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https://github.com/Gericom/teak-llvm.git
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5cf58768cb
We seem to have been gradually growing support for atomic min/max operations (exposing longstanding IR atomicrmw instructions). But until now there have been gaps in the expected intrinsics. This adds support for the C11-style intrinsics (i.e. taking _Atomic, rather than individually blessed by C11 standard), and the variants that return the new value instead of the original one. That way, people won't be misled by trying one form and it not working, and the front-end is more friendly to people using _Atomic types, as we recommend.
742 lines
27 KiB
C
742 lines
27 KiB
C
// RUN: %clang_cc1 %s -emit-llvm -o - -ffreestanding -ffake-address-space-map -triple=i686-apple-darwin9 | FileCheck %s
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// REQUIRES: x86-registered-target
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// Also test serialization of atomic operations here, to avoid duplicating the
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// test.
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// RUN: %clang_cc1 %s -emit-pch -o %t -ffreestanding -ffake-address-space-map -triple=i686-apple-darwin9
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// RUN: %clang_cc1 %s -include-pch %t -ffreestanding -ffake-address-space-map -triple=i686-apple-darwin9 -emit-llvm -o - | FileCheck %s
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#ifndef ALREADY_INCLUDED
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#define ALREADY_INCLUDED
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#include <stdatomic.h>
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// Basic IRGen tests for __c11_atomic_* and GNU __atomic_*
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int fi1(_Atomic(int) *i) {
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// CHECK-LABEL: @fi1
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// CHECK: load atomic i32, i32* {{.*}} seq_cst
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return __c11_atomic_load(i, memory_order_seq_cst);
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}
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int fi1a(int *i) {
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// CHECK-LABEL: @fi1a
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// CHECK: load atomic i32, i32* {{.*}} seq_cst
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int v;
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__atomic_load(i, &v, memory_order_seq_cst);
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return v;
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}
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int fi1b(int *i) {
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// CHECK-LABEL: @fi1b
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// CHECK: load atomic i32, i32* {{.*}} seq_cst
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return __atomic_load_n(i, memory_order_seq_cst);
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}
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int fi1c(atomic_int *i) {
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// CHECK-LABEL: @fi1c
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// CHECK: load atomic i32, i32* {{.*}} seq_cst
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return atomic_load(i);
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}
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void fi2(_Atomic(int) *i) {
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// CHECK-LABEL: @fi2
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// CHECK: store atomic i32 {{.*}} seq_cst
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__c11_atomic_store(i, 1, memory_order_seq_cst);
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}
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void fi2a(int *i) {
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// CHECK-LABEL: @fi2a
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// CHECK: store atomic i32 {{.*}} seq_cst
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int v = 1;
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__atomic_store(i, &v, memory_order_seq_cst);
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}
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void fi2b(int *i) {
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// CHECK-LABEL: @fi2b
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// CHECK: store atomic i32 {{.*}} seq_cst
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__atomic_store_n(i, 1, memory_order_seq_cst);
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}
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void fi2c(atomic_int *i) {
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// CHECK-LABEL: @fi2c
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// CHECK: store atomic i32 {{.*}} seq_cst
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atomic_store(i, 1);
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}
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int fi3(_Atomic(int) *i) {
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// CHECK-LABEL: @fi3
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// CHECK: atomicrmw and
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// CHECK-NOT: and
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return __c11_atomic_fetch_and(i, 1, memory_order_seq_cst);
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}
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int fi3a(int *i) {
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// CHECK-LABEL: @fi3a
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// CHECK: atomicrmw xor
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// CHECK-NOT: xor
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return __atomic_fetch_xor(i, 1, memory_order_seq_cst);
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}
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int fi3b(int *i) {
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// CHECK-LABEL: @fi3b
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// CHECK: atomicrmw add
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// CHECK: add
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return __atomic_add_fetch(i, 1, memory_order_seq_cst);
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}
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int fi3c(int *i) {
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// CHECK-LABEL: @fi3c
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// CHECK: atomicrmw nand
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// CHECK-NOT: and
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return __atomic_fetch_nand(i, 1, memory_order_seq_cst);
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}
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int fi3d(int *i) {
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// CHECK-LABEL: @fi3d
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// CHECK: atomicrmw nand
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// CHECK: and
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// CHECK: xor
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return __atomic_nand_fetch(i, 1, memory_order_seq_cst);
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}
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int fi3e(atomic_int *i) {
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// CHECK-LABEL: @fi3e
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// CHECK: atomicrmw or
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// CHECK-NOT: {{ or }}
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return atomic_fetch_or(i, 1);
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}
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int fi3f(int *i) {
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// CHECK-LABEL: @fi3f
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// CHECK-NOT: store volatile
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// CHECK: atomicrmw or
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// CHECK-NOT: {{ or }}
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return __atomic_fetch_or(i, (short)1, memory_order_seq_cst);
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}
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_Bool fi4(_Atomic(int) *i) {
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// CHECK-LABEL: @fi4(
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// CHECK: [[PAIR:%[.0-9A-Z_a-z]+]] = cmpxchg i32* [[PTR:%[.0-9A-Z_a-z]+]], i32 [[EXPECTED:%[.0-9A-Z_a-z]+]], i32 [[DESIRED:%[.0-9A-Z_a-z]+]]
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// CHECK: [[OLD:%[.0-9A-Z_a-z]+]] = extractvalue { i32, i1 } [[PAIR]], 0
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// CHECK: [[CMP:%[.0-9A-Z_a-z]+]] = extractvalue { i32, i1 } [[PAIR]], 1
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// CHECK: br i1 [[CMP]], label %[[STORE_EXPECTED:[.0-9A-Z_a-z]+]], label %[[CONTINUE:[.0-9A-Z_a-z]+]]
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// CHECK: store i32 [[OLD]]
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int cmp = 0;
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return __c11_atomic_compare_exchange_strong(i, &cmp, 1, memory_order_acquire, memory_order_acquire);
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}
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_Bool fi4a(int *i) {
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// CHECK-LABEL: @fi4a
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// CHECK: [[PAIR:%[.0-9A-Z_a-z]+]] = cmpxchg i32* [[PTR:%[.0-9A-Z_a-z]+]], i32 [[EXPECTED:%[.0-9A-Z_a-z]+]], i32 [[DESIRED:%[.0-9A-Z_a-z]+]]
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// CHECK: [[OLD:%[.0-9A-Z_a-z]+]] = extractvalue { i32, i1 } [[PAIR]], 0
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// CHECK: [[CMP:%[.0-9A-Z_a-z]+]] = extractvalue { i32, i1 } [[PAIR]], 1
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// CHECK: br i1 [[CMP]], label %[[STORE_EXPECTED:[.0-9A-Z_a-z]+]], label %[[CONTINUE:[.0-9A-Z_a-z]+]]
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// CHECK: store i32 [[OLD]]
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int cmp = 0;
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int desired = 1;
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return __atomic_compare_exchange(i, &cmp, &desired, 0, memory_order_acquire, memory_order_acquire);
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}
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_Bool fi4b(int *i) {
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// CHECK-LABEL: @fi4b(
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// CHECK: [[PAIR:%[.0-9A-Z_a-z]+]] = cmpxchg weak i32* [[PTR:%[.0-9A-Z_a-z]+]], i32 [[EXPECTED:%[.0-9A-Z_a-z]+]], i32 [[DESIRED:%[.0-9A-Z_a-z]+]]
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// CHECK: [[OLD:%[.0-9A-Z_a-z]+]] = extractvalue { i32, i1 } [[PAIR]], 0
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// CHECK: [[CMP:%[.0-9A-Z_a-z]+]] = extractvalue { i32, i1 } [[PAIR]], 1
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// CHECK: br i1 [[CMP]], label %[[STORE_EXPECTED:[.0-9A-Z_a-z]+]], label %[[CONTINUE:[.0-9A-Z_a-z]+]]
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// CHECK: store i32 [[OLD]]
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int cmp = 0;
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return __atomic_compare_exchange_n(i, &cmp, 1, 1, memory_order_acquire, memory_order_acquire);
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}
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_Bool fi4c(atomic_int *i) {
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// CHECK-LABEL: @fi4c
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// CHECK: cmpxchg i32*
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int cmp = 0;
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return atomic_compare_exchange_strong(i, &cmp, 1);
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}
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#define _AS1 __attribute__((address_space(1)))
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_Bool fi4d(_Atomic(int) *i, int _AS1 *ptr2) {
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// CHECK-LABEL: @fi4d(
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// CHECK: [[EXPECTED:%[.0-9A-Z_a-z]+]] = load i32, i32 addrspace(1)* %{{[0-9]+}}
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// CHECK: cmpxchg i32* %{{[0-9]+}}, i32 [[EXPECTED]], i32 %{{[0-9]+}} acquire acquire
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return __c11_atomic_compare_exchange_strong(i, ptr2, 1, memory_order_acquire, memory_order_acquire);
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}
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float ff1(_Atomic(float) *d) {
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// CHECK-LABEL: @ff1
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// CHECK: load atomic i32, i32* {{.*}} monotonic
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return __c11_atomic_load(d, memory_order_relaxed);
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}
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void ff2(_Atomic(float) *d) {
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// CHECK-LABEL: @ff2
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// CHECK: store atomic i32 {{.*}} release
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__c11_atomic_store(d, 1, memory_order_release);
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}
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float ff3(_Atomic(float) *d) {
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return __c11_atomic_exchange(d, 2, memory_order_seq_cst);
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}
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struct S {
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double x;
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};
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void implicit_store(_Atomic(struct S) *a, struct S s) {
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// CHECK-LABEL: @implicit_store(
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// CHECK: store atomic i64 %{{.*}}, i64* %{{.*}} seq_cst, align 8
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*a = s;
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}
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struct S implicit_load(_Atomic(struct S) *a) {
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// CHECK-LABEL: @implicit_load(
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// CHECK: load atomic i64, i64* %{{.*}} seq_cst, align 8
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return *a;
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}
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struct S fd1(struct S *a) {
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// CHECK-LABEL: @fd1
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// CHECK: [[RETVAL:%.*]] = alloca %struct.S, align 4
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// CHECK: [[A:%.*]] = bitcast %struct.S* {{.*}} to i64*
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// CHECK: [[CAST:%.*]] = bitcast %struct.S* [[RETVAL]] to i64*
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// CHECK: [[SRC:%.*]] = bitcast i64* [[A]] to i8*
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// CHECK: [[DEST:%.*]] = bitcast i64* [[CAST]] to i8*
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// CHECK: call void @__atomic_load(i32 8, i8* [[SRC]], i8* [[DEST]], i32 5)
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// CHECK: ret
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struct S ret;
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__atomic_load(a, &ret, memory_order_seq_cst);
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return ret;
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}
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void fd2(struct S *a, struct S *b) {
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// CHECK-LABEL: @fd2
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// CHECK: [[A_ADDR:%.*]] = alloca %struct.S*, align 4
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// CHECK-NEXT: [[B_ADDR:%.*]] = alloca %struct.S*, align 4
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// CHECK-NEXT: store %struct.S* %a, %struct.S** [[A_ADDR]], align 4
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// CHECK-NEXT: store %struct.S* %b, %struct.S** [[B_ADDR]], align 4
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// CHECK-NEXT: [[LOAD_A_PTR:%.*]] = load %struct.S*, %struct.S** [[A_ADDR]], align 4
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// CHECK-NEXT: [[LOAD_B_PTR:%.*]] = load %struct.S*, %struct.S** [[B_ADDR]], align 4
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// CHECK-NEXT: [[COERCED_A_TMP:%.*]] = bitcast %struct.S* [[LOAD_A_PTR]] to i64*
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// CHECK-NEXT: [[COERCED_B:%.*]] = bitcast %struct.S* [[LOAD_B_PTR]] to i64*
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// CHECK-NEXT: [[COERCED_A:%.*]] = bitcast i64* [[COERCED_A_TMP]] to i8*
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// CHECK-NEXT: [[CAST_B:%.*]] = bitcast i64* [[COERCED_B]] to i8*
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// CHECK-NEXT: call void @__atomic_store(i32 8, i8* [[COERCED_A]], i8* [[CAST_B]],
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// CHECK-NEXT: ret void
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__atomic_store(a, b, memory_order_seq_cst);
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}
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void fd3(struct S *a, struct S *b, struct S *c) {
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// CHECK-LABEL: @fd3
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// CHECK: [[A_ADDR:%.*]] = alloca %struct.S*, align 4
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// CHECK-NEXT: [[B_ADDR:%.*]] = alloca %struct.S*, align 4
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// CHECK-NEXT: [[C_ADDR:%.*]] = alloca %struct.S*, align 4
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// CHECK-NEXT: store %struct.S* %a, %struct.S** [[A_ADDR]], align 4
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// CHECK-NEXT: store %struct.S* %b, %struct.S** [[B_ADDR]], align 4
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// CHECK-NEXT: store %struct.S* %c, %struct.S** [[C_ADDR]], align 4
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// CHECK-NEXT: [[LOAD_A_PTR:%.*]] = load %struct.S*, %struct.S** [[A_ADDR]], align 4
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// CHECK-NEXT: [[LOAD_B_PTR:%.*]] = load %struct.S*, %struct.S** [[B_ADDR]], align 4
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// CHECK-NEXT: [[LOAD_C_PTR:%.*]] = load %struct.S*, %struct.S** [[C_ADDR]], align 4
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// CHECK-NEXT: [[COERCED_A_TMP:%.*]] = bitcast %struct.S* [[LOAD_A_PTR]] to i64*
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// CHECK-NEXT: [[COERCED_B:%.*]] = bitcast %struct.S* [[LOAD_B_PTR]] to i64*
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// CHECK-NEXT: [[COERCED_C:%.*]] = bitcast %struct.S* [[LOAD_C_PTR]] to i64*
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// CHECK-NEXT: [[COERCED_A:%.*]] = bitcast i64* [[COERCED_A_TMP]] to i8*
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// CHECK-NEXT: [[CAST_B:%.*]] = bitcast i64* [[COERCED_B]] to i8*
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// CHECK-NEXT: [[CAST_C:%.*]] = bitcast i64* [[COERCED_C]] to i8*
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// CHECK-NEXT: call void @__atomic_exchange(i32 8, i8* [[COERCED_A]], i8* [[CAST_B]], i8* [[CAST_C]],
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__atomic_exchange(a, b, c, memory_order_seq_cst);
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}
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_Bool fd4(struct S *a, struct S *b, struct S *c) {
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// CHECK-LABEL: @fd4
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// CHECK: [[A_ADDR:%.*]] = alloca %struct.S*, align 4
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// CHECK-NEXT: [[B_ADDR:%.*]] = alloca %struct.S*, align 4
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// CHECK-NEXT: [[C_ADDR:%.*]] = alloca %struct.S*, align 4
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// CHECK: store %struct.S* %a, %struct.S** [[A_ADDR]], align 4
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// CHECK-NEXT: store %struct.S* %b, %struct.S** [[B_ADDR]], align 4
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// CHECK-NEXT: store %struct.S* %c, %struct.S** [[C_ADDR]], align 4
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// CHECK-NEXT: [[LOAD_A_PTR:%.*]] = load %struct.S*, %struct.S** [[A_ADDR]], align 4
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// CHECK-NEXT: [[LOAD_B_PTR:%.*]] = load %struct.S*, %struct.S** [[B_ADDR]], align 4
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// CHECK-NEXT: [[LOAD_C_PTR:%.*]] = load %struct.S*, %struct.S** [[C_ADDR]], align 4
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// CHECK-NEXT: [[COERCED_A_TMP:%.*]] = bitcast %struct.S* [[LOAD_A_PTR]] to i64*
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// CHECK-NEXT: [[COERCED_B_TMP:%.*]] = bitcast %struct.S* [[LOAD_B_PTR]] to i64*
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// CHECK-NEXT: [[COERCED_C:%.*]] = bitcast %struct.S* [[LOAD_C_PTR]] to i64*
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// CHECK-NEXT: [[COERCED_A:%.*]] = bitcast i64* [[COERCED_A_TMP]] to i8*
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// CHECK-NEXT: [[COERCED_B:%.*]] = bitcast i64* [[COERCED_B_TMP]] to i8*
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// CHECK-NEXT: [[CAST_C:%.*]] = bitcast i64* [[COERCED_C]] to i8*
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// CHECK-NEXT: [[CALL:%.*]] = call zeroext i1 @__atomic_compare_exchange(i32 8, i8* [[COERCED_A]], i8* [[COERCED_B]], i8* [[CAST_C]],
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// CHECK-NEXT: ret i1 [[CALL]]
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return __atomic_compare_exchange(a, b, c, 1, 5, 5);
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}
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int* fp1(_Atomic(int*) *p) {
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// CHECK-LABEL: @fp1
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// CHECK: load atomic i32, i32* {{.*}} seq_cst
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return __c11_atomic_load(p, memory_order_seq_cst);
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}
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int* fp2(_Atomic(int*) *p) {
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// CHECK-LABEL: @fp2
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// CHECK: store i32 4
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// CHECK: atomicrmw add {{.*}} monotonic
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return __c11_atomic_fetch_add(p, 1, memory_order_relaxed);
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}
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int *fp2a(int **p) {
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// CHECK-LABEL: @fp2a
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// CHECK: store i32 4
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// CHECK: atomicrmw sub {{.*}} monotonic
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// Note, the GNU builtins do not multiply by sizeof(T)!
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return __atomic_fetch_sub(p, 4, memory_order_relaxed);
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}
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_Complex float fc(_Atomic(_Complex float) *c) {
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// CHECK-LABEL: @fc
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// CHECK: atomicrmw xchg i64*
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return __c11_atomic_exchange(c, 2, memory_order_seq_cst);
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}
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typedef struct X { int x; } X;
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X fs(_Atomic(X) *c) {
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// CHECK-LABEL: @fs
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// CHECK: atomicrmw xchg i32*
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return __c11_atomic_exchange(c, (X){2}, memory_order_seq_cst);
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}
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X fsa(X *c, X *d) {
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// CHECK-LABEL: @fsa
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// CHECK: atomicrmw xchg i32*
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X ret;
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__atomic_exchange(c, d, &ret, memory_order_seq_cst);
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return ret;
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}
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_Bool fsb(_Bool *c) {
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// CHECK-LABEL: @fsb
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// CHECK: atomicrmw xchg i8*
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return __atomic_exchange_n(c, 1, memory_order_seq_cst);
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}
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char flag1;
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volatile char flag2;
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void test_and_set() {
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// CHECK: atomicrmw xchg i8* @flag1, i8 1 seq_cst
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__atomic_test_and_set(&flag1, memory_order_seq_cst);
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// CHECK: atomicrmw volatile xchg i8* @flag2, i8 1 acquire
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__atomic_test_and_set(&flag2, memory_order_acquire);
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// CHECK: store atomic volatile i8 0, i8* @flag2 release
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__atomic_clear(&flag2, memory_order_release);
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// CHECK: store atomic i8 0, i8* @flag1 seq_cst
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__atomic_clear(&flag1, memory_order_seq_cst);
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}
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struct Sixteen {
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char c[16];
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} sixteen;
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struct Seventeen {
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char c[17];
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} seventeen;
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struct Incomplete;
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int lock_free(struct Incomplete *incomplete) {
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// CHECK-LABEL: @lock_free
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// CHECK: call i32 @__atomic_is_lock_free(i32 3, i8* null)
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__c11_atomic_is_lock_free(3);
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// CHECK: call i32 @__atomic_is_lock_free(i32 16, i8* {{.*}}@sixteen{{.*}})
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__atomic_is_lock_free(16, &sixteen);
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// CHECK: call i32 @__atomic_is_lock_free(i32 17, i8* {{.*}}@seventeen{{.*}})
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__atomic_is_lock_free(17, &seventeen);
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// CHECK: call i32 @__atomic_is_lock_free(i32 4, {{.*}})
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__atomic_is_lock_free(4, incomplete);
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char cs[20];
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// CHECK: call i32 @__atomic_is_lock_free(i32 4, {{.*}})
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__atomic_is_lock_free(4, cs+1);
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// CHECK-NOT: call
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__atomic_always_lock_free(3, 0);
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__atomic_always_lock_free(16, 0);
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__atomic_always_lock_free(17, 0);
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__atomic_always_lock_free(16, &sixteen);
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__atomic_always_lock_free(17, &seventeen);
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int n;
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__atomic_is_lock_free(4, &n);
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// CHECK: ret i32 1
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return __c11_atomic_is_lock_free(sizeof(_Atomic(int)));
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}
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// Tests for atomic operations on big values. These should call the functions
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// defined here:
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// http://gcc.gnu.org/wiki/Atomic/GCCMM/LIbrary#The_Library_interface
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struct foo {
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int big[128];
|
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};
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struct bar {
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|
char c[3];
|
|
};
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struct bar smallThing, thing1, thing2;
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struct foo bigThing;
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_Atomic(struct foo) bigAtomic;
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void structAtomicStore() {
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// CHECK-LABEL: @structAtomicStore
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struct foo f = {0};
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struct bar b = {0};
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__atomic_store(&smallThing, &b, 5);
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// CHECK: call void @__atomic_store(i32 3, i8* {{.*}} @smallThing
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__atomic_store(&bigThing, &f, 5);
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// CHECK: call void @__atomic_store(i32 512, i8* {{.*}} @bigThing
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}
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void structAtomicLoad() {
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// CHECK-LABEL: @structAtomicLoad
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struct bar b;
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__atomic_load(&smallThing, &b, 5);
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// CHECK: call void @__atomic_load(i32 3, i8* {{.*}} @smallThing
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struct foo f = {0};
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__atomic_load(&bigThing, &f, 5);
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// CHECK: call void @__atomic_load(i32 512, i8* {{.*}} @bigThing
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}
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struct foo structAtomicExchange() {
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// CHECK-LABEL: @structAtomicExchange
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struct foo f = {0};
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struct foo old;
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__atomic_exchange(&f, &bigThing, &old, 5);
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// CHECK: call void @__atomic_exchange(i32 512, {{.*}}, i8* bitcast ({{.*}} @bigThing to i8*),
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return __c11_atomic_exchange(&bigAtomic, f, 5);
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// CHECK: call void @__atomic_exchange(i32 512, i8* bitcast ({{.*}} @bigAtomic to i8*),
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}
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int structAtomicCmpExchange() {
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// CHECK-LABEL: @structAtomicCmpExchange
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// CHECK: %[[x_mem:.*]] = alloca i8
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_Bool x = __atomic_compare_exchange(&smallThing, &thing1, &thing2, 1, 5, 5);
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// CHECK: %[[call1:.*]] = call zeroext i1 @__atomic_compare_exchange(i32 3, {{.*}} @smallThing{{.*}} @thing1{{.*}} @thing2
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// CHECK: %[[zext1:.*]] = zext i1 %[[call1]] to i8
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// CHECK: store i8 %[[zext1]], i8* %[[x_mem]], align 1
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// CHECK: %[[x:.*]] = load i8, i8* %[[x_mem]]
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// CHECK: %[[x_bool:.*]] = trunc i8 %[[x]] to i1
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// CHECK: %[[conv1:.*]] = zext i1 %[[x_bool]] to i32
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|
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struct foo f = {0};
|
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struct foo g = {0};
|
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g.big[12] = 12;
|
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return x & __c11_atomic_compare_exchange_strong(&bigAtomic, &f, g, 5, 5);
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// CHECK: %[[call2:.*]] = call zeroext i1 @__atomic_compare_exchange(i32 512, i8* bitcast ({{.*}} @bigAtomic to i8*),
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// CHECK: %[[conv2:.*]] = zext i1 %[[call2]] to i32
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// CHECK: %[[and:.*]] = and i32 %[[conv1]], %[[conv2]]
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// CHECK: ret i32 %[[and]]
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}
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|
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// Check that no atomic operations are used in any initialisation of _Atomic
|
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// types.
|
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_Atomic(int) atomic_init_i = 42;
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|
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// CHECK-LABEL: @atomic_init_foo
|
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void atomic_init_foo()
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{
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// CHECK-NOT: }
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// CHECK-NOT: atomic
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// CHECK: store
|
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_Atomic(int) j = 12;
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// CHECK-NOT: }
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// CHECK-NOT: atomic
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// CHECK: store
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__c11_atomic_init(&j, 42);
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// CHECK-NOT: atomic
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// CHECK: }
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}
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// CHECK-LABEL: @failureOrder
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void failureOrder(_Atomic(int) *ptr, int *ptr2) {
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__c11_atomic_compare_exchange_strong(ptr, ptr2, 43, memory_order_acquire, memory_order_relaxed);
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// CHECK: cmpxchg i32* {{%[0-9A-Za-z._]+}}, i32 {{%[0-9A-Za-z._]+}}, i32 {{%[0-9A-Za-z_.]+}} acquire monotonic
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__c11_atomic_compare_exchange_weak(ptr, ptr2, 43, memory_order_seq_cst, memory_order_acquire);
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// CHECK: cmpxchg weak i32* {{%[0-9A-Za-z._]+}}, i32 {{%[0-9A-Za-z._]+}}, i32 {{%[0-9A-Za-z_.]+}} seq_cst acquire
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// Unknown ordering: conservatively pick strongest valid option (for now!).
|
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__atomic_compare_exchange(ptr2, ptr2, ptr2, 0, memory_order_acq_rel, *ptr2);
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// CHECK: cmpxchg i32* {{%[0-9A-Za-z._]+}}, i32 {{%[0-9A-Za-z._]+}}, i32 {{%[0-9A-Za-z_.]+}} acq_rel acquire
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// Undefined behaviour: don't really care what that last ordering is so leave
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// it out:
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__atomic_compare_exchange_n(ptr2, ptr2, 43, 1, memory_order_seq_cst, 42);
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// CHECK: cmpxchg weak i32* {{%[0-9A-Za-z._]+}}, i32 {{%[0-9A-Za-z._]+}}, i32 {{%[0-9A-Za-z_.]+}} seq_cst
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}
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|
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// CHECK-LABEL: @generalFailureOrder
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void generalFailureOrder(_Atomic(int) *ptr, int *ptr2, int success, int fail) {
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__c11_atomic_compare_exchange_strong(ptr, ptr2, 42, success, fail);
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// CHECK: switch i32 {{.*}}, label %[[MONOTONIC:[0-9a-zA-Z._]+]] [
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// CHECK-NEXT: i32 1, label %[[ACQUIRE:[0-9a-zA-Z._]+]]
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// CHECK-NEXT: i32 2, label %[[ACQUIRE]]
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// CHECK-NEXT: i32 3, label %[[RELEASE:[0-9a-zA-Z._]+]]
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// CHECK-NEXT: i32 4, label %[[ACQREL:[0-9a-zA-Z._]+]]
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// CHECK-NEXT: i32 5, label %[[SEQCST:[0-9a-zA-Z._]+]]
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// CHECK: [[MONOTONIC]]
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// CHECK: switch {{.*}}, label %[[MONOTONIC_MONOTONIC:[0-9a-zA-Z._]+]] [
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// CHECK-NEXT: ]
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// CHECK: [[ACQUIRE]]
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// CHECK: switch {{.*}}, label %[[ACQUIRE_MONOTONIC:[0-9a-zA-Z._]+]] [
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// CHECK-NEXT: i32 1, label %[[ACQUIRE_ACQUIRE:[0-9a-zA-Z._]+]]
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// CHECK-NEXT: i32 2, label %[[ACQUIRE_ACQUIRE:[0-9a-zA-Z._]+]]
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// CHECK-NEXT: ]
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// CHECK: [[RELEASE]]
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// CHECK: switch {{.*}}, label %[[RELEASE_MONOTONIC:[0-9a-zA-Z._]+]] [
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// CHECK-NEXT: ]
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// CHECK: [[ACQREL]]
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// CHECK: switch {{.*}}, label %[[ACQREL_MONOTONIC:[0-9a-zA-Z._]+]] [
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// CHECK-NEXT: i32 1, label %[[ACQREL_ACQUIRE:[0-9a-zA-Z._]+]]
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// CHECK-NEXT: i32 2, label %[[ACQREL_ACQUIRE:[0-9a-zA-Z._]+]]
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// CHECK-NEXT: ]
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// CHECK: [[SEQCST]]
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// CHECK: switch {{.*}}, label %[[SEQCST_MONOTONIC:[0-9a-zA-Z._]+]] [
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// CHECK-NEXT: i32 1, label %[[SEQCST_ACQUIRE:[0-9a-zA-Z._]+]]
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// CHECK-NEXT: i32 2, label %[[SEQCST_ACQUIRE:[0-9a-zA-Z._]+]]
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// CHECK-NEXT: i32 5, label %[[SEQCST_SEQCST:[0-9a-zA-Z._]+]]
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// CHECK-NEXT: ]
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|
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// CHECK: [[MONOTONIC_MONOTONIC]]
|
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// CHECK: cmpxchg {{.*}} monotonic monotonic
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// CHECK: br
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|
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// CHECK: [[ACQUIRE_MONOTONIC]]
|
|
// CHECK: cmpxchg {{.*}} acquire monotonic
|
|
// CHECK: br
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|
|
// CHECK: [[ACQUIRE_ACQUIRE]]
|
|
// CHECK: cmpxchg {{.*}} acquire acquire
|
|
// CHECK: br
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|
|
// CHECK: [[ACQREL_MONOTONIC]]
|
|
// CHECK: cmpxchg {{.*}} acq_rel monotonic
|
|
// CHECK: br
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|
|
// CHECK: [[ACQREL_ACQUIRE]]
|
|
// CHECK: cmpxchg {{.*}} acq_rel acquire
|
|
// CHECK: br
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|
|
// CHECK: [[SEQCST_MONOTONIC]]
|
|
// CHECK: cmpxchg {{.*}} seq_cst monotonic
|
|
// CHECK: br
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|
|
|
// CHECK: [[SEQCST_ACQUIRE]]
|
|
// CHECK: cmpxchg {{.*}} seq_cst acquire
|
|
// CHECK: br
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|
|
|
// CHECK: [[SEQCST_SEQCST]]
|
|
// CHECK: cmpxchg {{.*}} seq_cst seq_cst
|
|
// CHECK: br
|
|
}
|
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|
|
void generalWeakness(int *ptr, int *ptr2, _Bool weak) {
|
|
__atomic_compare_exchange_n(ptr, ptr2, 42, weak, memory_order_seq_cst, memory_order_seq_cst);
|
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// CHECK: switch i1 {{.*}}, label %[[WEAK:[0-9a-zA-Z._]+]] [
|
|
// CHECK-NEXT: i1 false, label %[[STRONG:[0-9a-zA-Z._]+]]
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|
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// CHECK: [[STRONG]]
|
|
// CHECK-NOT: br
|
|
// CHECK: cmpxchg {{.*}} seq_cst seq_cst
|
|
// CHECK: br
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|
|
|
// CHECK: [[WEAK]]
|
|
// CHECK-NOT: br
|
|
// CHECK: cmpxchg weak {{.*}} seq_cst seq_cst
|
|
// CHECK: br
|
|
}
|
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|
|
// Having checked the flow in the previous two cases, we'll trust clang to
|
|
// combine them sanely.
|
|
void EMIT_ALL_THE_THINGS(int *ptr, int *ptr2, int new, _Bool weak, int success, int fail) {
|
|
__atomic_compare_exchange(ptr, ptr2, &new, weak, success, fail);
|
|
|
|
// CHECK: = cmpxchg {{.*}} monotonic monotonic
|
|
// CHECK: = cmpxchg weak {{.*}} monotonic monotonic
|
|
// CHECK: = cmpxchg {{.*}} acquire monotonic
|
|
// CHECK: = cmpxchg {{.*}} acquire acquire
|
|
// CHECK: = cmpxchg weak {{.*}} acquire monotonic
|
|
// CHECK: = cmpxchg weak {{.*}} acquire acquire
|
|
// CHECK: = cmpxchg {{.*}} release monotonic
|
|
// CHECK: = cmpxchg weak {{.*}} release monotonic
|
|
// CHECK: = cmpxchg {{.*}} acq_rel monotonic
|
|
// CHECK: = cmpxchg {{.*}} acq_rel acquire
|
|
// CHECK: = cmpxchg weak {{.*}} acq_rel monotonic
|
|
// CHECK: = cmpxchg weak {{.*}} acq_rel acquire
|
|
// CHECK: = cmpxchg {{.*}} seq_cst monotonic
|
|
// CHECK: = cmpxchg {{.*}} seq_cst acquire
|
|
// CHECK: = cmpxchg {{.*}} seq_cst seq_cst
|
|
// CHECK: = cmpxchg weak {{.*}} seq_cst monotonic
|
|
// CHECK: = cmpxchg weak {{.*}} seq_cst acquire
|
|
// CHECK: = cmpxchg weak {{.*}} seq_cst seq_cst
|
|
}
|
|
|
|
int PR21643() {
|
|
return __atomic_or_fetch((int __attribute__((address_space(257))) *)0x308, 1,
|
|
__ATOMIC_RELAXED);
|
|
// CHECK: %[[atomictmp:.*]] = alloca i32, align 4
|
|
// CHECK: %[[atomicdst:.*]] = alloca i32, align 4
|
|
// CHECK: store i32 1, i32* %[[atomictmp]]
|
|
// CHECK: %[[one:.*]] = load i32, i32* %[[atomictmp]], align 4
|
|
// CHECK: %[[old:.*]] = atomicrmw or i32 addrspace(257)* inttoptr (i32 776 to i32 addrspace(257)*), i32 %[[one]] monotonic
|
|
// CHECK: %[[new:.*]] = or i32 %[[old]], %[[one]]
|
|
// CHECK: store i32 %[[new]], i32* %[[atomicdst]], align 4
|
|
// CHECK: %[[ret:.*]] = load i32, i32* %[[atomicdst]], align 4
|
|
// CHECK: ret i32 %[[ret]]
|
|
}
|
|
|
|
int PR17306_1(volatile _Atomic(int) *i) {
|
|
// CHECK-LABEL: @PR17306_1
|
|
// CHECK: %[[i_addr:.*]] = alloca i32
|
|
// CHECK-NEXT: %[[atomicdst:.*]] = alloca i32
|
|
// CHECK-NEXT: store i32* %i, i32** %[[i_addr]]
|
|
// CHECK-NEXT: %[[addr:.*]] = load i32*, i32** %[[i_addr]]
|
|
// CHECK-NEXT: %[[res:.*]] = load atomic volatile i32, i32* %[[addr]] seq_cst
|
|
// CHECK-NEXT: store i32 %[[res]], i32* %[[atomicdst]]
|
|
// CHECK-NEXT: %[[retval:.*]] = load i32, i32* %[[atomicdst]]
|
|
// CHECK-NEXT: ret i32 %[[retval]]
|
|
return __c11_atomic_load(i, memory_order_seq_cst);
|
|
}
|
|
|
|
int PR17306_2(volatile int *i, int value) {
|
|
// CHECK-LABEL: @PR17306_2
|
|
// CHECK: %[[i_addr:.*]] = alloca i32*
|
|
// CHECK-NEXT: %[[value_addr:.*]] = alloca i32
|
|
// CHECK-NEXT: %[[atomictmp:.*]] = alloca i32
|
|
// CHECK-NEXT: %[[atomicdst:.*]] = alloca i32
|
|
// CHECK-NEXT: store i32* %i, i32** %[[i_addr]]
|
|
// CHECK-NEXT: store i32 %value, i32* %[[value_addr]]
|
|
// CHECK-NEXT: %[[i_lval:.*]] = load i32*, i32** %[[i_addr]]
|
|
// CHECK-NEXT: %[[value:.*]] = load i32, i32* %[[value_addr]]
|
|
// CHECK-NEXT: store i32 %[[value]], i32* %[[atomictmp]]
|
|
// CHECK-NEXT: %[[value_lval:.*]] = load i32, i32* %[[atomictmp]]
|
|
// CHECK-NEXT: %[[old_val:.*]] = atomicrmw volatile add i32* %[[i_lval]], i32 %[[value_lval]] seq_cst
|
|
// CHECK-NEXT: %[[new_val:.*]] = add i32 %[[old_val]], %[[value_lval]]
|
|
// CHECK-NEXT: store i32 %[[new_val]], i32* %[[atomicdst]]
|
|
// CHECK-NEXT: %[[retval:.*]] = load i32, i32* %[[atomicdst]]
|
|
// CHECK-NEXT: ret i32 %[[retval]]
|
|
return __atomic_add_fetch(i, value, memory_order_seq_cst);
|
|
}
|
|
|
|
void test_underaligned() {
|
|
// CHECK-LABEL: @test_underaligned
|
|
struct Underaligned { char c[8]; } underaligned_a, underaligned_b, underaligned_c;
|
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|
|
// CHECK: call void @__atomic_load(i32 8,
|
|
__atomic_load(&underaligned_a, &underaligned_b, memory_order_seq_cst);
|
|
// CHECK: call void @__atomic_store(i32 8,
|
|
__atomic_store(&underaligned_a, &underaligned_b, memory_order_seq_cst);
|
|
// CHECK: call void @__atomic_exchange(i32 8,
|
|
__atomic_exchange(&underaligned_a, &underaligned_b, &underaligned_c, memory_order_seq_cst);
|
|
// CHECK: call {{.*}} @__atomic_compare_exchange(i32 8,
|
|
__atomic_compare_exchange(&underaligned_a, &underaligned_b, &underaligned_c, 1, memory_order_seq_cst, memory_order_seq_cst);
|
|
|
|
__attribute__((aligned)) struct Underaligned aligned_a, aligned_b, aligned_c;
|
|
|
|
// CHECK: load atomic
|
|
__atomic_load(&aligned_a, &aligned_b, memory_order_seq_cst);
|
|
// CHECK: store atomic
|
|
__atomic_store(&aligned_a, &aligned_b, memory_order_seq_cst);
|
|
// CHECK: atomicrmw xchg
|
|
__atomic_exchange(&aligned_a, &aligned_b, &aligned_c, memory_order_seq_cst);
|
|
// CHECK: cmpxchg weak
|
|
__atomic_compare_exchange(&aligned_a, &aligned_b, &aligned_c, 1, memory_order_seq_cst, memory_order_seq_cst);
|
|
}
|
|
|
|
void test_c11_minmax(_Atomic(int) * si, _Atomic(unsigned) * ui, _Atomic(short) * ss, _Atomic(unsigned char) * uc, _Atomic(long long) * sll) {
|
|
// CHECK-LABEL: @test_c11_minmax
|
|
|
|
// CHECK: atomicrmw max i32
|
|
*si = __c11_atomic_fetch_max(si, 42, memory_order_acquire);
|
|
// CHECK: atomicrmw min i32
|
|
*si = __c11_atomic_fetch_min(si, 42, memory_order_acquire);
|
|
// CHECK: atomicrmw umax i32
|
|
*ui = __c11_atomic_fetch_max(ui, 42, memory_order_acquire);
|
|
// CHECK: atomicrmw umin i32
|
|
*ui = __c11_atomic_fetch_min(ui, 42, memory_order_acquire);
|
|
|
|
// CHECK: atomicrmw max i16
|
|
*ss = __c11_atomic_fetch_max(ss, 42, memory_order_acquire);
|
|
// CHECK: atomicrmw min i16
|
|
*ss = __c11_atomic_fetch_min(ss, 42, memory_order_acquire);
|
|
|
|
// CHECK: atomicrmw umax i8
|
|
*uc = __c11_atomic_fetch_max(uc, 42, memory_order_acquire);
|
|
// CHECK: atomicrmw umin i8
|
|
*uc = __c11_atomic_fetch_min(uc, 42, memory_order_acquire);
|
|
|
|
// CHECK: atomicrmw max i64
|
|
*sll = __c11_atomic_fetch_max(sll, 42, memory_order_acquire);
|
|
// CHECK: atomicrmw min i64
|
|
*sll = __c11_atomic_fetch_min(sll, 42, memory_order_acquire);
|
|
|
|
}
|
|
|
|
void test_minmax_postop(int *si, unsigned *ui, unsigned short *us, signed char *sc, unsigned long long *ull) {
|
|
int val = 42;
|
|
// CHECK-LABEL: @test_minmax_postop
|
|
|
|
// CHECK: [[OLD:%.*]] = atomicrmw max i32* [[PTR:%.*]], i32 [[RHS:%.*]] release
|
|
// CHECK: [[TST:%.*]] = icmp sgt i32 [[OLD]], [[RHS]]
|
|
// CHECK: [[NEW:%.*]] = select i1 [[TST]], i32 [[OLD]], i32 [[RHS]]
|
|
// CHECK: store i32 [[NEW]], i32*
|
|
*si = __atomic_max_fetch(si, 42, memory_order_release);
|
|
|
|
// CHECK: [[OLD:%.*]] = atomicrmw min i32* [[PTR:%.*]], i32 [[RHS:%.*]] release
|
|
// CHECK: [[TST:%.*]] = icmp slt i32 [[OLD]], [[RHS]]
|
|
// CHECK: [[NEW:%.*]] = select i1 [[TST]], i32 [[OLD]], i32 [[RHS]]
|
|
// CHECK: store i32 [[NEW]], i32*
|
|
*si = __atomic_min_fetch(si, 42, memory_order_release);
|
|
|
|
// CHECK: [[OLD:%.*]] = atomicrmw umax i32* [[PTR:%.*]], i32 [[RHS:%.*]] release
|
|
// CHECK: [[TST:%.*]] = icmp ugt i32 [[OLD]], [[RHS]]
|
|
// CHECK: [[NEW:%.*]] = select i1 [[TST]], i32 [[OLD]], i32 [[RHS]]
|
|
// CHECK: store i32 [[NEW]], i32*
|
|
*ui = __atomic_max_fetch(ui, 42, memory_order_release);
|
|
|
|
// CHECK: [[OLD:%.*]] = atomicrmw umin i32* [[PTR:%.*]], i32 [[RHS:%.*]] release
|
|
// CHECK: [[TST:%.*]] = icmp ult i32 [[OLD]], [[RHS]]
|
|
// CHECK: [[NEW:%.*]] = select i1 [[TST]], i32 [[OLD]], i32 [[RHS]]
|
|
// CHECK: store i32 [[NEW]], i32*
|
|
*ui = __atomic_min_fetch(ui, 42, memory_order_release);
|
|
|
|
// CHECK: [[OLD:%.*]] = atomicrmw umin i16* [[PTR:%.*]], i16 [[RHS:%.*]] release
|
|
// CHECK: [[TST:%.*]] = icmp ult i16 [[OLD]], [[RHS]]
|
|
// CHECK: [[NEW:%.*]] = select i1 [[TST]], i16 [[OLD]], i16 [[RHS]]
|
|
// CHECK: store i16 [[NEW]], i16*
|
|
*us = __atomic_min_fetch(us, 42, memory_order_release);
|
|
|
|
// CHECK: [[OLD:%.*]] = atomicrmw min i8* [[PTR:%.*]], i8 [[RHS:%.*]] release
|
|
// CHECK: [[TST:%.*]] = icmp slt i8 [[OLD]], [[RHS]]
|
|
// CHECK: [[NEW:%.*]] = select i1 [[TST]], i8 [[OLD]], i8 [[RHS]]
|
|
// CHECK: store i8 [[NEW]], i8*
|
|
*sc = __atomic_min_fetch(sc, 42, memory_order_release);
|
|
|
|
// CHECK: [[OLD:%.*]] = call i64 @__atomic_fetch_umin_8(i8* {{%.*}}, i64 [[RHS:%.*]],
|
|
// CHECK: [[TST:%.*]] = icmp ult i64 [[OLD]], [[RHS]]
|
|
// CHECK: [[NEW:%.*]] = select i1 [[TST]], i64 [[OLD]], i64 [[RHS]]
|
|
// CHECK: store i64 [[NEW]], i64*
|
|
*ull = __atomic_min_fetch(ull, 42, memory_order_release);
|
|
|
|
}
|
|
|
|
#endif
|