#include "exception_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>
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;
std::initializer_list<map_type::value_type> map_init_list{
{raii{0}, raii{0}},
{raii{1}, raii{1}},
{raii{2}, raii{2}},
{raii{3}, raii{3}},
{raii{4}, raii{4}},
{raii{5}, raii{5}},
{raii{6}, raii{6}},
{raii{6}, raii{6}},
{raii{7}, raii{7}},
{raii{8}, raii{8}},
{raii{9}, raii{9}},
{raii{10}, raii{10}},
{raii{9}, raii{9}},
{raii{8}, raii{8}},
{raii{7}, raii{7}},
{raii{6}, raii{6}},
{raii{5}, raii{5}},
{raii{4}, raii{4}},
{raii{3}, raii{3}},
{raii{2}, raii{2}},
{raii{1}, raii{1}},
{raii{0}, raii{0}},
};
std::initializer_list<set_type::value_type> set_init_list{
raii{0},
raii{1},
raii{2},
raii{3},
raii{4},
raii{5},
raii{6},
raii{6},
raii{7},
raii{8},
raii{9},
raii{10},
raii{9},
raii{8},
raii{7},
raii{6},
raii{5},
raii{4},
raii{3},
raii{2},
raii{1},
raii{0},
};
auto test_map_and_init_list=std::make_pair(test_map,map_init_list);
auto test_node_map_and_init_list=std::make_pair(test_node_map,map_init_list);
auto test_set_and_init_list=std::make_pair(test_set,set_init_list);
auto test_node_set_and_init_list=std::make_pair(test_node_set,set_init_list);
namespace {
test::seed_t initialize_seed(1794114520);
template <class X, class GF>
void copy_assign(X*, GF gen_factory, test::random_generator rg)
{
using allocator_type = typename X::allocator_type;
auto gen = gen_factory.template get<X>();
auto values = make_random_values(1024 * 16, [&] { return gen(rg); });
{
raii::reset_counts();
unsigned num_throws = 0;
auto begin = values.begin();
auto mid =
values.begin() + static_cast<std::ptrdiff_t>(values.size() / 2);
auto end = values.end();
auto reference_cont = reference_container<X>(begin, mid);
X x(
begin, mid, values.size(), hasher(1), key_equal(2), allocator_type(3));
X y(
mid, end, values.size(), hasher(2), key_equal(1), allocator_type(4));
BOOST_TEST(!y.empty());
enable_exceptions();
for (std::size_t i = 0; i < 2 * alloc_throw_threshold; ++i) {
try {
y = x;
} catch (...) {
++num_throws;
}
}
disable_exceptions();
BOOST_TEST_GT(num_throws, 0u);
test_fuzzy_matches_reference(y, reference_cont, rg);
}
check_raii_counts();
}
template <class X, class GF>
void move_assign(X*, GF gen_factory, test::random_generator rg)
{
using allocator_type = typename X::allocator_type;
auto gen = gen_factory.template get<X>();
auto values = make_random_values(1024 * 16, [&] { return gen(rg); });
{
raii::reset_counts();
unsigned num_throws = 0;
auto begin = values.begin();
auto mid =
values.begin() + static_cast<std::ptrdiff_t>(values.size() / 2);
auto end = values.end();
auto reference_cont = reference_container<X>(begin, mid);
BOOST_TEST(
!boost::allocator_is_always_equal<allocator_type>::type::value);
BOOST_TEST(!boost::allocator_propagate_on_container_move_assignment<
allocator_type>::type::value);
for (std::size_t i = 0; i < 2 * alloc_throw_threshold; ++i) {
disable_exceptions();
X x(begin, mid, values.size(), hasher(1), key_equal(2),
allocator_type(3));
X y(
mid, end, values.size(), hasher(2), key_equal(1), allocator_type(4));
enable_exceptions();
try {
y = std::move(x);
} catch (...) {
++num_throws;
}
disable_exceptions();
test_fuzzy_matches_reference(y, reference_cont, rg);
}
BOOST_TEST_GT(num_throws, 0u);
}
check_raii_counts();
}
template <class X, class IL>
void intializer_list_assign(std::pair<X*, IL> p)
{
using allocator_type = typename X::allocator_type;
auto init_list = p.second;
{
raii::reset_counts();
unsigned num_throws = 0;
for (std::size_t i = 0; i < throw_threshold; ++i) {
X x(0, hasher(1), key_equal(2), allocator_type(3));
enable_exceptions();
try {
x = init_list;
} catch (...) {
++num_throws;
}
disable_exceptions();
}
BOOST_TEST_GT(num_throws, 0u);
check_raii_counts();
}
}
}
using test::default_generator;
using test::limited_range;
using test::sequential;
UNORDERED_TEST(
copy_assign,
((test_map)(test_node_map)(test_set)(test_node_set))
((exception_value_type_generator_factory))
((default_generator)(sequential)(limited_range)))
UNORDERED_TEST(
move_assign,
((test_map)(test_node_map)(test_set)(test_node_set))
((exception_value_type_generator_factory))
((default_generator)(sequential)))
UNORDERED_TEST(
intializer_list_assign,
((test_map_and_init_list)(test_node_map_and_init_list)
(test_set_and_init_list)(test_node_set_and_init_list)))
RUN_TESTS()