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unordered/test/cfoa/equality_tests.cpp
joaquintides f734e399e3 Feature/concurrent node containers (#271) 
* added concurrent node containers

* removed spurious typename

* added missing includes

* avoided unused param warning

* worked around Clang bug

* s/{}/() to work around GCC4.8 problems with aggregate initialization

* used /bigobj for cfoa/visit_tests.cpp

* suppressed localized maybe-uninitialized warnings

* fixed comments

* added /bigobj to cfoa/insert_tests.cpp

* instrumented double exact comparison to spot a spurious error

* fixed pedantic error

* refactored byte_span machinery

* compromised on sub-epsilon equality for doubles that should be identical

* documented boost::concurrent_node_(map|set)

* added concurrent_node_set

* added missing AlternativeType

* tested empty node insertion

* tested node_handle allocator management

* added nonassignable_allocator and node_handle_allocator_swap_tests

* fixed warning disabling

* silenced spurious GCC warning

* broadened scope of previous pragma

* broadened even more

* worked around spurious constexpr-related msvc-14.0 bug
https://godbolt.org/z/v78545Ebf

* added workaround back

* replaced previous workaround with built-in one

* added workaround back on top of built-in solution (which doesn't work 100% of the time)
2024-08-25 18:34:58 +02:00

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// Copyright (C) 2023 Christian Mazakas
// Copyright (C) 2023-2024 Joaquin M Lopez Munoz
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
#include "helpers.hpp"
#include <boost/unordered/concurrent_flat_map.hpp>
#include <boost/unordered/concurrent_flat_set.hpp>
#include <boost/unordered/concurrent_node_map.hpp>
#include <boost/unordered/concurrent_node_set.hpp>
test::seed_t initialize_seed{1634048962};
using test::default_generator;
using test::limited_range;
using test::sequential;
using hasher = stateful_hash;
using key_equal = stateful_key_equal;
using map_type = boost::unordered::concurrent_flat_map<raii, raii, hasher,
key_equal, stateful_allocator<std::pair<raii const, raii> > >;
using node_map_type = boost::unordered::concurrent_node_map<raii, raii, hasher,
key_equal, stateful_allocator<std::pair<raii const, raii> > >;
using set_type = boost::unordered::concurrent_flat_set<raii, hasher,
key_equal, stateful_allocator<raii> >;
using node_set_type = boost::unordered::concurrent_node_set<raii, hasher,
key_equal, stateful_allocator<raii> >;
map_type* test_map;
node_map_type* test_node_map;
set_type* test_set;
node_set_type* test_node_set;
namespace {
template <class X>
void simple_map_equality(X*)
{
using allocator_type = typename X::allocator_type;
{
X x1(
{{1, 11}, {2, 22}}, 0, hasher(1), key_equal(2), allocator_type(3));
X x2(
{{1, 11}, {2, 22}}, 0, hasher(2), key_equal(2), allocator_type(3));
X x3(
{{1, 11}, {2, 23}}, 0, hasher(2), key_equal(2), allocator_type(3));
X x4({{1, 11}}, 0, hasher(2), key_equal(2), allocator_type(3));
BOOST_TEST_EQ(x1.size(), x2.size());
BOOST_TEST(x1 == x2);
BOOST_TEST(!(x1 != x2));
BOOST_TEST_EQ(x1.size(), x3.size());
BOOST_TEST(!(x1 == x3));
BOOST_TEST(x1 != x3);
BOOST_TEST(x1.size() != x4.size());
BOOST_TEST(!(x1 == x4));
BOOST_TEST(x1 != x4);
}
}
template <class X>
void simple_set_equality(X*)
{
using allocator_type = typename X::allocator_type;
{
X x1(
{1, 2}, 0, hasher(1), key_equal(2), allocator_type(3));
X x2(
{1, 2}, 0, hasher(2), key_equal(2), allocator_type(3));
X x3({1}, 0, hasher(2), key_equal(2), allocator_type(3));
BOOST_TEST_EQ(x1.size(), x2.size());
BOOST_TEST(x1 == x2);
BOOST_TEST(!(x1 != x2));
BOOST_TEST(x1.size() != x3.size());
BOOST_TEST(!(x1 == x3));
BOOST_TEST(x1 != x3);
}
}
template <class X, class GF>
void insert_and_compare(X*, GF gen_factory, test::random_generator rg)
{
using allocator_type = typename X::allocator_type;
auto gen = gen_factory.template get<X>();
auto vals1 = make_random_values(1024 * 8, [&] { return gen(rg); });
auto reference_cont = reference_container<X>(vals1.begin(), vals1.end());
{
raii::reset_counts();
X x1(vals1.size(), hasher(1), key_equal(2), allocator_type(3));
X x2(vals1.begin(), vals1.end(), vals1.size(), hasher(2),
key_equal(2), allocator_type(3));
std::thread t1, t2;
std::mutex m;
std::condition_variable cv;
std::atomic_bool done{false};
std::atomic<unsigned> num_compares{0};
bool ready = false;
BOOST_TEST(x1.empty());
t1 = std::thread([&x1, &m, &cv, &vals1, &done, &ready] {
for (std::size_t idx = 0; idx < vals1.size(); ++idx) {
auto const& v = vals1[idx];
x1.insert(v);
if (idx % (vals1.size() / 128) == 0) {
{
std::unique_lock<std::mutex> lk(m);
ready = true;
}
cv.notify_all();
}
std::this_thread::yield();
}
done = true;
{
std::unique_lock<std::mutex> lk(m);
ready = true;
}
cv.notify_all();
});
t2 = std::thread([&x1, &x2, &m, &cv, &done, &num_compares, &ready] {
do {
{
std::unique_lock<std::mutex> lk(m);
cv.wait(lk, [&ready] { return ready; });
ready = false;
}
volatile bool b = false;
b = x1 == x2;
b = x1 != x2;
b;
++num_compares;
std::this_thread::yield();
} while (!done);
BOOST_TEST(done);
});
t1.join();
t2.join();
BOOST_TEST_GE(num_compares, 1u);
BOOST_TEST(x1 == x2);
BOOST_TEST(!(x1 != x2));
test_matches_reference(x1, reference_cont);
}
check_raii_counts();
}
} // namespace
// clang-format off
UNORDERED_TEST(
simple_map_equality,
((test_map)(test_node_map)))
UNORDERED_TEST(
simple_set_equality,
((test_set)(test_node_set)))
UNORDERED_TEST(
insert_and_compare,
((test_map)(test_node_map)(test_set)(test_node_set))
((value_type_generator_factory))
((default_generator)(sequential)(limited_range)))
// clang-format on
RUN_TESTS()
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