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llvm-project/libcxx/test/std/atomics/atomics.ref/compare_exchange_strong.pass.cpp
Stephan T. Lavavej 266fac8375
[libc++] [test] Fix MSVC warnings (#93257) 
Found while running libc++'s tests with MSVC's STL.

* Avoid MSVC warning C5101: use of preprocessor directive in
function-like macro argument list is undefined behavior.
+ We can easily make this portable by extracting `const bool is_newlib`.
  + Followup to #73440.
  + See #73598.
  + See #73836.
* Avoid MSVC warning C4267: 'return': conversion from 'size_t' to 'int',
possible loss of data.
+ This warning is valid, but harmless for the test, so
`static_cast<int>` will avoid it.
* Avoid MSVC warning C4146: unary minus operator applied to unsigned
type, result still unsigned.
+ This warning is also valid (the scenario is sometimes intentional, but
surprising enough that it's worth warning about). This is a C++17 test,
so we can easily avoid it by testing `is_signed_v` at compile-time
before testing `m < 0` and `n < 0` at run-time.
* Silence MSVC warning C4310: cast truncates constant value.
+ These warnings are being emitted by `T(255)`. Disabling the warning is
simpler than attempting to restructure the code.
  + Followup to #79791.
* MSVC no longer emits warning C4521: multiple copy constructors
specified.
+ This warning was removed from the compiler, since at least 2021-12-09.
2024-05-28 12:17:57 -07:00

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//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
// UNSUPPORTED: c++03, c++11, c++14, c++17
// XFAIL: !has-64-bit-atomics
// XFAIL: !has-1024-bit-atomics
// MSVC warning C4310: cast truncates constant value
// ADDITIONAL_COMPILE_FLAGS(cl-style-warnings): /wd4310
// bool compare_exchange_strong(T&, T, memory_order, memory_order) const noexcept;
// bool compare_exchange_strong(T&, T, memory_order = memory_order::seq_cst) const noexcept;
#include <atomic>
#include <cassert>
#include <concepts>
#include <type_traits>
#include "atomic_helpers.h"
#include "test_helper.h"
#include "test_macros.h"
template <typename T>
struct TestCompareExchangeStrong {
void operator()() const {
{
T x(T(1));
std::atomic_ref<T> const a(x);
T t(T(1));
std::same_as<bool> decltype(auto) y = a.compare_exchange_strong(t, T(2));
assert(y == true);
assert(a == T(2));
assert(t == T(1));
y = a.compare_exchange_strong(t, T(3));
assert(y == false);
assert(a == T(2));
assert(t == T(2));
ASSERT_NOEXCEPT(a.compare_exchange_strong(t, T(2)));
}
{
T x(T(1));
std::atomic_ref<T> const a(x);
T t(T(1));
std::same_as<bool> decltype(auto) y = a.compare_exchange_strong(t, T(2), std::memory_order_seq_cst);
assert(y == true);
assert(a == T(2));
assert(t == T(1));
y = a.compare_exchange_strong(t, T(3), std::memory_order_seq_cst);
assert(y == false);
assert(a == T(2));
assert(t == T(2));
ASSERT_NOEXCEPT(a.compare_exchange_strong(t, T(2), std::memory_order_seq_cst));
}
{
T x(T(1));
std::atomic_ref<T> const a(x);
T t(T(1));
std::same_as<bool> decltype(auto) y =
a.compare_exchange_strong(t, T(2), std::memory_order_release, std::memory_order_relaxed);
assert(y == true);
assert(a == T(2));
assert(t == T(1));
y = a.compare_exchange_strong(t, T(3), std::memory_order_release, std::memory_order_relaxed);
assert(y == false);
assert(a == T(2));
assert(t == T(2));
ASSERT_NOEXCEPT(a.compare_exchange_strong(t, T(2), std::memory_order_release, std::memory_order_relaxed));
}
// success memory_order::release
{
auto store = [](std::atomic_ref<T> const& x, T old_val, T new_val) {
auto r = x.compare_exchange_strong(old_val, new_val, std::memory_order::release, std::memory_order::relaxed);
assert(r);
};
auto load = [](std::atomic_ref<T> const& x) { return x.load(std::memory_order::acquire); };
test_acquire_release<T>(store, load);
auto store_one_arg = [](std::atomic_ref<T> const& x, T old_val, T new_val) {
auto r = x.compare_exchange_strong(old_val, new_val, std::memory_order::release);
assert(r);
};
test_acquire_release<T>(store_one_arg, load);
}
// success memory_order::acquire
{
auto store = [](std::atomic_ref<T> const& x, T, T new_val) { x.store(new_val, std::memory_order::release); };
auto load = [](std::atomic_ref<T> const& x) {
auto val = x.load(std::memory_order::relaxed);
while (!x.compare_exchange_strong(val, val, std::memory_order::acquire, std::memory_order::relaxed)) {
}
return val;
};
test_acquire_release<T>(store, load);
auto load_one_arg = [](std::atomic_ref<T> const& x) {
auto val = x.load(std::memory_order::relaxed);
while (!x.compare_exchange_strong(val, val, std::memory_order::acquire)) {
}
return val;
};
test_acquire_release<T>(store, load_one_arg);
}
// success memory_order::acq_rel
{
auto store = [](std::atomic_ref<T> const& x, T old_val, T new_val) {
auto r = x.compare_exchange_strong(old_val, new_val, std::memory_order::acq_rel, std::memory_order::relaxed);
assert(r);
};
auto load = [](std::atomic_ref<T> const& x) {
auto val = x.load(std::memory_order::relaxed);
while (!x.compare_exchange_strong(val, val, std::memory_order::acq_rel, std::memory_order::relaxed)) {
}
return val;
};
test_acquire_release<T>(store, load);
auto store_one_arg = [](std::atomic_ref<T> const& x, T old_val, T new_val) {
auto r = x.compare_exchange_strong(old_val, new_val, std::memory_order::acq_rel);
assert(r);
};
auto load_one_arg = [](std::atomic_ref<T> const& x) {
auto val = x.load(std::memory_order::relaxed);
while (!x.compare_exchange_strong(val, val, std::memory_order::acq_rel)) {
}
return val;
};
test_acquire_release<T>(store_one_arg, load_one_arg);
}
// success memory_order::seq_cst
{
auto store = [](std::atomic_ref<T> const& x, T old_val, T new_val) {
auto r = x.compare_exchange_strong(old_val, new_val, std::memory_order::seq_cst, std::memory_order::relaxed);
assert(r);
};
auto load = [](std::atomic_ref<T> const& x) {
auto val = x.load(std::memory_order::relaxed);
while (!x.compare_exchange_strong(val, val, std::memory_order::seq_cst, std::memory_order::relaxed)) {
}
return val;
};
test_seq_cst<T>(store, load);
auto store_one_arg = [](std::atomic_ref<T> const& x, T old_val, T new_val) {
auto r = x.compare_exchange_strong(old_val, new_val, std::memory_order::seq_cst);
assert(r);
};
auto load_one_arg = [](std::atomic_ref<T> const& x) {
auto val = x.load(std::memory_order::relaxed);
while (!x.compare_exchange_strong(val, val, std::memory_order::seq_cst)) {
}
return val;
};
test_seq_cst<T>(store_one_arg, load_one_arg);
}
// failure memory_order::acquire
{
auto store = [](std::atomic_ref<T> const& x, T, T new_val) { x.store(new_val, std::memory_order::release); };
auto load = [](std::atomic_ref<T> const& x) {
auto result = x.load(std::memory_order::relaxed);
T unexpected(T(255));
bool r =
x.compare_exchange_strong(unexpected, unexpected, std::memory_order::relaxed, std::memory_order::acquire);
assert(!r);
return result;
};
test_acquire_release<T>(store, load);
auto load_one_arg = [](std::atomic_ref<T> const& x) {
auto result = x.load(std::memory_order::relaxed);
T unexpected(T(255));
bool r = x.compare_exchange_strong(unexpected, unexpected, std::memory_order::acquire);
assert(!r);
return result;
};
test_acquire_release<T>(store, load_one_arg);
// acq_rel replaced by acquire
auto load_one_arg_acq_rel = [](std::atomic_ref<T> const& x) {
auto result = x.load(std::memory_order::relaxed);
T unexpected(T(255));
bool r = x.compare_exchange_strong(unexpected, unexpected, std::memory_order::acq_rel);
assert(!r);
return result;
};
test_acquire_release<T>(store, load_one_arg_acq_rel);
}
// failure memory_order::seq_cst
{
auto store = [](std::atomic_ref<T> const& x, T, T new_val) { x.store(new_val, std::memory_order::seq_cst); };
auto load = [](std::atomic_ref<T> const& x) {
auto result = x.load(std::memory_order::relaxed);
T unexpected(T(255));
bool r =
x.compare_exchange_strong(unexpected, unexpected, std::memory_order::relaxed, std::memory_order::seq_cst);
assert(!r);
return result;
};
test_seq_cst<T>(store, load);
}
}
};
int main(int, char**) {
TestEachAtomicType<TestCompareExchangeStrong>()();
return 0;
}
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