; RUN: opt < %s -tsan -S | FileCheck %s ; Check that atomic memory operations are converted to calls into ThreadSanitizer runtime. target datalayout = "e-p:64:64:64-i1:8:8-i8:8:8-i16:16:16-i32:32:32-i64:64:64-f32:32:32-f64:64:64-v64:64:64-v128:128:128-a0:0:64-s0:64:64-f80:128:128-n8:16:32:64-S128" define i8 @atomic8_load_unordered(i8* %a) nounwind uwtable { entry: %0 = load atomic i8* %a unordered, align 1 ret i8 %0 } ; CHECK: atomic8_load_unordered ; CHECK: call i8 @__tsan_atomic8_load(i8* %a, i32 0) define i8 @atomic8_load_monotonic(i8* %a) nounwind uwtable { entry: %0 = load atomic i8* %a monotonic, align 1 ret i8 %0 } ; CHECK: atomic8_load_monotonic ; CHECK: call i8 @__tsan_atomic8_load(i8* %a, i32 0) define i8 @atomic8_load_acquire(i8* %a) nounwind uwtable { entry: %0 = load atomic i8* %a acquire, align 1 ret i8 %0 } ; CHECK: atomic8_load_acquire ; CHECK: call i8 @__tsan_atomic8_load(i8* %a, i32 2) define i8 @atomic8_load_seq_cst(i8* %a) nounwind uwtable { entry: %0 = load atomic i8* %a seq_cst, align 1 ret i8 %0 } ; CHECK: atomic8_load_seq_cst ; CHECK: call i8 @__tsan_atomic8_load(i8* %a, i32 5) define void @atomic8_store_unordered(i8* %a) nounwind uwtable { entry: store atomic i8 0, i8* %a unordered, align 1 ret void } ; CHECK: atomic8_store_unordered ; CHECK: call void @__tsan_atomic8_store(i8* %a, i8 0, i32 0) define void @atomic8_store_monotonic(i8* %a) nounwind uwtable { entry: store atomic i8 0, i8* %a monotonic, align 1 ret void } ; CHECK: atomic8_store_monotonic ; CHECK: call void @__tsan_atomic8_store(i8* %a, i8 0, i32 0) define void @atomic8_store_release(i8* %a) nounwind uwtable { entry: store atomic i8 0, i8* %a release, align 1 ret void } ; CHECK: atomic8_store_release ; CHECK: call void @__tsan_atomic8_store(i8* %a, i8 0, i32 3) define void @atomic8_store_seq_cst(i8* %a) nounwind uwtable { entry: store atomic i8 0, i8* %a seq_cst, align 1 ret void } ; CHECK: atomic8_store_seq_cst ; CHECK: call void @__tsan_atomic8_store(i8* %a, i8 0, i32 5) define void @atomic8_xchg_monotonic(i8* %a) nounwind uwtable { entry: atomicrmw xchg i8* %a, i8 0 monotonic ret void } ; CHECK: atomic8_xchg_monotonic ; CHECK: call i8 @__tsan_atomic8_exchange(i8* %a, i8 0, i32 0) define void @atomic8_add_monotonic(i8* %a) nounwind uwtable { entry: atomicrmw add i8* %a, i8 0 monotonic ret void } ; CHECK: atomic8_add_monotonic ; CHECK: call i8 @__tsan_atomic8_fetch_add(i8* %a, i8 0, i32 0) define void @atomic8_sub_monotonic(i8* %a) nounwind uwtable { entry: atomicrmw sub i8* %a, i8 0 monotonic ret void } ; CHECK: atomic8_sub_monotonic ; CHECK: call i8 @__tsan_atomic8_fetch_sub(i8* %a, i8 0, i32 0) define void @atomic8_and_monotonic(i8* %a) nounwind uwtable { entry: atomicrmw and i8* %a, i8 0 monotonic ret void } ; CHECK: atomic8_and_monotonic ; CHECK: call i8 @__tsan_atomic8_fetch_and(i8* %a, i8 0, i32 0) define void @atomic8_or_monotonic(i8* %a) nounwind uwtable { entry: atomicrmw or i8* %a, i8 0 monotonic ret void } ; CHECK: atomic8_or_monotonic ; CHECK: call i8 @__tsan_atomic8_fetch_or(i8* %a, i8 0, i32 0) define void @atomic8_xor_monotonic(i8* %a) nounwind uwtable { entry: atomicrmw xor i8* %a, i8 0 monotonic ret void } ; CHECK: atomic8_xor_monotonic ; CHECK: call i8 @__tsan_atomic8_fetch_xor(i8* %a, i8 0, i32 0) define void @atomic8_nand_monotonic(i8* %a) nounwind uwtable { entry: atomicrmw nand i8* %a, i8 0 monotonic ret void } ; CHECK: atomic8_nand_monotonic ; CHECK: call i8 @__tsan_atomic8_fetch_nand(i8* %a, i8 0, i32 0) define void @atomic8_xchg_acquire(i8* %a) nounwind uwtable { entry: atomicrmw xchg i8* %a, i8 0 acquire ret void } ; CHECK: atomic8_xchg_acquire ; CHECK: call i8 @__tsan_atomic8_exchange(i8* %a, i8 0, i32 2) define void @atomic8_add_acquire(i8* %a) nounwind uwtable { entry: atomicrmw add i8* %a, i8 0 acquire ret void } ; CHECK: atomic8_add_acquire ; CHECK: call i8 @__tsan_atomic8_fetch_add(i8* %a, i8 0, i32 2) define void @atomic8_sub_acquire(i8* %a) nounwind uwtable { entry: atomicrmw sub i8* %a, i8 0 acquire ret void } ; CHECK: atomic8_sub_acquire ; CHECK: call i8 @__tsan_atomic8_fetch_sub(i8* %a, i8 0, i32 2) define void @atomic8_and_acquire(i8* %a) nounwind uwtable { entry: atomicrmw and i8* %a, i8 0 acquire ret void } ; CHECK: atomic8_and_acquire ; CHECK: call i8 @__tsan_atomic8_fetch_and(i8* %a, i8 0, i32 2) define void @atomic8_or_acquire(i8* %a) nounwind uwtable { entry: atomicrmw or i8* %a, i8 0 acquire ret void } ; CHECK: atomic8_or_acquire ; CHECK: call i8 @__tsan_atomic8_fetch_or(i8* %a, i8 0, i32 2) define void @atomic8_xor_acquire(i8* %a) nounwind uwtable { entry: atomicrmw xor i8* %a, i8 0 acquire ret void } ; CHECK: atomic8_xor_acquire ; CHECK: call i8 @__tsan_atomic8_fetch_xor(i8* %a, i8 0, i32 2) define void @atomic8_nand_acquire(i8* %a) nounwind uwtable { entry: atomicrmw nand i8* %a, i8 0 acquire ret void } ; CHECK: atomic8_nand_acquire ; CHECK: call i8 @__tsan_atomic8_fetch_nand(i8* %a, i8 0, i32 2) define void @atomic8_xchg_release(i8* %a) nounwind uwtable { entry: atomicrmw xchg i8* %a, i8 0 release ret void } ; CHECK: atomic8_xchg_release ; CHECK: call i8 @__tsan_atomic8_exchange(i8* %a, i8 0, i32 3) define void @atomic8_add_release(i8* %a) nounwind uwtable { entry: atomicrmw add i8* %a, i8 0 release ret void } ; CHECK: atomic8_add_release ; CHECK: call i8 @__tsan_atomic8_fetch_add(i8* %a, i8 0, i32 3) define void @atomic8_sub_release(i8* %a) nounwind uwtable { entry: atomicrmw sub i8* %a, i8 0 release ret void } ; CHECK: atomic8_sub_release ; CHECK: call i8 @__tsan_atomic8_fetch_sub(i8* %a, i8 0, i32 3) define void @atomic8_and_release(i8* %a) nounwind uwtable { entry: atomicrmw and i8* %a, i8 0 release ret void } ; CHECK: atomic8_and_release ; CHECK: call i8 @__tsan_atomic8_fetch_and(i8* %a, i8 0, i32 3) define void @atomic8_or_release(i8* %a) nounwind uwtable { entry: atomicrmw or i8* %a, i8 0 release ret void } ; CHECK: atomic8_or_release ; CHECK: call i8 @__tsan_atomic8_fetch_or(i8* %a, i8 0, i32 3) define void @atomic8_xor_release(i8* %a) nounwind uwtable { entry: atomicrmw xor i8* %a, i8 0 release ret void } ; CHECK: atomic8_xor_release ; CHECK: call i8 @__tsan_atomic8_fetch_xor(i8* %a, i8 0, i32 3) define void @atomic8_nand_release(i8* %a) nounwind uwtable { entry: atomicrmw nand i8* %a, i8 0 release ret void } ; CHECK: atomic8_nand_release ; CHECK: call i8 @__tsan_atomic8_fetch_nand(i8* %a, i8 0, i32 3) define void @atomic8_xchg_acq_rel(i8* %a) nounwind uwtable { entry: atomicrmw xchg i8* %a, i8 0 acq_rel ret void } ; CHECK: atomic8_xchg_acq_rel ; CHECK: call i8 @__tsan_atomic8_exchange(i8* %a, i8 0, i32 4) define void @atomic8_add_acq_rel(i8* %a) nounwind uwtable { entry: atomicrmw add i8* %a, i8 0 acq_rel ret void } ; CHECK: atomic8_add_acq_rel ; CHECK: call i8 @__tsan_atomic8_fetch_add(i8* %a, i8 0, i32 4) define void @atomic8_sub_acq_rel(i8* %a) nounwind uwtable { entry: atomicrmw sub i8* %a, i8 0 acq_rel ret void } ; CHECK: atomic8_sub_acq_rel ; CHECK: call i8 @__tsan_atomic8_fetch_sub(i8* %a, i8 0, i32 4) define void @atomic8_and_acq_rel(i8* %a) nounwind uwtable { entry: atomicrmw and i8* %a, i8 0 acq_rel ret void } ; CHECK: atomic8_and_acq_rel ; CHECK: call i8 @__tsan_atomic8_fetch_and(i8* %a, i8 0, i32 4) define void @atomic8_or_acq_rel(i8* %a) nounwind uwtable { entry: atomicrmw or i8* %a, i8 0 acq_rel ret void } ; CHECK: atomic8_or_acq_rel ; CHECK: call i8 @__tsan_atomic8_fetch_or(i8* %a, i8 0, i32 4) define void @atomic8_xor_acq_rel(i8* %a) nounwind uwtable { entry: atomicrmw xor i8* %a, i8 0 acq_rel ret void } ; CHECK: atomic8_xor_acq_rel ; CHECK: call i8 @__tsan_atomic8_fetch_xor(i8* %a, i8 0, i32 4) define void @atomic8_nand_acq_rel(i8* %a) nounwind uwtable { entry: atomicrmw nand i8* %a, i8 0 acq_rel ret void } ; CHECK: atomic8_nand_acq_rel ; CHECK: call i8 @__tsan_atomic8_fetch_nand(i8* %a, i8 0, i32 4) define void @atomic8_xchg_seq_cst(i8* %a) nounwind uwtable { entry: atomicrmw xchg i8* %a, i8 0 seq_cst ret void } ; CHECK: atomic8_xchg_seq_cst ; CHECK: call i8 @__tsan_atomic8_exchange(i8* %a, i8 0, i32 5) define void @atomic8_add_seq_cst(i8* %a) nounwind uwtable { entry: atomicrmw add i8* %a, i8 0 seq_cst ret void } ; CHECK: atomic8_add_seq_cst ; CHECK: call i8 @__tsan_atomic8_fetch_add(i8* %a, i8 0, i32 5) define void @atomic8_sub_seq_cst(i8* %a) nounwind uwtable { entry: atomicrmw sub i8* %a, i8 0 seq_cst ret void } ; CHECK: atomic8_sub_seq_cst ; CHECK: call i8 @__tsan_atomic8_fetch_sub(i8* %a, i8 0, i32 5) define void @atomic8_and_seq_cst(i8* %a) nounwind uwtable { entry: atomicrmw and i8* %a, i8 0 seq_cst ret void } ; CHECK: atomic8_and_seq_cst ; CHECK: call i8 @__tsan_atomic8_fetch_and(i8* %a, i8 0, i32 5) define void @atomic8_or_seq_cst(i8* %a) nounwind uwtable { entry: atomicrmw or i8* %a, i8 0 seq_cst ret void } ; CHECK: atomic8_or_seq_cst ; CHECK: call i8 @__tsan_atomic8_fetch_or(i8* %a, i8 0, i32 5) define void @atomic8_xor_seq_cst(i8* %a) nounwind uwtable { entry: atomicrmw xor i8* %a, i8 0 seq_cst ret void } ; CHECK: atomic8_xor_seq_cst ; CHECK: call i8 @__tsan_atomic8_fetch_xor(i8* %a, i8 0, i32 5) define void @atomic8_nand_seq_cst(i8* %a) nounwind uwtable { entry: atomicrmw nand i8* %a, i8 0 seq_cst ret void } ; CHECK: atomic8_nand_seq_cst ; CHECK: call i8 @__tsan_atomic8_fetch_nand(i8* %a, i8 0, i32 5) define void @atomic8_cas_monotonic(i8* %a) nounwind uwtable { entry: cmpxchg i8* %a, i8 0, i8 1 monotonic monotonic ret void } ; CHECK: atomic8_cas_monotonic ; CHECK: call i8 @__tsan_atomic8_compare_exchange_val(i8* %a, i8 0, i8 1, i32 0, i32 0) define void @atomic8_cas_acquire(i8* %a) nounwind uwtable { entry: cmpxchg i8* %a, i8 0, i8 1 acquire acquire ret void } ; CHECK: atomic8_cas_acquire ; CHECK: call i8 @__tsan_atomic8_compare_exchange_val(i8* %a, i8 0, i8 1, i32 2, i32 2) define void @atomic8_cas_release(i8* %a) nounwind uwtable { entry: cmpxchg i8* %a, i8 0, i8 1 release monotonic ret void } ; CHECK: atomic8_cas_release ; CHECK: call i8 @__tsan_atomic8_compare_exchange_val(i8* %a, i8 0, i8 1, i32 3, i32 0) define void @atomic8_cas_acq_rel(i8* %a) nounwind uwtable { entry: cmpxchg i8* %a, i8 0, i8 1 acq_rel acquire ret void } ; CHECK: atomic8_cas_acq_rel ; CHECK: call i8 @__tsan_atomic8_compare_exchange_val(i8* %a, i8 0, i8 1, i32 4, i32 2) define void @atomic8_cas_seq_cst(i8* %a) nounwind uwtable { entry: cmpxchg i8* %a, i8 0, i8 1 seq_cst seq_cst ret void } ; CHECK: atomic8_cas_seq_cst ; CHECK: call i8 @__tsan_atomic8_compare_exchange_val(i8* %a, i8 0, i8 1, i32 5, i32 5) define i16 @atomic16_load_unordered(i16* %a) nounwind uwtable { entry: %0 = load atomic i16* %a unordered, align 2 ret i16 %0 } ; CHECK: atomic16_load_unordered ; CHECK: call i16 @__tsan_atomic16_load(i16* %a, i32 0) define i16 @atomic16_load_monotonic(i16* %a) nounwind uwtable { entry: %0 = load atomic i16* %a monotonic, align 2 ret i16 %0 } ; CHECK: atomic16_load_monotonic ; CHECK: call i16 @__tsan_atomic16_load(i16* %a, i32 0) define i16 @atomic16_load_acquire(i16* %a) nounwind uwtable { entry: %0 = load atomic i16* %a acquire, align 2 ret i16 %0 } ; CHECK: atomic16_load_acquire ; CHECK: call i16 @__tsan_atomic16_load(i16* %a, i32 2) define i16 @atomic16_load_seq_cst(i16* %a) nounwind uwtable { entry: %0 = load atomic i16* %a seq_cst, align 2 ret i16 %0 } ; CHECK: atomic16_load_seq_cst ; CHECK: call i16 @__tsan_atomic16_load(i16* %a, i32 5) define void @atomic16_store_unordered(i16* %a) nounwind uwtable { entry: store atomic i16 0, i16* %a unordered, align 2 ret void } ; CHECK: atomic16_store_unordered ; CHECK: call void @__tsan_atomic16_store(i16* %a, i16 0, i32 0) define void @atomic16_store_monotonic(i16* %a) nounwind uwtable { entry: store atomic i16 0, i16* %a monotonic, align 2 ret void } ; CHECK: atomic16_store_monotonic ; CHECK: call void @__tsan_atomic16_store(i16* %a, i16 0, i32 0) define void @atomic16_store_release(i16* %a) nounwind uwtable { entry: store atomic i16 0, i16* %a release, align 2 ret void } ; CHECK: atomic16_store_release ; CHECK: call void @__tsan_atomic16_store(i16* %a, i16 0, i32 3) define void @atomic16_store_seq_cst(i16* %a) nounwind uwtable { entry: store atomic i16 0, i16* %a seq_cst, align 2 ret void } ; CHECK: atomic16_store_seq_cst ; CHECK: call void @__tsan_atomic16_store(i16* %a, i16 0, i32 5) define void @atomic16_xchg_monotonic(i16* %a) nounwind uwtable { entry: atomicrmw xchg i16* %a, i16 0 monotonic ret void } ; CHECK: atomic16_xchg_monotonic ; CHECK: call i16 @__tsan_atomic16_exchange(i16* %a, i16 0, i32 0) define void @atomic16_add_monotonic(i16* %a) nounwind uwtable { entry: atomicrmw add i16* %a, i16 0 monotonic ret void } ; CHECK: atomic16_add_monotonic ; CHECK: call i16 @__tsan_atomic16_fetch_add(i16* %a, i16 0, i32 0) define void @atomic16_sub_monotonic(i16* %a) nounwind uwtable { entry: atomicrmw sub i16* %a, i16 0 monotonic ret void } ; CHECK: atomic16_sub_monotonic ; CHECK: call i16 @__tsan_atomic16_fetch_sub(i16* %a, i16 0, i32 0) define void @atomic16_and_monotonic(i16* %a) nounwind uwtable { entry: atomicrmw and i16* %a, i16 0 monotonic ret void } ; CHECK: atomic16_and_monotonic ; CHECK: call i16 @__tsan_atomic16_fetch_and(i16* %a, i16 0, i32 0) define void @atomic16_or_monotonic(i16* %a) nounwind uwtable { entry: atomicrmw or i16* %a, i16 0 monotonic ret void } ; CHECK: atomic16_or_monotonic ; CHECK: call i16 @__tsan_atomic16_fetch_or(i16* %a, i16 0, i32 0) define void @atomic16_xor_monotonic(i16* %a) nounwind uwtable { entry: atomicrmw xor i16* %a, i16 0 monotonic ret void } ; CHECK: atomic16_xor_monotonic ; CHECK: call i16 @__tsan_atomic16_fetch_xor(i16* %a, i16 0, i32 0) define void @atomic16_nand_monotonic(i16* %a) nounwind uwtable { entry: atomicrmw nand i16* %a, i16 0 monotonic ret void } ; CHECK: atomic16_nand_monotonic ; CHECK: call i16 @__tsan_atomic16_fetch_nand(i16* %a, i16 0, i32 0) define void @atomic16_xchg_acquire(i16* %a) nounwind uwtable { entry: atomicrmw xchg i16* %a, i16 0 acquire ret void } ; CHECK: atomic16_xchg_acquire ; CHECK: call i16 @__tsan_atomic16_exchange(i16* %a, i16 0, i32 2) define void @atomic16_add_acquire(i16* %a) nounwind uwtable { entry: atomicrmw add i16* %a, i16 0 acquire ret void } ; CHECK: atomic16_add_acquire ; CHECK: call i16 @__tsan_atomic16_fetch_add(i16* %a, i16 0, i32 2) define void @atomic16_sub_acquire(i16* %a) nounwind uwtable { entry: atomicrmw sub i16* %a, i16 0 acquire ret void } ; CHECK: atomic16_sub_acquire ; CHECK: call i16 @__tsan_atomic16_fetch_sub(i16* %a, i16 0, i32 2) define void @atomic16_and_acquire(i16* %a) nounwind uwtable { entry: atomicrmw and i16* %a, i16 0 acquire ret void } ; CHECK: atomic16_and_acquire ; CHECK: call i16 @__tsan_atomic16_fetch_and(i16* %a, i16 0, i32 2) define void @atomic16_or_acquire(i16* %a) nounwind uwtable { entry: atomicrmw or i16* %a, i16 0 acquire ret void } ; CHECK: atomic16_or_acquire ; CHECK: call i16 @__tsan_atomic16_fetch_or(i16* %a, i16 0, i32 2) define void @atomic16_xor_acquire(i16* %a) nounwind uwtable { entry: atomicrmw xor i16* %a, i16 0 acquire ret void } ; CHECK: atomic16_xor_acquire ; CHECK: call i16 @__tsan_atomic16_fetch_xor(i16* %a, i16 0, i32 2) define void @atomic16_nand_acquire(i16* %a) nounwind uwtable { entry: atomicrmw nand i16* %a, i16 0 acquire ret void } ; CHECK: atomic16_nand_acquire ; CHECK: call i16 @__tsan_atomic16_fetch_nand(i16* %a, i16 0, i32 2) define void @atomic16_xchg_release(i16* %a) nounwind uwtable { entry: atomicrmw xchg i16* %a, i16 0 release ret void } ; CHECK: atomic16_xchg_release ; CHECK: call i16 @__tsan_atomic16_exchange(i16* %a, i16 0, i32 3) define void @atomic16_add_release(i16* %a) nounwind uwtable { entry: atomicrmw add i16* %a, i16 0 release ret void } ; CHECK: atomic16_add_release ; CHECK: call i16 @__tsan_atomic16_fetch_add(i16* %a, i16 0, i32 3) define void @atomic16_sub_release(i16* %a) nounwind uwtable { entry: atomicrmw sub i16* %a, i16 0 release ret void } ; CHECK: atomic16_sub_release ; CHECK: call i16 @__tsan_atomic16_fetch_sub(i16* %a, i16 0, i32 3) define void @atomic16_and_release(i16* %a) nounwind uwtable { entry: atomicrmw and i16* %a, i16 0 release ret void } ; CHECK: atomic16_and_release ; CHECK: call i16 @__tsan_atomic16_fetch_and(i16* %a, i16 0, i32 3) define void @atomic16_or_release(i16* %a) nounwind uwtable { entry: atomicrmw or i16* %a, i16 0 release ret void } ; CHECK: atomic16_or_release ; CHECK: call i16 @__tsan_atomic16_fetch_or(i16* %a, i16 0, i32 3) define void @atomic16_xor_release(i16* %a) nounwind uwtable { entry: atomicrmw xor i16* %a, i16 0 release ret void } ; CHECK: atomic16_xor_release ; CHECK: call i16 @__tsan_atomic16_fetch_xor(i16* %a, i16 0, i32 3) define void @atomic16_nand_release(i16* %a) nounwind uwtable { entry: atomicrmw nand i16* %a, i16 0 release ret void } ; CHECK: atomic16_nand_release ; CHECK: call i16 @__tsan_atomic16_fetch_nand(i16* %a, i16 0, i32 3) define void @atomic16_xchg_acq_rel(i16* %a) nounwind uwtable { entry: atomicrmw xchg i16* %a, i16 0 acq_rel ret void } ; CHECK: atomic16_xchg_acq_rel ; CHECK: call i16 @__tsan_atomic16_exchange(i16* %a, i16 0, i32 4) define void @atomic16_add_acq_rel(i16* %a) nounwind uwtable { entry: atomicrmw add i16* %a, i16 0 acq_rel ret void } ; CHECK: atomic16_add_acq_rel ; CHECK: call i16 @__tsan_atomic16_fetch_add(i16* %a, i16 0, i32 4) define void @atomic16_sub_acq_rel(i16* %a) nounwind uwtable { entry: atomicrmw sub i16* %a, i16 0 acq_rel ret void } ; CHECK: atomic16_sub_acq_rel ; CHECK: call i16 @__tsan_atomic16_fetch_sub(i16* %a, i16 0, i32 4) define void @atomic16_and_acq_rel(i16* %a) nounwind uwtable { entry: atomicrmw and i16* %a, i16 0 acq_rel ret void } ; CHECK: atomic16_and_acq_rel ; CHECK: call i16 @__tsan_atomic16_fetch_and(i16* %a, i16 0, i32 4) define void @atomic16_or_acq_rel(i16* %a) nounwind uwtable { entry: atomicrmw or i16* %a, i16 0 acq_rel ret void } ; CHECK: atomic16_or_acq_rel ; CHECK: call i16 @__tsan_atomic16_fetch_or(i16* %a, i16 0, i32 4) define void @atomic16_xor_acq_rel(i16* %a) nounwind uwtable { entry: atomicrmw xor i16* %a, i16 0 acq_rel ret void } ; CHECK: atomic16_xor_acq_rel ; CHECK: call i16 @__tsan_atomic16_fetch_xor(i16* %a, i16 0, i32 4) define void @atomic16_nand_acq_rel(i16* %a) nounwind uwtable { entry: atomicrmw nand i16* %a, i16 0 acq_rel ret void } ; CHECK: atomic16_nand_acq_rel ; CHECK: call i16 @__tsan_atomic16_fetch_nand(i16* %a, i16 0, i32 4) define void @atomic16_xchg_seq_cst(i16* %a) nounwind uwtable { entry: atomicrmw xchg i16* %a, i16 0 seq_cst ret void } ; CHECK: atomic16_xchg_seq_cst ; CHECK: call i16 @__tsan_atomic16_exchange(i16* %a, i16 0, i32 5) define void @atomic16_add_seq_cst(i16* %a) nounwind uwtable { entry: atomicrmw add i16* %a, i16 0 seq_cst ret void } ; CHECK: atomic16_add_seq_cst ; CHECK: call i16 @__tsan_atomic16_fetch_add(i16* %a, i16 0, i32 5) define void @atomic16_sub_seq_cst(i16* %a) nounwind uwtable { entry: atomicrmw sub i16* %a, i16 0 seq_cst ret void } ; CHECK: atomic16_sub_seq_cst ; CHECK: call i16 @__tsan_atomic16_fetch_sub(i16* %a, i16 0, i32 5) define void @atomic16_and_seq_cst(i16* %a) nounwind uwtable { entry: atomicrmw and i16* %a, i16 0 seq_cst ret void } ; CHECK: atomic16_and_seq_cst ; CHECK: call i16 @__tsan_atomic16_fetch_and(i16* %a, i16 0, i32 5) define void @atomic16_or_seq_cst(i16* %a) nounwind uwtable { entry: atomicrmw or i16* %a, i16 0 seq_cst ret void } ; CHECK: atomic16_or_seq_cst ; CHECK: call i16 @__tsan_atomic16_fetch_or(i16* %a, i16 0, i32 5) define void @atomic16_xor_seq_cst(i16* %a) nounwind uwtable { entry: atomicrmw xor i16* %a, i16 0 seq_cst ret void } ; CHECK: atomic16_xor_seq_cst ; CHECK: call i16 @__tsan_atomic16_fetch_xor(i16* %a, i16 0, i32 5) define void @atomic16_nand_seq_cst(i16* %a) nounwind uwtable { entry: atomicrmw nand i16* %a, i16 0 seq_cst ret void } ; CHECK: atomic16_nand_seq_cst ; CHECK: call i16 @__tsan_atomic16_fetch_nand(i16* %a, i16 0, i32 5) define void @atomic16_cas_monotonic(i16* %a) nounwind uwtable { entry: cmpxchg i16* %a, i16 0, i16 1 monotonic monotonic ret void } ; CHECK: atomic16_cas_monotonic ; CHECK: call i16 @__tsan_atomic16_compare_exchange_val(i16* %a, i16 0, i16 1, i32 0, i32 0) define void @atomic16_cas_acquire(i16* %a) nounwind uwtable { entry: cmpxchg i16* %a, i16 0, i16 1 acquire acquire ret void } ; CHECK: atomic16_cas_acquire ; CHECK: call i16 @__tsan_atomic16_compare_exchange_val(i16* %a, i16 0, i16 1, i32 2, i32 2) define void @atomic16_cas_release(i16* %a) nounwind uwtable { entry: cmpxchg i16* %a, i16 0, i16 1 release monotonic ret void } ; CHECK: atomic16_cas_release ; CHECK: call i16 @__tsan_atomic16_compare_exchange_val(i16* %a, i16 0, i16 1, i32 3, i32 0) define void @atomic16_cas_acq_rel(i16* %a) nounwind uwtable { entry: cmpxchg i16* %a, i16 0, i16 1 acq_rel acquire ret void } ; CHECK: atomic16_cas_acq_rel ; CHECK: call i16 @__tsan_atomic16_compare_exchange_val(i16* %a, i16 0, i16 1, i32 4, i32 2) define void @atomic16_cas_seq_cst(i16* %a) nounwind uwtable { entry: cmpxchg i16* %a, i16 0, i16 1 seq_cst seq_cst ret void } ; CHECK: atomic16_cas_seq_cst ; CHECK: call i16 @__tsan_atomic16_compare_exchange_val(i16* %a, i16 0, i16 1, i32 5, i32 5) define i32 @atomic32_load_unordered(i32* %a) nounwind uwtable { entry: %0 = load atomic i32* %a unordered, align 4 ret i32 %0 } ; CHECK: atomic32_load_unordered ; CHECK: call i32 @__tsan_atomic32_load(i32* %a, i32 0) define i32 @atomic32_load_monotonic(i32* %a) nounwind uwtable { entry: %0 = load atomic i32* %a monotonic, align 4 ret i32 %0 } ; CHECK: atomic32_load_monotonic ; CHECK: call i32 @__tsan_atomic32_load(i32* %a, i32 0) define i32 @atomic32_load_acquire(i32* %a) nounwind uwtable { entry: %0 = load atomic i32* %a acquire, align 4 ret i32 %0 } ; CHECK: atomic32_load_acquire ; CHECK: call i32 @__tsan_atomic32_load(i32* %a, i32 2) define i32 @atomic32_load_seq_cst(i32* %a) nounwind uwtable { entry: %0 = load atomic i32* %a seq_cst, align 4 ret i32 %0 } ; CHECK: atomic32_load_seq_cst ; CHECK: call i32 @__tsan_atomic32_load(i32* %a, i32 5) define void @atomic32_store_unordered(i32* %a) nounwind uwtable { entry: store atomic i32 0, i32* %a unordered, align 4 ret void } ; CHECK: atomic32_store_unordered ; CHECK: call void @__tsan_atomic32_store(i32* %a, i32 0, i32 0) define void @atomic32_store_monotonic(i32* %a) nounwind uwtable { entry: store atomic i32 0, i32* %a monotonic, align 4 ret void } ; CHECK: atomic32_store_monotonic ; CHECK: call void @__tsan_atomic32_store(i32* %a, i32 0, i32 0) define void @atomic32_store_release(i32* %a) nounwind uwtable { entry: store atomic i32 0, i32* %a release, align 4 ret void } ; CHECK: atomic32_store_release ; CHECK: call void @__tsan_atomic32_store(i32* %a, i32 0, i32 3) define void @atomic32_store_seq_cst(i32* %a) nounwind uwtable { entry: store atomic i32 0, i32* %a seq_cst, align 4 ret void } ; CHECK: atomic32_store_seq_cst ; CHECK: call void @__tsan_atomic32_store(i32* %a, i32 0, i32 5) define void @atomic32_xchg_monotonic(i32* %a) nounwind uwtable { entry: atomicrmw xchg i32* %a, i32 0 monotonic ret void } ; CHECK: atomic32_xchg_monotonic ; CHECK: call i32 @__tsan_atomic32_exchange(i32* %a, i32 0, i32 0) define void @atomic32_add_monotonic(i32* %a) nounwind uwtable { entry: atomicrmw add i32* %a, i32 0 monotonic ret void } ; CHECK: atomic32_add_monotonic ; CHECK: call i32 @__tsan_atomic32_fetch_add(i32* %a, i32 0, i32 0) define void @atomic32_sub_monotonic(i32* %a) nounwind uwtable { entry: atomicrmw sub i32* %a, i32 0 monotonic ret void } ; CHECK: atomic32_sub_monotonic ; CHECK: call i32 @__tsan_atomic32_fetch_sub(i32* %a, i32 0, i32 0) define void @atomic32_and_monotonic(i32* %a) nounwind uwtable { entry: atomicrmw and i32* %a, i32 0 monotonic ret void } ; CHECK: atomic32_and_monotonic ; CHECK: call i32 @__tsan_atomic32_fetch_and(i32* %a, i32 0, i32 0) define void @atomic32_or_monotonic(i32* %a) nounwind uwtable { entry: atomicrmw or i32* %a, i32 0 monotonic ret void } ; CHECK: atomic32_or_monotonic ; CHECK: call i32 @__tsan_atomic32_fetch_or(i32* %a, i32 0, i32 0) define void @atomic32_xor_monotonic(i32* %a) nounwind uwtable { entry: atomicrmw xor i32* %a, i32 0 monotonic ret void } ; CHECK: atomic32_xor_monotonic ; CHECK: call i32 @__tsan_atomic32_fetch_xor(i32* %a, i32 0, i32 0) define void @atomic32_nand_monotonic(i32* %a) nounwind uwtable { entry: atomicrmw nand i32* %a, i32 0 monotonic ret void } ; CHECK: atomic32_nand_monotonic ; CHECK: call i32 @__tsan_atomic32_fetch_nand(i32* %a, i32 0, i32 0) define void @atomic32_xchg_acquire(i32* %a) nounwind uwtable { entry: atomicrmw xchg i32* %a, i32 0 acquire ret void } ; CHECK: atomic32_xchg_acquire ; CHECK: call i32 @__tsan_atomic32_exchange(i32* %a, i32 0, i32 2) define void @atomic32_add_acquire(i32* %a) nounwind uwtable { entry: atomicrmw add i32* %a, i32 0 acquire ret void } ; CHECK: atomic32_add_acquire ; CHECK: call i32 @__tsan_atomic32_fetch_add(i32* %a, i32 0, i32 2) define void @atomic32_sub_acquire(i32* %a) nounwind uwtable { entry: atomicrmw sub i32* %a, i32 0 acquire ret void } ; CHECK: atomic32_sub_acquire ; CHECK: call i32 @__tsan_atomic32_fetch_sub(i32* %a, i32 0, i32 2) define void @atomic32_and_acquire(i32* %a) nounwind uwtable { entry: atomicrmw and i32* %a, i32 0 acquire ret void } ; CHECK: atomic32_and_acquire ; CHECK: call i32 @__tsan_atomic32_fetch_and(i32* %a, i32 0, i32 2) define void @atomic32_or_acquire(i32* %a) nounwind uwtable { entry: atomicrmw or i32* %a, i32 0 acquire ret void } ; CHECK: atomic32_or_acquire ; CHECK: call i32 @__tsan_atomic32_fetch_or(i32* %a, i32 0, i32 2) define void @atomic32_xor_acquire(i32* %a) nounwind uwtable { entry: atomicrmw xor i32* %a, i32 0 acquire ret void } ; CHECK: atomic32_xor_acquire ; CHECK: call i32 @__tsan_atomic32_fetch_xor(i32* %a, i32 0, i32 2) define void @atomic32_nand_acquire(i32* %a) nounwind uwtable { entry: atomicrmw nand i32* %a, i32 0 acquire ret void } ; CHECK: atomic32_nand_acquire ; CHECK: call i32 @__tsan_atomic32_fetch_nand(i32* %a, i32 0, i32 2) define void @atomic32_xchg_release(i32* %a) nounwind uwtable { entry: atomicrmw xchg i32* %a, i32 0 release ret void } ; CHECK: atomic32_xchg_release ; CHECK: call i32 @__tsan_atomic32_exchange(i32* %a, i32 0, i32 3) define void @atomic32_add_release(i32* %a) nounwind uwtable { entry: atomicrmw add i32* %a, i32 0 release ret void } ; CHECK: atomic32_add_release ; CHECK: call i32 @__tsan_atomic32_fetch_add(i32* %a, i32 0, i32 3) define void @atomic32_sub_release(i32* %a) nounwind uwtable { entry: atomicrmw sub i32* %a, i32 0 release ret void } ; CHECK: atomic32_sub_release ; CHECK: call i32 @__tsan_atomic32_fetch_sub(i32* %a, i32 0, i32 3) define void @atomic32_and_release(i32* %a) nounwind uwtable { entry: atomicrmw and i32* %a, i32 0 release ret void } ; CHECK: atomic32_and_release ; CHECK: call i32 @__tsan_atomic32_fetch_and(i32* %a, i32 0, i32 3) define void @atomic32_or_release(i32* %a) nounwind uwtable { entry: atomicrmw or i32* %a, i32 0 release ret void } ; CHECK: atomic32_or_release ; CHECK: call i32 @__tsan_atomic32_fetch_or(i32* %a, i32 0, i32 3) define void @atomic32_xor_release(i32* %a) nounwind uwtable { entry: atomicrmw xor i32* %a, i32 0 release ret void } ; CHECK: atomic32_xor_release ; CHECK: call i32 @__tsan_atomic32_fetch_xor(i32* %a, i32 0, i32 3) define void @atomic32_nand_release(i32* %a) nounwind uwtable { entry: atomicrmw nand i32* %a, i32 0 release ret void } ; CHECK: atomic32_nand_release ; CHECK: call i32 @__tsan_atomic32_fetch_nand(i32* %a, i32 0, i32 3) define void @atomic32_xchg_acq_rel(i32* %a) nounwind uwtable { entry: atomicrmw xchg i32* %a, i32 0 acq_rel ret void } ; CHECK: atomic32_xchg_acq_rel ; CHECK: call i32 @__tsan_atomic32_exchange(i32* %a, i32 0, i32 4) define void @atomic32_add_acq_rel(i32* %a) nounwind uwtable { entry: atomicrmw add i32* %a, i32 0 acq_rel ret void } ; CHECK: atomic32_add_acq_rel ; CHECK: call i32 @__tsan_atomic32_fetch_add(i32* %a, i32 0, i32 4) define void @atomic32_sub_acq_rel(i32* %a) nounwind uwtable { entry: atomicrmw sub i32* %a, i32 0 acq_rel ret void } ; CHECK: atomic32_sub_acq_rel ; CHECK: call i32 @__tsan_atomic32_fetch_sub(i32* %a, i32 0, i32 4) define void @atomic32_and_acq_rel(i32* %a) nounwind uwtable { entry: atomicrmw and i32* %a, i32 0 acq_rel ret void } ; CHECK: atomic32_and_acq_rel ; CHECK: call i32 @__tsan_atomic32_fetch_and(i32* %a, i32 0, i32 4) define void @atomic32_or_acq_rel(i32* %a) nounwind uwtable { entry: atomicrmw or i32* %a, i32 0 acq_rel ret void } ; CHECK: atomic32_or_acq_rel ; CHECK: call i32 @__tsan_atomic32_fetch_or(i32* %a, i32 0, i32 4) define void @atomic32_xor_acq_rel(i32* %a) nounwind uwtable { entry: atomicrmw xor i32* %a, i32 0 acq_rel ret void } ; CHECK: atomic32_xor_acq_rel ; CHECK: call i32 @__tsan_atomic32_fetch_xor(i32* %a, i32 0, i32 4) define void @atomic32_nand_acq_rel(i32* %a) nounwind uwtable { entry: atomicrmw nand i32* %a, i32 0 acq_rel ret void } ; CHECK: atomic32_nand_acq_rel ; CHECK: call i32 @__tsan_atomic32_fetch_nand(i32* %a, i32 0, i32 4) define void @atomic32_xchg_seq_cst(i32* %a) nounwind uwtable { entry: atomicrmw xchg i32* %a, i32 0 seq_cst ret void } ; CHECK: atomic32_xchg_seq_cst ; CHECK: call i32 @__tsan_atomic32_exchange(i32* %a, i32 0, i32 5) define void @atomic32_add_seq_cst(i32* %a) nounwind uwtable { entry: atomicrmw add i32* %a, i32 0 seq_cst ret void } ; CHECK: atomic32_add_seq_cst ; CHECK: call i32 @__tsan_atomic32_fetch_add(i32* %a, i32 0, i32 5) define void @atomic32_sub_seq_cst(i32* %a) nounwind uwtable { entry: atomicrmw sub i32* %a, i32 0 seq_cst ret void } ; CHECK: atomic32_sub_seq_cst ; CHECK: call i32 @__tsan_atomic32_fetch_sub(i32* %a, i32 0, i32 5) define void @atomic32_and_seq_cst(i32* %a) nounwind uwtable { entry: atomicrmw and i32* %a, i32 0 seq_cst ret void } ; CHECK: atomic32_and_seq_cst ; CHECK: call i32 @__tsan_atomic32_fetch_and(i32* %a, i32 0, i32 5) define void @atomic32_or_seq_cst(i32* %a) nounwind uwtable { entry: atomicrmw or i32* %a, i32 0 seq_cst ret void } ; CHECK: atomic32_or_seq_cst ; CHECK: call i32 @__tsan_atomic32_fetch_or(i32* %a, i32 0, i32 5) define void @atomic32_xor_seq_cst(i32* %a) nounwind uwtable { entry: atomicrmw xor i32* %a, i32 0 seq_cst ret void } ; CHECK: atomic32_xor_seq_cst ; CHECK: call i32 @__tsan_atomic32_fetch_xor(i32* %a, i32 0, i32 5) define void @atomic32_nand_seq_cst(i32* %a) nounwind uwtable { entry: atomicrmw nand i32* %a, i32 0 seq_cst ret void } ; CHECK: atomic32_nand_seq_cst ; CHECK: call i32 @__tsan_atomic32_fetch_nand(i32* %a, i32 0, i32 5) define void @atomic32_cas_monotonic(i32* %a) nounwind uwtable { entry: cmpxchg i32* %a, i32 0, i32 1 monotonic monotonic ret void } ; CHECK: atomic32_cas_monotonic ; CHECK: call i32 @__tsan_atomic32_compare_exchange_val(i32* %a, i32 0, i32 1, i32 0, i32 0) define void @atomic32_cas_acquire(i32* %a) nounwind uwtable { entry: cmpxchg i32* %a, i32 0, i32 1 acquire acquire ret void } ; CHECK: atomic32_cas_acquire ; CHECK: call i32 @__tsan_atomic32_compare_exchange_val(i32* %a, i32 0, i32 1, i32 2, i32 2) define void @atomic32_cas_release(i32* %a) nounwind uwtable { entry: cmpxchg i32* %a, i32 0, i32 1 release monotonic ret void } ; CHECK: atomic32_cas_release ; CHECK: call i32 @__tsan_atomic32_compare_exchange_val(i32* %a, i32 0, i32 1, i32 3, i32 0) define void @atomic32_cas_acq_rel(i32* %a) nounwind uwtable { entry: cmpxchg i32* %a, i32 0, i32 1 acq_rel acquire ret void } ; CHECK: atomic32_cas_acq_rel ; CHECK: call i32 @__tsan_atomic32_compare_exchange_val(i32* %a, i32 0, i32 1, i32 4, i32 2) define void @atomic32_cas_seq_cst(i32* %a) nounwind uwtable { entry: cmpxchg i32* %a, i32 0, i32 1 seq_cst seq_cst ret void } ; CHECK: atomic32_cas_seq_cst ; CHECK: call i32 @__tsan_atomic32_compare_exchange_val(i32* %a, i32 0, i32 1, i32 5, i32 5) define i64 @atomic64_load_unordered(i64* %a) nounwind uwtable { entry: %0 = load atomic i64* %a unordered, align 8 ret i64 %0 } ; CHECK: atomic64_load_unordered ; CHECK: call i64 @__tsan_atomic64_load(i64* %a, i32 0) define i64 @atomic64_load_monotonic(i64* %a) nounwind uwtable { entry: %0 = load atomic i64* %a monotonic, align 8 ret i64 %0 } ; CHECK: atomic64_load_monotonic ; CHECK: call i64 @__tsan_atomic64_load(i64* %a, i32 0) define i64 @atomic64_load_acquire(i64* %a) nounwind uwtable { entry: %0 = load atomic i64* %a acquire, align 8 ret i64 %0 } ; CHECK: atomic64_load_acquire ; CHECK: call i64 @__tsan_atomic64_load(i64* %a, i32 2) define i64 @atomic64_load_seq_cst(i64* %a) nounwind uwtable { entry: %0 = load atomic i64* %a seq_cst, align 8 ret i64 %0 } ; CHECK: atomic64_load_seq_cst ; CHECK: call i64 @__tsan_atomic64_load(i64* %a, i32 5) define void @atomic64_store_unordered(i64* %a) nounwind uwtable { entry: store atomic i64 0, i64* %a unordered, align 8 ret void } ; CHECK: atomic64_store_unordered ; CHECK: call void @__tsan_atomic64_store(i64* %a, i64 0, i32 0) define void @atomic64_store_monotonic(i64* %a) nounwind uwtable { entry: store atomic i64 0, i64* %a monotonic, align 8 ret void } ; CHECK: atomic64_store_monotonic ; CHECK: call void @__tsan_atomic64_store(i64* %a, i64 0, i32 0) define void @atomic64_store_release(i64* %a) nounwind uwtable { entry: store atomic i64 0, i64* %a release, align 8 ret void } ; CHECK: atomic64_store_release ; CHECK: call void @__tsan_atomic64_store(i64* %a, i64 0, i32 3) define void @atomic64_store_seq_cst(i64* %a) nounwind uwtable { entry: store atomic i64 0, i64* %a seq_cst, align 8 ret void } ; CHECK: atomic64_store_seq_cst ; CHECK: call void @__tsan_atomic64_store(i64* %a, i64 0, i32 5) define void @atomic64_xchg_monotonic(i64* %a) nounwind uwtable { entry: atomicrmw xchg i64* %a, i64 0 monotonic ret void } ; CHECK: atomic64_xchg_monotonic ; CHECK: call i64 @__tsan_atomic64_exchange(i64* %a, i64 0, i32 0) define void @atomic64_add_monotonic(i64* %a) nounwind uwtable { entry: atomicrmw add i64* %a, i64 0 monotonic ret void } ; CHECK: atomic64_add_monotonic ; CHECK: call i64 @__tsan_atomic64_fetch_add(i64* %a, i64 0, i32 0) define void @atomic64_sub_monotonic(i64* %a) nounwind uwtable { entry: atomicrmw sub i64* %a, i64 0 monotonic ret void } ; CHECK: atomic64_sub_monotonic ; CHECK: call i64 @__tsan_atomic64_fetch_sub(i64* %a, i64 0, i32 0) define void @atomic64_and_monotonic(i64* %a) nounwind uwtable { entry: atomicrmw and i64* %a, i64 0 monotonic ret void } ; CHECK: atomic64_and_monotonic ; CHECK: call i64 @__tsan_atomic64_fetch_and(i64* %a, i64 0, i32 0) define void @atomic64_or_monotonic(i64* %a) nounwind uwtable { entry: atomicrmw or i64* %a, i64 0 monotonic ret void } ; CHECK: atomic64_or_monotonic ; CHECK: call i64 @__tsan_atomic64_fetch_or(i64* %a, i64 0, i32 0) define void @atomic64_xor_monotonic(i64* %a) nounwind uwtable { entry: atomicrmw xor i64* %a, i64 0 monotonic ret void } ; CHECK: atomic64_xor_monotonic ; CHECK: call i64 @__tsan_atomic64_fetch_xor(i64* %a, i64 0, i32 0) define void @atomic64_nand_monotonic(i64* %a) nounwind uwtable { entry: atomicrmw nand i64* %a, i64 0 monotonic ret void } ; CHECK: atomic64_nand_monotonic ; CHECK: call i64 @__tsan_atomic64_fetch_nand(i64* %a, i64 0, i32 0) define void @atomic64_xchg_acquire(i64* %a) nounwind uwtable { entry: atomicrmw xchg i64* %a, i64 0 acquire ret void } ; CHECK: atomic64_xchg_acquire ; CHECK: call i64 @__tsan_atomic64_exchange(i64* %a, i64 0, i32 2) define void @atomic64_add_acquire(i64* %a) nounwind uwtable { entry: atomicrmw add i64* %a, i64 0 acquire ret void } ; CHECK: atomic64_add_acquire ; CHECK: call i64 @__tsan_atomic64_fetch_add(i64* %a, i64 0, i32 2) define void @atomic64_sub_acquire(i64* %a) nounwind uwtable { entry: atomicrmw sub i64* %a, i64 0 acquire ret void } ; CHECK: atomic64_sub_acquire ; CHECK: call i64 @__tsan_atomic64_fetch_sub(i64* %a, i64 0, i32 2) define void @atomic64_and_acquire(i64* %a) nounwind uwtable { entry: atomicrmw and i64* %a, i64 0 acquire ret void } ; CHECK: atomic64_and_acquire ; CHECK: call i64 @__tsan_atomic64_fetch_and(i64* %a, i64 0, i32 2) define void @atomic64_or_acquire(i64* %a) nounwind uwtable { entry: atomicrmw or i64* %a, i64 0 acquire ret void } ; CHECK: atomic64_or_acquire ; CHECK: call i64 @__tsan_atomic64_fetch_or(i64* %a, i64 0, i32 2) define void @atomic64_xor_acquire(i64* %a) nounwind uwtable { entry: atomicrmw xor i64* %a, i64 0 acquire ret void } ; CHECK: atomic64_xor_acquire ; CHECK: call i64 @__tsan_atomic64_fetch_xor(i64* %a, i64 0, i32 2) define void @atomic64_nand_acquire(i64* %a) nounwind uwtable { entry: atomicrmw nand i64* %a, i64 0 acquire ret void } ; CHECK: atomic64_nand_acquire ; CHECK: call i64 @__tsan_atomic64_fetch_nand(i64* %a, i64 0, i32 2) define void @atomic64_xchg_release(i64* %a) nounwind uwtable { entry: atomicrmw xchg i64* %a, i64 0 release ret void } ; CHECK: atomic64_xchg_release ; CHECK: call i64 @__tsan_atomic64_exchange(i64* %a, i64 0, i32 3) define void @atomic64_add_release(i64* %a) nounwind uwtable { entry: atomicrmw add i64* %a, i64 0 release ret void } ; CHECK: atomic64_add_release ; CHECK: call i64 @__tsan_atomic64_fetch_add(i64* %a, i64 0, i32 3) define void @atomic64_sub_release(i64* %a) nounwind uwtable { entry: atomicrmw sub i64* %a, i64 0 release ret void } ; CHECK: atomic64_sub_release ; CHECK: call i64 @__tsan_atomic64_fetch_sub(i64* %a, i64 0, i32 3) define void @atomic64_and_release(i64* %a) nounwind uwtable { entry: atomicrmw and i64* %a, i64 0 release ret void } ; CHECK: atomic64_and_release ; CHECK: call i64 @__tsan_atomic64_fetch_and(i64* %a, i64 0, i32 3) define void @atomic64_or_release(i64* %a) nounwind uwtable { entry: atomicrmw or i64* %a, i64 0 release ret void } ; CHECK: atomic64_or_release ; CHECK: call i64 @__tsan_atomic64_fetch_or(i64* %a, i64 0, i32 3) define void @atomic64_xor_release(i64* %a) nounwind uwtable { entry: atomicrmw xor i64* %a, i64 0 release ret void } ; CHECK: atomic64_xor_release ; CHECK: call i64 @__tsan_atomic64_fetch_xor(i64* %a, i64 0, i32 3) define void @atomic64_nand_release(i64* %a) nounwind uwtable { entry: atomicrmw nand i64* %a, i64 0 release ret void } ; CHECK: atomic64_nand_release ; CHECK: call i64 @__tsan_atomic64_fetch_nand(i64* %a, i64 0, i32 3) define void @atomic64_xchg_acq_rel(i64* %a) nounwind uwtable { entry: atomicrmw xchg i64* %a, i64 0 acq_rel ret void } ; CHECK: atomic64_xchg_acq_rel ; CHECK: call i64 @__tsan_atomic64_exchange(i64* %a, i64 0, i32 4) define void @atomic64_add_acq_rel(i64* %a) nounwind uwtable { entry: atomicrmw add i64* %a, i64 0 acq_rel ret void } ; CHECK: atomic64_add_acq_rel ; CHECK: call i64 @__tsan_atomic64_fetch_add(i64* %a, i64 0, i32 4) define void @atomic64_sub_acq_rel(i64* %a) nounwind uwtable { entry: atomicrmw sub i64* %a, i64 0 acq_rel ret void } ; CHECK: atomic64_sub_acq_rel ; CHECK: call i64 @__tsan_atomic64_fetch_sub(i64* %a, i64 0, i32 4) define void @atomic64_and_acq_rel(i64* %a) nounwind uwtable { entry: atomicrmw and i64* %a, i64 0 acq_rel ret void } ; CHECK: atomic64_and_acq_rel ; CHECK: call i64 @__tsan_atomic64_fetch_and(i64* %a, i64 0, i32 4) define void @atomic64_or_acq_rel(i64* %a) nounwind uwtable { entry: atomicrmw or i64* %a, i64 0 acq_rel ret void } ; CHECK: atomic64_or_acq_rel ; CHECK: call i64 @__tsan_atomic64_fetch_or(i64* %a, i64 0, i32 4) define void @atomic64_xor_acq_rel(i64* %a) nounwind uwtable { entry: atomicrmw xor i64* %a, i64 0 acq_rel ret void } ; CHECK: atomic64_xor_acq_rel ; CHECK: call i64 @__tsan_atomic64_fetch_xor(i64* %a, i64 0, i32 4) define void @atomic64_nand_acq_rel(i64* %a) nounwind uwtable { entry: atomicrmw nand i64* %a, i64 0 acq_rel ret void } ; CHECK: atomic64_nand_acq_rel ; CHECK: call i64 @__tsan_atomic64_fetch_nand(i64* %a, i64 0, i32 4) define void @atomic64_xchg_seq_cst(i64* %a) nounwind uwtable { entry: atomicrmw xchg i64* %a, i64 0 seq_cst ret void } ; CHECK: atomic64_xchg_seq_cst ; CHECK: call i64 @__tsan_atomic64_exchange(i64* %a, i64 0, i32 5) define void @atomic64_add_seq_cst(i64* %a) nounwind uwtable { entry: atomicrmw add i64* %a, i64 0 seq_cst ret void } ; CHECK: atomic64_add_seq_cst ; CHECK: call i64 @__tsan_atomic64_fetch_add(i64* %a, i64 0, i32 5) define void @atomic64_sub_seq_cst(i64* %a) nounwind uwtable { entry: atomicrmw sub i64* %a, i64 0 seq_cst ret void } ; CHECK: atomic64_sub_seq_cst ; CHECK: call i64 @__tsan_atomic64_fetch_sub(i64* %a, i64 0, i32 5) define void @atomic64_and_seq_cst(i64* %a) nounwind uwtable { entry: atomicrmw and i64* %a, i64 0 seq_cst ret void } ; CHECK: atomic64_and_seq_cst ; CHECK: call i64 @__tsan_atomic64_fetch_and(i64* %a, i64 0, i32 5) define void @atomic64_or_seq_cst(i64* %a) nounwind uwtable { entry: atomicrmw or i64* %a, i64 0 seq_cst ret void } ; CHECK: atomic64_or_seq_cst ; CHECK: call i64 @__tsan_atomic64_fetch_or(i64* %a, i64 0, i32 5) define void @atomic64_xor_seq_cst(i64* %a) nounwind uwtable { entry: atomicrmw xor i64* %a, i64 0 seq_cst ret void } ; CHECK: atomic64_xor_seq_cst ; CHECK: call i64 @__tsan_atomic64_fetch_xor(i64* %a, i64 0, i32 5) define void @atomic64_nand_seq_cst(i64* %a) nounwind uwtable { entry: atomicrmw nand i64* %a, i64 0 seq_cst ret void } ; CHECK: atomic64_nand_seq_cst ; CHECK: call i64 @__tsan_atomic64_fetch_nand(i64* %a, i64 0, i32 5) define void @atomic64_cas_monotonic(i64* %a) nounwind uwtable { entry: cmpxchg i64* %a, i64 0, i64 1 monotonic monotonic ret void } ; CHECK: atomic64_cas_monotonic ; CHECK: call i64 @__tsan_atomic64_compare_exchange_val(i64* %a, i64 0, i64 1, i32 0, i32 0) define void @atomic64_cas_acquire(i64* %a) nounwind uwtable { entry: cmpxchg i64* %a, i64 0, i64 1 acquire acquire ret void } ; CHECK: atomic64_cas_acquire ; CHECK: call i64 @__tsan_atomic64_compare_exchange_val(i64* %a, i64 0, i64 1, i32 2, i32 2) define void @atomic64_cas_release(i64* %a) nounwind uwtable { entry: cmpxchg i64* %a, i64 0, i64 1 release monotonic ret void } ; CHECK: atomic64_cas_release ; CHECK: call i64 @__tsan_atomic64_compare_exchange_val(i64* %a, i64 0, i64 1, i32 3, i32 0) define void @atomic64_cas_acq_rel(i64* %a) nounwind uwtable { entry: cmpxchg i64* %a, i64 0, i64 1 acq_rel acquire ret void } ; CHECK: atomic64_cas_acq_rel ; CHECK: call i64 @__tsan_atomic64_compare_exchange_val(i64* %a, i64 0, i64 1, i32 4, i32 2) define void @atomic64_cas_seq_cst(i64* %a) nounwind uwtable { entry: cmpxchg i64* %a, i64 0, i64 1 seq_cst seq_cst ret void } ; CHECK: atomic64_cas_seq_cst ; CHECK: call i64 @__tsan_atomic64_compare_exchange_val(i64* %a, i64 0, i64 1, i32 5, i32 5) define i128 @atomic128_load_unordered(i128* %a) nounwind uwtable { entry: %0 = load atomic i128* %a unordered, align 16 ret i128 %0 } ; CHECK: atomic128_load_unordered ; CHECK: call i128 @__tsan_atomic128_load(i128* %a, i32 0) define i128 @atomic128_load_monotonic(i128* %a) nounwind uwtable { entry: %0 = load atomic i128* %a monotonic, align 16 ret i128 %0 } ; CHECK: atomic128_load_monotonic ; CHECK: call i128 @__tsan_atomic128_load(i128* %a, i32 0) define i128 @atomic128_load_acquire(i128* %a) nounwind uwtable { entry: %0 = load atomic i128* %a acquire, align 16 ret i128 %0 } ; CHECK: atomic128_load_acquire ; CHECK: call i128 @__tsan_atomic128_load(i128* %a, i32 2) define i128 @atomic128_load_seq_cst(i128* %a) nounwind uwtable { entry: %0 = load atomic i128* %a seq_cst, align 16 ret i128 %0 } ; CHECK: atomic128_load_seq_cst ; CHECK: call i128 @__tsan_atomic128_load(i128* %a, i32 5) define void @atomic128_store_unordered(i128* %a) nounwind uwtable { entry: store atomic i128 0, i128* %a unordered, align 16 ret void } ; CHECK: atomic128_store_unordered ; CHECK: call void @__tsan_atomic128_store(i128* %a, i128 0, i32 0) define void @atomic128_store_monotonic(i128* %a) nounwind uwtable { entry: store atomic i128 0, i128* %a monotonic, align 16 ret void } ; CHECK: atomic128_store_monotonic ; CHECK: call void @__tsan_atomic128_store(i128* %a, i128 0, i32 0) define void @atomic128_store_release(i128* %a) nounwind uwtable { entry: store atomic i128 0, i128* %a release, align 16 ret void } ; CHECK: atomic128_store_release ; CHECK: call void @__tsan_atomic128_store(i128* %a, i128 0, i32 3) define void @atomic128_store_seq_cst(i128* %a) nounwind uwtable { entry: store atomic i128 0, i128* %a seq_cst, align 16 ret void } ; CHECK: atomic128_store_seq_cst ; CHECK: call void @__tsan_atomic128_store(i128* %a, i128 0, i32 5) define void @atomic128_xchg_monotonic(i128* %a) nounwind uwtable { entry: atomicrmw xchg i128* %a, i128 0 monotonic ret void } ; CHECK: atomic128_xchg_monotonic ; CHECK: call i128 @__tsan_atomic128_exchange(i128* %a, i128 0, i32 0) define void @atomic128_add_monotonic(i128* %a) nounwind uwtable { entry: atomicrmw add i128* %a, i128 0 monotonic ret void } ; CHECK: atomic128_add_monotonic ; CHECK: call i128 @__tsan_atomic128_fetch_add(i128* %a, i128 0, i32 0) define void @atomic128_sub_monotonic(i128* %a) nounwind uwtable { entry: atomicrmw sub i128* %a, i128 0 monotonic ret void } ; CHECK: atomic128_sub_monotonic ; CHECK: call i128 @__tsan_atomic128_fetch_sub(i128* %a, i128 0, i32 0) define void @atomic128_and_monotonic(i128* %a) nounwind uwtable { entry: atomicrmw and i128* %a, i128 0 monotonic ret void } ; CHECK: atomic128_and_monotonic ; CHECK: call i128 @__tsan_atomic128_fetch_and(i128* %a, i128 0, i32 0) define void @atomic128_or_monotonic(i128* %a) nounwind uwtable { entry: atomicrmw or i128* %a, i128 0 monotonic ret void } ; CHECK: atomic128_or_monotonic ; CHECK: call i128 @__tsan_atomic128_fetch_or(i128* %a, i128 0, i32 0) define void @atomic128_xor_monotonic(i128* %a) nounwind uwtable { entry: atomicrmw xor i128* %a, i128 0 monotonic ret void } ; CHECK: atomic128_xor_monotonic ; CHECK: call i128 @__tsan_atomic128_fetch_xor(i128* %a, i128 0, i32 0) define void @atomic128_nand_monotonic(i128* %a) nounwind uwtable { entry: atomicrmw nand i128* %a, i128 0 monotonic ret void } ; CHECK: atomic128_nand_monotonic ; CHECK: call i128 @__tsan_atomic128_fetch_nand(i128* %a, i128 0, i32 0) define void @atomic128_xchg_acquire(i128* %a) nounwind uwtable { entry: atomicrmw xchg i128* %a, i128 0 acquire ret void } ; CHECK: atomic128_xchg_acquire ; CHECK: call i128 @__tsan_atomic128_exchange(i128* %a, i128 0, i32 2) define void @atomic128_add_acquire(i128* %a) nounwind uwtable { entry: atomicrmw add i128* %a, i128 0 acquire ret void } ; CHECK: atomic128_add_acquire ; CHECK: call i128 @__tsan_atomic128_fetch_add(i128* %a, i128 0, i32 2) define void @atomic128_sub_acquire(i128* %a) nounwind uwtable { entry: atomicrmw sub i128* %a, i128 0 acquire ret void } ; CHECK: atomic128_sub_acquire ; CHECK: call i128 @__tsan_atomic128_fetch_sub(i128* %a, i128 0, i32 2) define void @atomic128_and_acquire(i128* %a) nounwind uwtable { entry: atomicrmw and i128* %a, i128 0 acquire ret void } ; CHECK: atomic128_and_acquire ; CHECK: call i128 @__tsan_atomic128_fetch_and(i128* %a, i128 0, i32 2) define void @atomic128_or_acquire(i128* %a) nounwind uwtable { entry: atomicrmw or i128* %a, i128 0 acquire ret void } ; CHECK: atomic128_or_acquire ; CHECK: call i128 @__tsan_atomic128_fetch_or(i128* %a, i128 0, i32 2) define void @atomic128_xor_acquire(i128* %a) nounwind uwtable { entry: atomicrmw xor i128* %a, i128 0 acquire ret void } ; CHECK: atomic128_xor_acquire ; CHECK: call i128 @__tsan_atomic128_fetch_xor(i128* %a, i128 0, i32 2) define void @atomic128_nand_acquire(i128* %a) nounwind uwtable { entry: atomicrmw nand i128* %a, i128 0 acquire ret void } ; CHECK: atomic128_nand_acquire ; CHECK: call i128 @__tsan_atomic128_fetch_nand(i128* %a, i128 0, i32 2) define void @atomic128_xchg_release(i128* %a) nounwind uwtable { entry: atomicrmw xchg i128* %a, i128 0 release ret void } ; CHECK: atomic128_xchg_release ; CHECK: call i128 @__tsan_atomic128_exchange(i128* %a, i128 0, i32 3) define void @atomic128_add_release(i128* %a) nounwind uwtable { entry: atomicrmw add i128* %a, i128 0 release ret void } ; CHECK: atomic128_add_release ; CHECK: call i128 @__tsan_atomic128_fetch_add(i128* %a, i128 0, i32 3) define void @atomic128_sub_release(i128* %a) nounwind uwtable { entry: atomicrmw sub i128* %a, i128 0 release ret void } ; CHECK: atomic128_sub_release ; CHECK: call i128 @__tsan_atomic128_fetch_sub(i128* %a, i128 0, i32 3) define void @atomic128_and_release(i128* %a) nounwind uwtable { entry: atomicrmw and i128* %a, i128 0 release ret void } ; CHECK: atomic128_and_release ; CHECK: call i128 @__tsan_atomic128_fetch_and(i128* %a, i128 0, i32 3) define void @atomic128_or_release(i128* %a) nounwind uwtable { entry: atomicrmw or i128* %a, i128 0 release ret void } ; CHECK: atomic128_or_release ; CHECK: call i128 @__tsan_atomic128_fetch_or(i128* %a, i128 0, i32 3) define void @atomic128_xor_release(i128* %a) nounwind uwtable { entry: atomicrmw xor i128* %a, i128 0 release ret void } ; CHECK: atomic128_xor_release ; CHECK: call i128 @__tsan_atomic128_fetch_xor(i128* %a, i128 0, i32 3) define void @atomic128_nand_release(i128* %a) nounwind uwtable { entry: atomicrmw nand i128* %a, i128 0 release ret void } ; CHECK: atomic128_nand_release ; CHECK: call i128 @__tsan_atomic128_fetch_nand(i128* %a, i128 0, i32 3) define void @atomic128_xchg_acq_rel(i128* %a) nounwind uwtable { entry: atomicrmw xchg i128* %a, i128 0 acq_rel ret void } ; CHECK: atomic128_xchg_acq_rel ; CHECK: call i128 @__tsan_atomic128_exchange(i128* %a, i128 0, i32 4) define void @atomic128_add_acq_rel(i128* %a) nounwind uwtable { entry: atomicrmw add i128* %a, i128 0 acq_rel ret void } ; CHECK: atomic128_add_acq_rel ; CHECK: call i128 @__tsan_atomic128_fetch_add(i128* %a, i128 0, i32 4) define void @atomic128_sub_acq_rel(i128* %a) nounwind uwtable { entry: atomicrmw sub i128* %a, i128 0 acq_rel ret void } ; CHECK: atomic128_sub_acq_rel ; CHECK: call i128 @__tsan_atomic128_fetch_sub(i128* %a, i128 0, i32 4) define void @atomic128_and_acq_rel(i128* %a) nounwind uwtable { entry: atomicrmw and i128* %a, i128 0 acq_rel ret void } ; CHECK: atomic128_and_acq_rel ; CHECK: call i128 @__tsan_atomic128_fetch_and(i128* %a, i128 0, i32 4) define void @atomic128_or_acq_rel(i128* %a) nounwind uwtable { entry: atomicrmw or i128* %a, i128 0 acq_rel ret void } ; CHECK: atomic128_or_acq_rel ; CHECK: call i128 @__tsan_atomic128_fetch_or(i128* %a, i128 0, i32 4) define void @atomic128_xor_acq_rel(i128* %a) nounwind uwtable { entry: atomicrmw xor i128* %a, i128 0 acq_rel ret void } ; CHECK: atomic128_xor_acq_rel ; CHECK: call i128 @__tsan_atomic128_fetch_xor(i128* %a, i128 0, i32 4) define void @atomic128_nand_acq_rel(i128* %a) nounwind uwtable { entry: atomicrmw nand i128* %a, i128 0 acq_rel ret void } ; CHECK: atomic128_nand_acq_rel ; CHECK: call i128 @__tsan_atomic128_fetch_nand(i128* %a, i128 0, i32 4) define void @atomic128_xchg_seq_cst(i128* %a) nounwind uwtable { entry: atomicrmw xchg i128* %a, i128 0 seq_cst ret void } ; CHECK: atomic128_xchg_seq_cst ; CHECK: call i128 @__tsan_atomic128_exchange(i128* %a, i128 0, i32 5) define void @atomic128_add_seq_cst(i128* %a) nounwind uwtable { entry: atomicrmw add i128* %a, i128 0 seq_cst ret void } ; CHECK: atomic128_add_seq_cst ; CHECK: call i128 @__tsan_atomic128_fetch_add(i128* %a, i128 0, i32 5) define void @atomic128_sub_seq_cst(i128* %a) nounwind uwtable { entry: atomicrmw sub i128* %a, i128 0 seq_cst ret void } ; CHECK: atomic128_sub_seq_cst ; CHECK: call i128 @__tsan_atomic128_fetch_sub(i128* %a, i128 0, i32 5) define void @atomic128_and_seq_cst(i128* %a) nounwind uwtable { entry: atomicrmw and i128* %a, i128 0 seq_cst ret void } ; CHECK: atomic128_and_seq_cst ; CHECK: call i128 @__tsan_atomic128_fetch_and(i128* %a, i128 0, i32 5) define void @atomic128_or_seq_cst(i128* %a) nounwind uwtable { entry: atomicrmw or i128* %a, i128 0 seq_cst ret void } ; CHECK: atomic128_or_seq_cst ; CHECK: call i128 @__tsan_atomic128_fetch_or(i128* %a, i128 0, i32 5) define void @atomic128_xor_seq_cst(i128* %a) nounwind uwtable { entry: atomicrmw xor i128* %a, i128 0 seq_cst ret void } ; CHECK: atomic128_xor_seq_cst ; CHECK: call i128 @__tsan_atomic128_fetch_xor(i128* %a, i128 0, i32 5) define void @atomic128_nand_seq_cst(i128* %a) nounwind uwtable { entry: atomicrmw nand i128* %a, i128 0 seq_cst ret void } ; CHECK: atomic128_nand_seq_cst ; CHECK: call i128 @__tsan_atomic128_fetch_nand(i128* %a, i128 0, i32 5) define void @atomic128_cas_monotonic(i128* %a) nounwind uwtable { entry: cmpxchg i128* %a, i128 0, i128 1 monotonic monotonic ret void } ; CHECK: atomic128_cas_monotonic ; CHECK: call i128 @__tsan_atomic128_compare_exchange_val(i128* %a, i128 0, i128 1, i32 0, i32 0) define void @atomic128_cas_acquire(i128* %a) nounwind uwtable { entry: cmpxchg i128* %a, i128 0, i128 1 acquire acquire ret void } ; CHECK: atomic128_cas_acquire ; CHECK: call i128 @__tsan_atomic128_compare_exchange_val(i128* %a, i128 0, i128 1, i32 2, i32 2) define void @atomic128_cas_release(i128* %a) nounwind uwtable { entry: cmpxchg i128* %a, i128 0, i128 1 release monotonic ret void } ; CHECK: atomic128_cas_release ; CHECK: call i128 @__tsan_atomic128_compare_exchange_val(i128* %a, i128 0, i128 1, i32 3, i32 0) define void @atomic128_cas_acq_rel(i128* %a) nounwind uwtable { entry: cmpxchg i128* %a, i128 0, i128 1 acq_rel acquire ret void } ; CHECK: atomic128_cas_acq_rel ; CHECK: call i128 @__tsan_atomic128_compare_exchange_val(i128* %a, i128 0, i128 1, i32 4, i32 2) define void @atomic128_cas_seq_cst(i128* %a) nounwind uwtable { entry: cmpxchg i128* %a, i128 0, i128 1 seq_cst seq_cst ret void } ; CHECK: atomic128_cas_seq_cst ; CHECK: call i128 @__tsan_atomic128_compare_exchange_val(i128* %a, i128 0, i128 1, i32 5, i32 5) define void @atomic_signal_fence_acquire() nounwind uwtable { entry: fence singlethread acquire ret void } ; CHECK: atomic_signal_fence_acquire ; CHECK: call void @__tsan_atomic_signal_fence(i32 2) define void @atomic_thread_fence_acquire() nounwind uwtable { entry: fence acquire ret void } ; CHECK: atomic_thread_fence_acquire ; CHECK: call void @__tsan_atomic_thread_fence(i32 2) define void @atomic_signal_fence_release() nounwind uwtable { entry: fence singlethread release ret void } ; CHECK: atomic_signal_fence_release ; CHECK: call void @__tsan_atomic_signal_fence(i32 3) define void @atomic_thread_fence_release() nounwind uwtable { entry: fence release ret void } ; CHECK: atomic_thread_fence_release ; CHECK: call void @__tsan_atomic_thread_fence(i32 3) define void @atomic_signal_fence_acq_rel() nounwind uwtable { entry: fence singlethread acq_rel ret void } ; CHECK: atomic_signal_fence_acq_rel ; CHECK: call void @__tsan_atomic_signal_fence(i32 4) define void @atomic_thread_fence_acq_rel() nounwind uwtable { entry: fence acq_rel ret void } ; CHECK: atomic_thread_fence_acq_rel ; CHECK: call void @__tsan_atomic_thread_fence(i32 4) define void @atomic_signal_fence_seq_cst() nounwind uwtable { entry: fence singlethread seq_cst ret void } ; CHECK: atomic_signal_fence_seq_cst ; CHECK: call void @__tsan_atomic_signal_fence(i32 5) define void @atomic_thread_fence_seq_cst() nounwind uwtable { entry: fence seq_cst ret void } ; CHECK: atomic_thread_fence_seq_cst ; CHECK: call void @__tsan_atomic_thread_fence(i32 5)