, i16 %val release
  ret i16 %ret
}

define i16 @test328(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test328:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB328_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB328_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB328_1
; PPC64LE-NEXT:  .LBB328_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i16* %ptr, i16 %val acq_rel
  ret i16 %ret
}

define i16 @test329(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test329:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB329_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB329_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB329_1
; PPC64LE-NEXT:  .LBB329_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i16* %ptr, i16 %val seq_cst
  ret i16 %ret
}

define i32 @test330(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test330:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB330_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB330_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB330_1
; PPC64LE-NEXT:  .LBB330_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i32* %ptr, i32 %val monotonic
  ret i32 %ret
}

define i32 @test331(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test331:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB331_1:
; PPC64LE-NEXT:    lwarx 3, 0, 5
; PPC64LE-NEXT:    cmplw 4, 3
; PPC64LE-NEXT:    bge 0, .LBB331_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB331_1
; PPC64LE-NEXT:  .LBB331_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i32* %ptr, i32 %val acquire
  ret i32 %ret
}

define i32 @test332(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test332:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB332_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB332_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB332_1
; PPC64LE-NEXT:  .LBB332_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i32* %ptr, i32 %val release
  ret i32 %ret
}

define i32 @test333(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test333:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB333_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB333_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB333_1
; PPC64LE-NEXT:  .LBB333_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i32* %ptr, i32 %val acq_rel
  ret i32 %ret
}

define i32 @test334(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test334:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB334_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB334_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB334_1
; PPC64LE-NEXT:  .LBB334_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i32* %ptr, i32 %val seq_cst
  ret i32 %ret
}

define i64 @test335(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test335:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB335_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpld 4, 5
; PPC64LE-NEXT:    bge 0, .LBB335_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB335_1
; PPC64LE-NEXT:  .LBB335_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i64* %ptr, i64 %val monotonic
  ret i64 %ret
}

define i64 @test336(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test336:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB336_1:
; PPC64LE-NEXT:    ldarx 3, 0, 5
; PPC64LE-NEXT:    cmpld 4, 3
; PPC64LE-NEXT:    bge 0, .LBB336_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB336_1
; PPC64LE-NEXT:  .LBB336_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i64* %ptr, i64 %val acquire
  ret i64 %ret
}

define i64 @test337(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test337:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB337_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpld 4, 5
; PPC64LE-NEXT:    bge 0, .LBB337_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB337_1
; PPC64LE-NEXT:  .LBB337_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i64* %ptr, i64 %val release
  ret i64 %ret
}

define i64 @test338(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test338:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB338_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpld 4, 5
; PPC64LE-NEXT:    bge 0, .LBB338_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB338_1
; PPC64LE-NEXT:  .LBB338_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i64* %ptr, i64 %val acq_rel
  ret i64 %ret
}

define i64 @test339(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test339:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB339_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpld 4, 5
; PPC64LE-NEXT:    bge 0, .LBB339_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB339_1
; PPC64LE-NEXT:  .LBB339_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i64* %ptr, i64 %val seq_cst
  ret i64 %ret
}

define i8 @test340(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test340:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB340_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB340_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i8* %ptr, i8 %val syncscope("singlethread") monotonic
  ret i8 %ret
}

define i8 @test341(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test341:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB341_1:
; PPC64LE-NEXT:    lbarx 3, 0, 5
; PPC64LE-NEXT:    stbcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB341_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i8* %ptr, i8 %val syncscope("singlethread") acquire
  ret i8 %ret
}

define i8 @test342(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test342:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB342_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB342_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i8* %ptr, i8 %val syncscope("singlethread") release
  ret i8 %ret
}

define i8 @test343(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test343:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB343_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB343_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i8* %ptr, i8 %val syncscope("singlethread") acq_rel
  ret i8 %ret
}

define i8 @test344(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test344:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB344_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB344_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i8* %ptr, i8 %val syncscope("singlethread") seq_cst
  ret i8 %ret
}

define i16 @test345(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test345:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB345_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB345_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i16* %ptr, i16 %val syncscope("singlethread") monotonic
  ret i16 %ret
}

define i16 @test346(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test346:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB346_1:
; PPC64LE-NEXT:    lharx 3, 0, 5
; PPC64LE-NEXT:    sthcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB346_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i16* %ptr, i16 %val syncscope("singlethread") acquire
  ret i16 %ret
}

define i16 @test347(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test347:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB347_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB347_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i16* %ptr, i16 %val syncscope("singlethread") release
  ret i16 %ret
}

define i16 @test348(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test348:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB348_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB348_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i16* %ptr, i16 %val syncscope("singlethread") acq_rel
  ret i16 %ret
}

define i16 @test349(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test349:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB349_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB349_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i16* %ptr, i16 %val syncscope("singlethread") seq_cst
  ret i16 %ret
}

define i32 @test350(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test350:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB350_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB350_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i32* %ptr, i32 %val syncscope("singlethread") monotonic
  ret i32 %ret
}

define i32 @test351(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test351:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB351_1:
; PPC64LE-NEXT:    lwarx 3, 0, 5
; PPC64LE-NEXT:    stwcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB351_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i32* %ptr, i32 %val syncscope("singlethread") acquire
  ret i32 %ret
}

define i32 @test352(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test352:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB352_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB352_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i32* %ptr, i32 %val syncscope("singlethread") release
  ret i32 %ret
}

define i32 @test353(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test353:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB353_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB353_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i32* %ptr, i32 %val syncscope("singlethread") acq_rel
  ret i32 %ret
}

define i32 @test354(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test354:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB354_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB354_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i32* %ptr, i32 %val syncscope("singlethread") seq_cst
  ret i32 %ret
}

define i64 @test355(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test355:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB355_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB355_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i64* %ptr, i64 %val syncscope("singlethread") monotonic
  ret i64 %ret
}

define i64 @test356(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test356:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB356_1:
; PPC64LE-NEXT:    ldarx 3, 0, 5
; PPC64LE-NEXT:    stdcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB356_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i64* %ptr, i64 %val syncscope("singlethread") acquire
  ret i64 %ret
}

define i64 @test357(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test357:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB357_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB357_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i64* %ptr, i64 %val syncscope("singlethread") release
  ret i64 %ret
}

define i64 @test358(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test358:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB358_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB358_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i64* %ptr, i64 %val syncscope("singlethread") acq_rel
  ret i64 %ret
}

define i64 @test359(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test359:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB359_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB359_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xchg i64* %ptr, i64 %val syncscope("singlethread") seq_cst
  ret i64 %ret
}

define i8 @test360(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test360:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB360_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB360_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i8* %ptr, i8 %val syncscope("singlethread") monotonic
  ret i8 %ret
}

define i8 @test361(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test361:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB361_1:
; PPC64LE-NEXT:    lbarx 3, 0, 5
; PPC64LE-NEXT:    add 6, 4, 3
; PPC64LE-NEXT:    stbcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB361_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i8* %ptr, i8 %val syncscope("singlethread") acquire
  ret i8 %ret
}

define i8 @test362(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test362:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB362_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB362_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i8* %ptr, i8 %val syncscope("singlethread") release
  ret i8 %ret
}

define i8 @test363(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test363:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB363_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB363_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i8* %ptr, i8 %val syncscope("singlethread") acq_rel
  ret i8 %ret
}

define i8 @test364(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test364:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB364_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB364_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i8* %ptr, i8 %val syncscope("singlethread") seq_cst
  ret i8 %ret
}

define i16 @test365(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test365:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB365_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB365_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i16* %ptr, i16 %val syncscope("singlethread") monotonic
  ret i16 %ret
}

define i16 @test366(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test366:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB366_1:
; PPC64LE-NEXT:    lharx 3, 0, 5
; PPC64LE-NEXT:    add 6, 4, 3
; PPC64LE-NEXT:    sthcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB366_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i16* %ptr, i16 %val syncscope("singlethread") acquire
  ret i16 %ret
}

define i16 @test367(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test367:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB367_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB367_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i16* %ptr, i16 %val syncscope("singlethread") release
  ret i16 %ret
}

define i16 @test368(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test368:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB368_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB368_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i16* %ptr, i16 %val syncscope("singlethread") acq_rel
  ret i16 %ret
}

define i16 @test369(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test369:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB369_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB369_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i16* %ptr, i16 %val syncscope("singlethread") seq_cst
  ret i16 %ret
}

define i32 @test370(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test370:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB370_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB370_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i32* %ptr, i32 %val syncscope("singlethread") monotonic
  ret i32 %ret
}

define i32 @test371(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test371:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB371_1:
; PPC64LE-NEXT:    lwarx 3, 0, 5
; PPC64LE-NEXT:    add 6, 4, 3
; PPC64LE-NEXT:    stwcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB371_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i32* %ptr, i32 %val syncscope("singlethread") acquire
  ret i32 %ret
}

define i32 @test372(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test372:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB372_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB372_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i32* %ptr, i32 %val syncscope("singlethread") release
  ret i32 %ret
}

define i32 @test373(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test373:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB373_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB373_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i32* %ptr, i32 %val syncscope("singlethread") acq_rel
  ret i32 %ret
}

define i32 @test374(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test374:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB374_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB374_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i32* %ptr, i32 %val syncscope("singlethread") seq_cst
  ret i32 %ret
}

define i64 @test375(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test375:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB375_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB375_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i64* %ptr, i64 %val syncscope("singlethread") monotonic
  ret i64 %ret
}

define i64 @test376(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test376:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB376_1:
; PPC64LE-NEXT:    ldarx 3, 0, 5
; PPC64LE-NEXT:    add 6, 4, 3
; PPC64LE-NEXT:    stdcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB376_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i64* %ptr, i64 %val syncscope("singlethread") acquire
  ret i64 %ret
}

define i64 @test377(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test377:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB377_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB377_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i64* %ptr, i64 %val syncscope("singlethread") release
  ret i64 %ret
}

define i64 @test378(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test378:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB378_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB378_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i64* %ptr, i64 %val syncscope("singlethread") acq_rel
  ret i64 %ret
}

define i64 @test379(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test379:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB379_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    add 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB379_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw add i64* %ptr, i64 %val syncscope("singlethread") seq_cst
  ret i64 %ret
}

define i8 @test380(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test380:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB380_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB380_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i8* %ptr, i8 %val syncscope("singlethread") monotonic
  ret i8 %ret
}

define i8 @test381(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test381:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB381_1:
; PPC64LE-NEXT:    lbarx 3, 0, 5
; PPC64LE-NEXT:    subf 6, 4, 3
; PPC64LE-NEXT:    stbcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB381_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i8* %ptr, i8 %val syncscope("singlethread") acquire
  ret i8 %ret
}

define i8 @test382(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test382:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB382_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB382_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i8* %ptr, i8 %val syncscope("singlethread") release
  ret i8 %ret
}

define i8 @test383(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test383:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB383_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB383_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i8* %ptr, i8 %val syncscope("singlethread") acq_rel
  ret i8 %ret
}

define i8 @test384(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test384:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB384_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB384_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i8* %ptr, i8 %val syncscope("singlethread") seq_cst
  ret i8 %ret
}

define i16 @test385(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test385:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB385_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB385_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i16* %ptr, i16 %val syncscope("singlethread") monotonic
  ret i16 %ret
}

define i16 @test386(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test386:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB386_1:
; PPC64LE-NEXT:    lharx 3, 0, 5
; PPC64LE-NEXT:    subf 6, 4, 3
; PPC64LE-NEXT:    sthcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB386_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i16* %ptr, i16 %val syncscope("singlethread") acquire
  ret i16 %ret
}

define i16 @test387(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test387:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB387_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB387_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i16* %ptr, i16 %val syncscope("singlethread") release
  ret i16 %ret
}

define i16 @test388(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test388:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB388_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB388_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i16* %ptr, i16 %val syncscope("singlethread") acq_rel
  ret i16 %ret
}

define i16 @test389(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test389:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB389_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB389_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i16* %ptr, i16 %val syncscope("singlethread") seq_cst
  ret i16 %ret
}

define i32 @test390(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test390:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB390_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB390_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i32* %ptr, i32 %val syncscope("singlethread") monotonic
  ret i32 %ret
}

define i32 @test391(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test391:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB391_1:
; PPC64LE-NEXT:    lwarx 3, 0, 5
; PPC64LE-NEXT:    subf 6, 4, 3
; PPC64LE-NEXT:    stwcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB391_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i32* %ptr, i32 %val syncscope("singlethread") acquire
  ret i32 %ret
}

define i32 @test392(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test392:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB392_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB392_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i32* %ptr, i32 %val syncscope("singlethread") release
  ret i32 %ret
}

define i32 @test393(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test393:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB393_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB393_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i32* %ptr, i32 %val syncscope("singlethread") acq_rel
  ret i32 %ret
}

define i32 @test394(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test394:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB394_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    subf 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB394_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i32* %ptr, i32 %val syncscope("singlethread") seq_cst
  ret i32 %ret
}

define i64 @test395(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test395:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB395_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    sub 6, 5, 4
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB395_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i64* %ptr, i64 %val syncscope("singlethread") monotonic
  ret i64 %ret
}

define i64 @test396(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test396:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB396_1:
; PPC64LE-NEXT:    ldarx 3, 0, 5
; PPC64LE-NEXT:    sub 6, 3, 4
; PPC64LE-NEXT:    stdcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB396_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i64* %ptr, i64 %val syncscope("singlethread") acquire
  ret i64 %ret
}

define i64 @test397(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test397:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB397_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    sub 6, 5, 4
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB397_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i64* %ptr, i64 %val syncscope("singlethread") release
  ret i64 %ret
}

define i64 @test398(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test398:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB398_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    sub 6, 5, 4
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB398_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i64* %ptr, i64 %val syncscope("singlethread") acq_rel
  ret i64 %ret
}

define i64 @test399(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test399:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB399_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    sub 6, 5, 4
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB399_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw sub i64* %ptr, i64 %val syncscope("singlethread") seq_cst
  ret i64 %ret
}

define i8 @test400(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test400:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB400_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB400_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i8* %ptr, i8 %val syncscope("singlethread") monotonic
  ret i8 %ret
}

define i8 @test401(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test401:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB401_1:
; PPC64LE-NEXT:    lbarx 3, 0, 5
; PPC64LE-NEXT:    and 6, 4, 3
; PPC64LE-NEXT:    stbcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB401_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i8* %ptr, i8 %val syncscope("singlethread") acquire
  ret i8 %ret
}

define i8 @test402(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test402:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB402_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB402_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i8* %ptr, i8 %val syncscope("singlethread") release
  ret i8 %ret
}

define i8 @test403(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test403:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB403_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB403_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i8* %ptr, i8 %val syncscope("singlethread") acq_rel
  ret i8 %ret
}

define i8 @test404(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test404:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB404_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB404_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i8* %ptr, i8 %val syncscope("singlethread") seq_cst
  ret i8 %ret
}

define i16 @test405(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test405:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB405_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB405_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i16* %ptr, i16 %val syncscope("singlethread") monotonic
  ret i16 %ret
}

define i16 @test406(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test406:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB406_1:
; PPC64LE-NEXT:    lharx 3, 0, 5
; PPC64LE-NEXT:    and 6, 4, 3
; PPC64LE-NEXT:    sthcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB406_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i16* %ptr, i16 %val syncscope("singlethread") acquire
  ret i16 %ret
}

define i16 @test407(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test407:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB407_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB407_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i16* %ptr, i16 %val syncscope("singlethread") release
  ret i16 %ret
}

define i16 @test408(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test408:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB408_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB408_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i16* %ptr, i16 %val syncscope("singlethread") acq_rel
  ret i16 %ret
}

define i16 @test409(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test409:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB409_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB409_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i16* %ptr, i16 %val syncscope("singlethread") seq_cst
  ret i16 %ret
}

define i32 @test410(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test410:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB410_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB410_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i32* %ptr, i32 %val syncscope("singlethread") monotonic
  ret i32 %ret
}

define i32 @test411(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test411:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB411_1:
; PPC64LE-NEXT:    lwarx 3, 0, 5
; PPC64LE-NEXT:    and 6, 4, 3
; PPC64LE-NEXT:    stwcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB411_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i32* %ptr, i32 %val syncscope("singlethread") acquire
  ret i32 %ret
}

define i32 @test412(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test412:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB412_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB412_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i32* %ptr, i32 %val syncscope("singlethread") release
  ret i32 %ret
}

define i32 @test413(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test413:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB413_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB413_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i32* %ptr, i32 %val syncscope("singlethread") acq_rel
  ret i32 %ret
}

define i32 @test414(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test414:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB414_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB414_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i32* %ptr, i32 %val syncscope("singlethread") seq_cst
  ret i32 %ret
}

define i64 @test415(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test415:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB415_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB415_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i64* %ptr, i64 %val syncscope("singlethread") monotonic
  ret i64 %ret
}

define i64 @test416(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test416:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB416_1:
; PPC64LE-NEXT:    ldarx 3, 0, 5
; PPC64LE-NEXT:    and 6, 4, 3
; PPC64LE-NEXT:    stdcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB416_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i64* %ptr, i64 %val syncscope("singlethread") acquire
  ret i64 %ret
}

define i64 @test417(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test417:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB417_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB417_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i64* %ptr, i64 %val syncscope("singlethread") release
  ret i64 %ret
}

define i64 @test418(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test418:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB418_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB418_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i64* %ptr, i64 %val syncscope("singlethread") acq_rel
  ret i64 %ret
}

define i64 @test419(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test419:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB419_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    and 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB419_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw and i64* %ptr, i64 %val syncscope("singlethread") seq_cst
  ret i64 %ret
}

define i8 @test420(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test420:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB420_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB420_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i8* %ptr, i8 %val syncscope("singlethread") monotonic
  ret i8 %ret
}

define i8 @test421(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test421:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB421_1:
; PPC64LE-NEXT:    lbarx 3, 0, 5
; PPC64LE-NEXT:    nand 6, 4, 3
; PPC64LE-NEXT:    stbcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB421_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i8* %ptr, i8 %val syncscope("singlethread") acquire
  ret i8 %ret
}

define i8 @test422(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test422:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB422_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB422_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i8* %ptr, i8 %val syncscope("singlethread") release
  ret i8 %ret
}

define i8 @test423(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test423:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB423_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB423_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i8* %ptr, i8 %val syncscope("singlethread") acq_rel
  ret i8 %ret
}

define i8 @test424(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test424:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB424_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB424_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i8* %ptr, i8 %val syncscope("singlethread") seq_cst
  ret i8 %ret
}

define i16 @test425(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test425:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB425_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB425_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i16* %ptr, i16 %val syncscope("singlethread") monotonic
  ret i16 %ret
}

define i16 @test426(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test426:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB426_1:
; PPC64LE-NEXT:    lharx 3, 0, 5
; PPC64LE-NEXT:    nand 6, 4, 3
; PPC64LE-NEXT:    sthcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB426_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i16* %ptr, i16 %val syncscope("singlethread") acquire
  ret i16 %ret
}

define i16 @test427(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test427:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB427_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB427_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i16* %ptr, i16 %val syncscope("singlethread") release
  ret i16 %ret
}

define i16 @test428(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test428:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB428_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB428_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i16* %ptr, i16 %val syncscope("singlethread") acq_rel
  ret i16 %ret
}

define i16 @test429(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test429:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB429_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB429_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i16* %ptr, i16 %val syncscope("singlethread") seq_cst
  ret i16 %ret
}

define i32 @test430(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test430:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB430_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB430_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i32* %ptr, i32 %val syncscope("singlethread") monotonic
  ret i32 %ret
}

define i32 @test431(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test431:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB431_1:
; PPC64LE-NEXT:    lwarx 3, 0, 5
; PPC64LE-NEXT:    nand 6, 4, 3
; PPC64LE-NEXT:    stwcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB431_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i32* %ptr, i32 %val syncscope("singlethread") acquire
  ret i32 %ret
}

define i32 @test432(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test432:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB432_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB432_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i32* %ptr, i32 %val syncscope("singlethread") release
  ret i32 %ret
}

define i32 @test433(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test433:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB433_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB433_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i32* %ptr, i32 %val syncscope("singlethread") acq_rel
  ret i32 %ret
}

define i32 @test434(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test434:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB434_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB434_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i32* %ptr, i32 %val syncscope("singlethread") seq_cst
  ret i32 %ret
}

define i64 @test435(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test435:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB435_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB435_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i64* %ptr, i64 %val syncscope("singlethread") monotonic
  ret i64 %ret
}

define i64 @test436(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test436:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB436_1:
; PPC64LE-NEXT:    ldarx 3, 0, 5
; PPC64LE-NEXT:    nand 6, 4, 3
; PPC64LE-NEXT:    stdcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB436_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i64* %ptr, i64 %val syncscope("singlethread") acquire
  ret i64 %ret
}

define i64 @test437(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test437:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB437_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB437_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i64* %ptr, i64 %val syncscope("singlethread") release
  ret i64 %ret
}

define i64 @test438(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test438:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB438_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB438_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i64* %ptr, i64 %val syncscope("singlethread") acq_rel
  ret i64 %ret
}

define i64 @test439(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test439:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB439_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    nand 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB439_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw nand i64* %ptr, i64 %val syncscope("singlethread") seq_cst
  ret i64 %ret
}

define i8 @test440(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test440:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB440_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB440_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i8* %ptr, i8 %val syncscope("singlethread") monotonic
  ret i8 %ret
}

define i8 @test441(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test441:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB441_1:
; PPC64LE-NEXT:    lbarx 3, 0, 5
; PPC64LE-NEXT:    or 6, 4, 3
; PPC64LE-NEXT:    stbcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB441_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i8* %ptr, i8 %val syncscope("singlethread") acquire
  ret i8 %ret
}

define i8 @test442(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test442:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB442_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB442_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i8* %ptr, i8 %val syncscope("singlethread") release
  ret i8 %ret
}

define i8 @test443(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test443:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB443_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB443_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i8* %ptr, i8 %val syncscope("singlethread") acq_rel
  ret i8 %ret
}

define i8 @test444(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test444:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB444_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB444_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i8* %ptr, i8 %val syncscope("singlethread") seq_cst
  ret i8 %ret
}

define i16 @test445(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test445:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB445_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB445_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i16* %ptr, i16 %val syncscope("singlethread") monotonic
  ret i16 %ret
}

define i16 @test446(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test446:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB446_1:
; PPC64LE-NEXT:    lharx 3, 0, 5
; PPC64LE-NEXT:    or 6, 4, 3
; PPC64LE-NEXT:    sthcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB446_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i16* %ptr, i16 %val syncscope("singlethread") acquire
  ret i16 %ret
}

define i16 @test447(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test447:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB447_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB447_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i16* %ptr, i16 %val syncscope("singlethread") release
  ret i16 %ret
}

define i16 @test448(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test448:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB448_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB448_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i16* %ptr, i16 %val syncscope("singlethread") acq_rel
  ret i16 %ret
}

define i16 @test449(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test449:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB449_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB449_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i16* %ptr, i16 %val syncscope("singlethread") seq_cst
  ret i16 %ret
}

define i32 @test450(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test450:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB450_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB450_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i32* %ptr, i32 %val syncscope("singlethread") monotonic
  ret i32 %ret
}

define i32 @test451(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test451:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB451_1:
; PPC64LE-NEXT:    lwarx 3, 0, 5
; PPC64LE-NEXT:    or 6, 4, 3
; PPC64LE-NEXT:    stwcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB451_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i32* %ptr, i32 %val syncscope("singlethread") acquire
  ret i32 %ret
}

define i32 @test452(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test452:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB452_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB452_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i32* %ptr, i32 %val syncscope("singlethread") release
  ret i32 %ret
}

define i32 @test453(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test453:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB453_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB453_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i32* %ptr, i32 %val syncscope("singlethread") acq_rel
  ret i32 %ret
}

define i32 @test454(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test454:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB454_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB454_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i32* %ptr, i32 %val syncscope("singlethread") seq_cst
  ret i32 %ret
}

define i64 @test455(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test455:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB455_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB455_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i64* %ptr, i64 %val syncscope("singlethread") monotonic
  ret i64 %ret
}

define i64 @test456(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test456:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB456_1:
; PPC64LE-NEXT:    ldarx 3, 0, 5
; PPC64LE-NEXT:    or 6, 4, 3
; PPC64LE-NEXT:    stdcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB456_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i64* %ptr, i64 %val syncscope("singlethread") acquire
  ret i64 %ret
}

define i64 @test457(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test457:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB457_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB457_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i64* %ptr, i64 %val syncscope("singlethread") release
  ret i64 %ret
}

define i64 @test458(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test458:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB458_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB458_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i64* %ptr, i64 %val syncscope("singlethread") acq_rel
  ret i64 %ret
}

define i64 @test459(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test459:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB459_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    or 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB459_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw or i64* %ptr, i64 %val syncscope("singlethread") seq_cst
  ret i64 %ret
}

define i8 @test460(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test460:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB460_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB460_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i8* %ptr, i8 %val syncscope("singlethread") monotonic
  ret i8 %ret
}

define i8 @test461(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test461:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB461_1:
; PPC64LE-NEXT:    lbarx 3, 0, 5
; PPC64LE-NEXT:    xor 6, 4, 3
; PPC64LE-NEXT:    stbcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB461_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i8* %ptr, i8 %val syncscope("singlethread") acquire
  ret i8 %ret
}

define i8 @test462(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test462:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB462_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB462_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i8* %ptr, i8 %val syncscope("singlethread") release
  ret i8 %ret
}

define i8 @test463(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test463:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB463_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB463_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i8* %ptr, i8 %val syncscope("singlethread") acq_rel
  ret i8 %ret
}

define i8 @test464(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test464:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB464_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stbcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB464_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i8* %ptr, i8 %val syncscope("singlethread") seq_cst
  ret i8 %ret
}

define i16 @test465(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test465:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB465_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB465_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i16* %ptr, i16 %val syncscope("singlethread") monotonic
  ret i16 %ret
}

define i16 @test466(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test466:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB466_1:
; PPC64LE-NEXT:    lharx 3, 0, 5
; PPC64LE-NEXT:    xor 6, 4, 3
; PPC64LE-NEXT:    sthcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB466_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i16* %ptr, i16 %val syncscope("singlethread") acquire
  ret i16 %ret
}

define i16 @test467(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test467:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB467_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB467_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i16* %ptr, i16 %val syncscope("singlethread") release
  ret i16 %ret
}

define i16 @test468(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test468:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB468_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB468_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i16* %ptr, i16 %val syncscope("singlethread") acq_rel
  ret i16 %ret
}

define i16 @test469(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test469:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB469_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    sthcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB469_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i16* %ptr, i16 %val syncscope("singlethread") seq_cst
  ret i16 %ret
}

define i32 @test470(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test470:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB470_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB470_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i32* %ptr, i32 %val syncscope("singlethread") monotonic
  ret i32 %ret
}

define i32 @test471(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test471:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB471_1:
; PPC64LE-NEXT:    lwarx 3, 0, 5
; PPC64LE-NEXT:    xor 6, 4, 3
; PPC64LE-NEXT:    stwcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB471_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i32* %ptr, i32 %val syncscope("singlethread") acquire
  ret i32 %ret
}

define i32 @test472(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test472:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB472_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB472_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i32* %ptr, i32 %val syncscope("singlethread") release
  ret i32 %ret
}

define i32 @test473(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test473:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB473_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB473_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i32* %ptr, i32 %val syncscope("singlethread") acq_rel
  ret i32 %ret
}

define i32 @test474(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test474:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB474_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stwcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB474_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i32* %ptr, i32 %val syncscope("singlethread") seq_cst
  ret i32 %ret
}

define i64 @test475(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test475:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB475_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB475_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i64* %ptr, i64 %val syncscope("singlethread") monotonic
  ret i64 %ret
}

define i64 @test476(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test476:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB476_1:
; PPC64LE-NEXT:    ldarx 3, 0, 5
; PPC64LE-NEXT:    xor 6, 4, 3
; PPC64LE-NEXT:    stdcx. 6, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB476_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i64* %ptr, i64 %val syncscope("singlethread") acquire
  ret i64 %ret
}

define i64 @test477(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test477:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB477_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB477_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i64* %ptr, i64 %val syncscope("singlethread") release
  ret i64 %ret
}

define i64 @test478(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test478:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB478_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB478_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i64* %ptr, i64 %val syncscope("singlethread") acq_rel
  ret i64 %ret
}

define i64 @test479(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test479:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB479_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    xor 6, 4, 5
; PPC64LE-NEXT:    stdcx. 6, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB479_1
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw xor i64* %ptr, i64 %val syncscope("singlethread") seq_cst
  ret i64 %ret
}

define i8 @test480(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test480:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB480_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    extsb 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    ble 0, .LBB480_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB480_1
; PPC64LE-NEXT:  .LBB480_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i8* %ptr, i8 %val syncscope("singlethread") monotonic
  ret i8 %ret
}

define i8 @test481(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test481:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB481_1:
; PPC64LE-NEXT:    lbarx 3, 0, 5
; PPC64LE-NEXT:    extsb 6, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    ble 0, .LBB481_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB481_1
; PPC64LE-NEXT:  .LBB481_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i8* %ptr, i8 %val syncscope("singlethread") acquire
  ret i8 %ret
}

define i8 @test482(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test482:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB482_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    extsb 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    ble 0, .LBB482_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB482_1
; PPC64LE-NEXT:  .LBB482_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i8* %ptr, i8 %val syncscope("singlethread") release
  ret i8 %ret
}

define i8 @test483(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test483:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB483_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    extsb 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    ble 0, .LBB483_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB483_1
; PPC64LE-NEXT:  .LBB483_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i8* %ptr, i8 %val syncscope("singlethread") acq_rel
  ret i8 %ret
}

define i8 @test484(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test484:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB484_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    extsb 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    ble 0, .LBB484_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB484_1
; PPC64LE-NEXT:  .LBB484_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i8* %ptr, i8 %val syncscope("singlethread") seq_cst
  ret i8 %ret
}

define i16 @test485(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test485:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB485_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    extsh 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    ble 0, .LBB485_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB485_1
; PPC64LE-NEXT:  .LBB485_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i16* %ptr, i16 %val syncscope("singlethread") monotonic
  ret i16 %ret
}

define i16 @test486(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test486:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB486_1:
; PPC64LE-NEXT:    lharx 3, 0, 5
; PPC64LE-NEXT:    extsh 6, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    ble 0, .LBB486_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB486_1
; PPC64LE-NEXT:  .LBB486_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i16* %ptr, i16 %val syncscope("singlethread") acquire
  ret i16 %ret
}

define i16 @test487(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test487:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB487_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    extsh 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    ble 0, .LBB487_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB487_1
; PPC64LE-NEXT:  .LBB487_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i16* %ptr, i16 %val syncscope("singlethread") release
  ret i16 %ret
}

define i16 @test488(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test488:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB488_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    extsh 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    ble 0, .LBB488_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB488_1
; PPC64LE-NEXT:  .LBB488_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i16* %ptr, i16 %val syncscope("singlethread") acq_rel
  ret i16 %ret
}

define i16 @test489(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test489:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB489_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    extsh 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    ble 0, .LBB489_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB489_1
; PPC64LE-NEXT:  .LBB489_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i16* %ptr, i16 %val syncscope("singlethread") seq_cst
  ret i16 %ret
}

define i32 @test490(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test490:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB490_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmpw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB490_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB490_1
; PPC64LE-NEXT:  .LBB490_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i32* %ptr, i32 %val syncscope("singlethread") monotonic
  ret i32 %ret
}

define i32 @test491(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test491:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB491_1:
; PPC64LE-NEXT:    lwarx 3, 0, 5
; PPC64LE-NEXT:    cmpw 4, 3
; PPC64LE-NEXT:    ble 0, .LBB491_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB491_1
; PPC64LE-NEXT:  .LBB491_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i32* %ptr, i32 %val syncscope("singlethread") acquire
  ret i32 %ret
}

define i32 @test492(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test492:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB492_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmpw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB492_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB492_1
; PPC64LE-NEXT:  .LBB492_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i32* %ptr, i32 %val syncscope("singlethread") release
  ret i32 %ret
}

define i32 @test493(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test493:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB493_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmpw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB493_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB493_1
; PPC64LE-NEXT:  .LBB493_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i32* %ptr, i32 %val syncscope("singlethread") acq_rel
  ret i32 %ret
}

define i32 @test494(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test494:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB494_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmpw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB494_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB494_1
; PPC64LE-NEXT:  .LBB494_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i32* %ptr, i32 %val syncscope("singlethread") seq_cst
  ret i32 %ret
}

define i64 @test495(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test495:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB495_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpd 4, 5
; PPC64LE-NEXT:    ble 0, .LBB495_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB495_1
; PPC64LE-NEXT:  .LBB495_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i64* %ptr, i64 %val syncscope("singlethread") monotonic
  ret i64 %ret
}

define i64 @test496(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test496:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB496_1:
; PPC64LE-NEXT:    ldarx 3, 0, 5
; PPC64LE-NEXT:    cmpd 4, 3
; PPC64LE-NEXT:    ble 0, .LBB496_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB496_1
; PPC64LE-NEXT:  .LBB496_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i64* %ptr, i64 %val syncscope("singlethread") acquire
  ret i64 %ret
}

define i64 @test497(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test497:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB497_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpd 4, 5
; PPC64LE-NEXT:    ble 0, .LBB497_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB497_1
; PPC64LE-NEXT:  .LBB497_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i64* %ptr, i64 %val syncscope("singlethread") release
  ret i64 %ret
}

define i64 @test498(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test498:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB498_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpd 4, 5
; PPC64LE-NEXT:    ble 0, .LBB498_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB498_1
; PPC64LE-NEXT:  .LBB498_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i64* %ptr, i64 %val syncscope("singlethread") acq_rel
  ret i64 %ret
}

define i64 @test499(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test499:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB499_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpd 4, 5
; PPC64LE-NEXT:    ble 0, .LBB499_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB499_1
; PPC64LE-NEXT:  .LBB499_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw max i64* %ptr, i64 %val syncscope("singlethread") seq_cst
  ret i64 %ret
}

define i8 @test500(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test500:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB500_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    extsb 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bge 0, .LBB500_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB500_1
; PPC64LE-NEXT:  .LBB500_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i8* %ptr, i8 %val syncscope("singlethread") monotonic
  ret i8 %ret
}

define i8 @test501(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test501:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB501_1:
; PPC64LE-NEXT:    lbarx 3, 0, 5
; PPC64LE-NEXT:    extsb 6, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bge 0, .LBB501_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB501_1
; PPC64LE-NEXT:  .LBB501_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i8* %ptr, i8 %val syncscope("singlethread") acquire
  ret i8 %ret
}

define i8 @test502(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test502:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB502_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    extsb 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bge 0, .LBB502_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB502_1
; PPC64LE-NEXT:  .LBB502_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i8* %ptr, i8 %val syncscope("singlethread") release
  ret i8 %ret
}

define i8 @test503(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test503:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB503_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    extsb 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bge 0, .LBB503_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB503_1
; PPC64LE-NEXT:  .LBB503_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i8* %ptr, i8 %val syncscope("singlethread") acq_rel
  ret i8 %ret
}

define i8 @test504(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test504:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB504_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    extsb 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bge 0, .LBB504_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB504_1
; PPC64LE-NEXT:  .LBB504_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i8* %ptr, i8 %val syncscope("singlethread") seq_cst
  ret i8 %ret
}

define i16 @test505(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test505:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB505_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    extsh 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bge 0, .LBB505_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB505_1
; PPC64LE-NEXT:  .LBB505_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i16* %ptr, i16 %val syncscope("singlethread") monotonic
  ret i16 %ret
}

define i16 @test506(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test506:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB506_1:
; PPC64LE-NEXT:    lharx 3, 0, 5
; PPC64LE-NEXT:    extsh 6, 3
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bge 0, .LBB506_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB506_1
; PPC64LE-NEXT:  .LBB506_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i16* %ptr, i16 %val syncscope("singlethread") acquire
  ret i16 %ret
}

define i16 @test507(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test507:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB507_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    extsh 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bge 0, .LBB507_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB507_1
; PPC64LE-NEXT:  .LBB507_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i16* %ptr, i16 %val syncscope("singlethread") release
  ret i16 %ret
}

define i16 @test508(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test508:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB508_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    extsh 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bge 0, .LBB508_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB508_1
; PPC64LE-NEXT:  .LBB508_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i16* %ptr, i16 %val syncscope("singlethread") acq_rel
  ret i16 %ret
}

define i16 @test509(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test509:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB509_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    extsh 6, 5
; PPC64LE-NEXT:    cmpw 4, 6
; PPC64LE-NEXT:    bge 0, .LBB509_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB509_1
; PPC64LE-NEXT:  .LBB509_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i16* %ptr, i16 %val syncscope("singlethread") seq_cst
  ret i16 %ret
}

define i32 @test510(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test510:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB510_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmpw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB510_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB510_1
; PPC64LE-NEXT:  .LBB510_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i32* %ptr, i32 %val syncscope("singlethread") monotonic
  ret i32 %ret
}

define i32 @test511(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test511:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB511_1:
; PPC64LE-NEXT:    lwarx 3, 0, 5
; PPC64LE-NEXT:    cmpw 4, 3
; PPC64LE-NEXT:    bge 0, .LBB511_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB511_1
; PPC64LE-NEXT:  .LBB511_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i32* %ptr, i32 %val syncscope("singlethread") acquire
  ret i32 %ret
}

define i32 @test512(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test512:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB512_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmpw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB512_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB512_1
; PPC64LE-NEXT:  .LBB512_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i32* %ptr, i32 %val syncscope("singlethread") release
  ret i32 %ret
}

define i32 @test513(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test513:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB513_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmpw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB513_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB513_1
; PPC64LE-NEXT:  .LBB513_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i32* %ptr, i32 %val syncscope("singlethread") acq_rel
  ret i32 %ret
}

define i32 @test514(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test514:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB514_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmpw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB514_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB514_1
; PPC64LE-NEXT:  .LBB514_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i32* %ptr, i32 %val syncscope("singlethread") seq_cst
  ret i32 %ret
}

define i64 @test515(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test515:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB515_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpd 4, 5
; PPC64LE-NEXT:    bge 0, .LBB515_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB515_1
; PPC64LE-NEXT:  .LBB515_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i64* %ptr, i64 %val syncscope("singlethread") monotonic
  ret i64 %ret
}

define i64 @test516(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test516:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB516_1:
; PPC64LE-NEXT:    ldarx 3, 0, 5
; PPC64LE-NEXT:    cmpd 4, 3
; PPC64LE-NEXT:    bge 0, .LBB516_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB516_1
; PPC64LE-NEXT:  .LBB516_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i64* %ptr, i64 %val syncscope("singlethread") acquire
  ret i64 %ret
}

define i64 @test517(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test517:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB517_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpd 4, 5
; PPC64LE-NEXT:    bge 0, .LBB517_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB517_1
; PPC64LE-NEXT:  .LBB517_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i64* %ptr, i64 %val syncscope("singlethread") release
  ret i64 %ret
}

define i64 @test518(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test518:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB518_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpd 4, 5
; PPC64LE-NEXT:    bge 0, .LBB518_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB518_1
; PPC64LE-NEXT:  .LBB518_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i64* %ptr, i64 %val syncscope("singlethread") acq_rel
  ret i64 %ret
}

define i64 @test519(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test519:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB519_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpd 4, 5
; PPC64LE-NEXT:    bge 0, .LBB519_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB519_1
; PPC64LE-NEXT:  .LBB519_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw min i64* %ptr, i64 %val syncscope("singlethread") seq_cst
  ret i64 %ret
}

define i8 @test520(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test520:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB520_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB520_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB520_1
; PPC64LE-NEXT:  .LBB520_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i8* %ptr, i8 %val syncscope("singlethread") monotonic
  ret i8 %ret
}

define i8 @test521(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test521:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB521_1:
; PPC64LE-NEXT:    lbarx 3, 0, 5
; PPC64LE-NEXT:    cmplw 4, 3
; PPC64LE-NEXT:    ble 0, .LBB521_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB521_1
; PPC64LE-NEXT:  .LBB521_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i8* %ptr, i8 %val syncscope("singlethread") acquire
  ret i8 %ret
}

define i8 @test522(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test522:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB522_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB522_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB522_1
; PPC64LE-NEXT:  .LBB522_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i8* %ptr, i8 %val syncscope("singlethread") release
  ret i8 %ret
}

define i8 @test523(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test523:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB523_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB523_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB523_1
; PPC64LE-NEXT:  .LBB523_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i8* %ptr, i8 %val syncscope("singlethread") acq_rel
  ret i8 %ret
}

define i8 @test524(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test524:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB524_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB524_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB524_1
; PPC64LE-NEXT:  .LBB524_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i8* %ptr, i8 %val syncscope("singlethread") seq_cst
  ret i8 %ret
}

define i16 @test525(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test525:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB525_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB525_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB525_1
; PPC64LE-NEXT:  .LBB525_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i16* %ptr, i16 %val syncscope("singlethread") monotonic
  ret i16 %ret
}

define i16 @test526(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test526:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB526_1:
; PPC64LE-NEXT:    lharx 3, 0, 5
; PPC64LE-NEXT:    cmplw 4, 3
; PPC64LE-NEXT:    ble 0, .LBB526_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB526_1
; PPC64LE-NEXT:  .LBB526_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i16* %ptr, i16 %val syncscope("singlethread") acquire
  ret i16 %ret
}

define i16 @test527(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test527:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB527_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB527_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB527_1
; PPC64LE-NEXT:  .LBB527_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i16* %ptr, i16 %val syncscope("singlethread") release
  ret i16 %ret
}

define i16 @test528(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test528:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB528_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB528_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB528_1
; PPC64LE-NEXT:  .LBB528_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i16* %ptr, i16 %val syncscope("singlethread") acq_rel
  ret i16 %ret
}

define i16 @test529(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test529:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB529_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB529_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB529_1
; PPC64LE-NEXT:  .LBB529_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i16* %ptr, i16 %val syncscope("singlethread") seq_cst
  ret i16 %ret
}

define i32 @test530(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test530:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB530_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB530_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB530_1
; PPC64LE-NEXT:  .LBB530_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i32* %ptr, i32 %val syncscope("singlethread") monotonic
  ret i32 %ret
}

define i32 @test531(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test531:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB531_1:
; PPC64LE-NEXT:    lwarx 3, 0, 5
; PPC64LE-NEXT:    cmplw 4, 3
; PPC64LE-NEXT:    ble 0, .LBB531_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB531_1
; PPC64LE-NEXT:  .LBB531_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i32* %ptr, i32 %val syncscope("singlethread") acquire
  ret i32 %ret
}

define i32 @test532(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test532:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB532_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB532_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB532_1
; PPC64LE-NEXT:  .LBB532_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i32* %ptr, i32 %val syncscope("singlethread") release
  ret i32 %ret
}

define i32 @test533(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test533:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB533_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB533_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB533_1
; PPC64LE-NEXT:  .LBB533_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i32* %ptr, i32 %val syncscope("singlethread") acq_rel
  ret i32 %ret
}

define i32 @test534(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test534:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB534_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    ble 0, .LBB534_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB534_1
; PPC64LE-NEXT:  .LBB534_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i32* %ptr, i32 %val syncscope("singlethread") seq_cst
  ret i32 %ret
}

define i64 @test535(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test535:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB535_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpld 4, 5
; PPC64LE-NEXT:    ble 0, .LBB535_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB535_1
; PPC64LE-NEXT:  .LBB535_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i64* %ptr, i64 %val syncscope("singlethread") monotonic
  ret i64 %ret
}

define i64 @test536(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test536:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB536_1:
; PPC64LE-NEXT:    ldarx 3, 0, 5
; PPC64LE-NEXT:    cmpld 4, 3
; PPC64LE-NEXT:    ble 0, .LBB536_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB536_1
; PPC64LE-NEXT:  .LBB536_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i64* %ptr, i64 %val syncscope("singlethread") acquire
  ret i64 %ret
}

define i64 @test537(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test537:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB537_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpld 4, 5
; PPC64LE-NEXT:    ble 0, .LBB537_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB537_1
; PPC64LE-NEXT:  .LBB537_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i64* %ptr, i64 %val syncscope("singlethread") release
  ret i64 %ret
}

define i64 @test538(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test538:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB538_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpld 4, 5
; PPC64LE-NEXT:    ble 0, .LBB538_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB538_1
; PPC64LE-NEXT:  .LBB538_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i64* %ptr, i64 %val syncscope("singlethread") acq_rel
  ret i64 %ret
}

define i64 @test539(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test539:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB539_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpld 4, 5
; PPC64LE-NEXT:    ble 0, .LBB539_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB539_1
; PPC64LE-NEXT:  .LBB539_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umax i64* %ptr, i64 %val syncscope("singlethread") seq_cst
  ret i64 %ret
}

define i8 @test540(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test540:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB540_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB540_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB540_1
; PPC64LE-NEXT:  .LBB540_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i8* %ptr, i8 %val syncscope("singlethread") monotonic
  ret i8 %ret
}

define i8 @test541(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test541:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB541_1:
; PPC64LE-NEXT:    lbarx 3, 0, 5
; PPC64LE-NEXT:    cmplw 4, 3
; PPC64LE-NEXT:    bge 0, .LBB541_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB541_1
; PPC64LE-NEXT:  .LBB541_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i8* %ptr, i8 %val syncscope("singlethread") acquire
  ret i8 %ret
}

define i8 @test542(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test542:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB542_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB542_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB542_1
; PPC64LE-NEXT:  .LBB542_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i8* %ptr, i8 %val syncscope("singlethread") release
  ret i8 %ret
}

define i8 @test543(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test543:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB543_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB543_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB543_1
; PPC64LE-NEXT:  .LBB543_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i8* %ptr, i8 %val syncscope("singlethread") acq_rel
  ret i8 %ret
}

define i8 @test544(i8* %ptr, i8 %val) {
; PPC64LE-LABEL: test544:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB544_1:
; PPC64LE-NEXT:    lbarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB544_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stbcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB544_1
; PPC64LE-NEXT:  .LBB544_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i8* %ptr, i8 %val syncscope("singlethread") seq_cst
  ret i8 %ret
}

define i16 @test545(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test545:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB545_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB545_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB545_1
; PPC64LE-NEXT:  .LBB545_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i16* %ptr, i16 %val syncscope("singlethread") monotonic
  ret i16 %ret
}

define i16 @test546(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test546:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB546_1:
; PPC64LE-NEXT:    lharx 3, 0, 5
; PPC64LE-NEXT:    cmplw 4, 3
; PPC64LE-NEXT:    bge 0, .LBB546_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB546_1
; PPC64LE-NEXT:  .LBB546_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i16* %ptr, i16 %val syncscope("singlethread") acquire
  ret i16 %ret
}

define i16 @test547(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test547:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB547_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB547_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB547_1
; PPC64LE-NEXT:  .LBB547_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i16* %ptr, i16 %val syncscope("singlethread") release
  ret i16 %ret
}

define i16 @test548(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test548:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB548_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB548_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB548_1
; PPC64LE-NEXT:  .LBB548_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i16* %ptr, i16 %val syncscope("singlethread") acq_rel
  ret i16 %ret
}

define i16 @test549(i16* %ptr, i16 %val) {
; PPC64LE-LABEL: test549:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB549_1:
; PPC64LE-NEXT:    lharx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB549_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    sthcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB549_1
; PPC64LE-NEXT:  .LBB549_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i16* %ptr, i16 %val syncscope("singlethread") seq_cst
  ret i16 %ret
}

define i32 @test550(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test550:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB550_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB550_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB550_1
; PPC64LE-NEXT:  .LBB550_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i32* %ptr, i32 %val syncscope("singlethread") monotonic
  ret i32 %ret
}

define i32 @test551(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test551:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB551_1:
; PPC64LE-NEXT:    lwarx 3, 0, 5
; PPC64LE-NEXT:    cmplw 4, 3
; PPC64LE-NEXT:    bge 0, .LBB551_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB551_1
; PPC64LE-NEXT:  .LBB551_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i32* %ptr, i32 %val syncscope("singlethread") acquire
  ret i32 %ret
}

define i32 @test552(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test552:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB552_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB552_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB552_1
; PPC64LE-NEXT:  .LBB552_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i32* %ptr, i32 %val syncscope("singlethread") release
  ret i32 %ret
}

define i32 @test553(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test553:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB553_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB553_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB553_1
; PPC64LE-NEXT:  .LBB553_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i32* %ptr, i32 %val syncscope("singlethread") acq_rel
  ret i32 %ret
}

define i32 @test554(i32* %ptr, i32 %val) {
; PPC64LE-LABEL: test554:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB554_1:
; PPC64LE-NEXT:    lwarx 5, 0, 3
; PPC64LE-NEXT:    cmplw 4, 5
; PPC64LE-NEXT:    bge 0, .LBB554_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stwcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB554_1
; PPC64LE-NEXT:  .LBB554_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i32* %ptr, i32 %val syncscope("singlethread") seq_cst
  ret i32 %ret
}

define i64 @test555(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test555:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:  .LBB555_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpld 4, 5
; PPC64LE-NEXT:    bge 0, .LBB555_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB555_1
; PPC64LE-NEXT:  .LBB555_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i64* %ptr, i64 %val syncscope("singlethread") monotonic
  ret i64 %ret
}

define i64 @test556(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test556:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    mr 5, 3
; PPC64LE-NEXT:  .LBB556_1:
; PPC64LE-NEXT:    ldarx 3, 0, 5
; PPC64LE-NEXT:    cmpld 4, 3
; PPC64LE-NEXT:    bge 0, .LBB556_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 5
; PPC64LE-NEXT:    bne 0, .LBB556_1
; PPC64LE-NEXT:  .LBB556_3:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i64* %ptr, i64 %val syncscope("singlethread") acquire
  ret i64 %ret
}

define i64 @test557(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test557:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB557_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpld 4, 5
; PPC64LE-NEXT:    bge 0, .LBB557_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB557_1
; PPC64LE-NEXT:  .LBB557_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i64* %ptr, i64 %val syncscope("singlethread") release
  ret i64 %ret
}

define i64 @test558(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test558:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:  .LBB558_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpld 4, 5
; PPC64LE-NEXT:    bge 0, .LBB558_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB558_1
; PPC64LE-NEXT:  .LBB558_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i64* %ptr, i64 %val syncscope("singlethread") acq_rel
  ret i64 %ret
}

define i64 @test559(i64* %ptr, i64 %val) {
; PPC64LE-LABEL: test559:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    sync
; PPC64LE-NEXT:  .LBB559_1:
; PPC64LE-NEXT:    ldarx 5, 0, 3
; PPC64LE-NEXT:    cmpld 4, 5
; PPC64LE-NEXT:    bge 0, .LBB559_3
; PPC64LE-NEXT:  # %bb.2:
; PPC64LE-NEXT:    stdcx. 4, 0, 3
; PPC64LE-NEXT:    bne 0, .LBB559_1
; PPC64LE-NEXT:  .LBB559_3:
; PPC64LE-NEXT:    mr 3, 5
; PPC64LE-NEXT:    lwsync
; PPC64LE-NEXT:    blr
  %ret = atomicrmw umin i64* %ptr, i64 %val syncscope("singlethread") seq_cst
  ret i64 %ret
}

; The second load should never be scheduled before isync.
define i32 @test_ordering0(i32* %ptr1, i32* %ptr2) {
; PPC64LE-LABEL: test_ordering0:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwz 4, 0(3)
; PPC64LE-NEXT:    cmpd 7, 4, 4
; PPC64LE-NEXT:    bne- 7, .+4
; PPC64LE-NEXT:    isync
; PPC64LE-NEXT:    lwz 3, 0(3)
; PPC64LE-NEXT:    add 3, 4, 3
; PPC64LE-NEXT:    blr
  %val1 = load atomic i32, i32* %ptr1 acquire, align 4
  %val2 = load i32, i32* %ptr1
  %add = add i32 %val1, %val2
  ret i32 %add
}

; The second store should never be scheduled before isync.
define i32 @test_ordering1(i32* %ptr1, i32 %val1, i32* %ptr2) {
; PPC64LE-LABEL: test_ordering1:
; PPC64LE:       # %bb.0:
; PPC64LE-NEXT:    lwz 3, 0(3)
; PPC64LE-NEXT:    cmpd 7, 3, 3
; PPC64LE-NEXT:    bne- 7, .+4
; PPC64LE-NEXT:    isync
; PPC64LE-NEXT:    stw 4, 0(5)
; PPC64LE-NEXT:    blr
  %val2 = load atomic i32, i32* %ptr1 acquire, align 4
  store i32 %val1, i32* %ptr2
  ret i32 %val2
}