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619 lines (521 loc) · 21.8 KB
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// Copyright 2006-2009 Daniel James.
// Copyright (C) 2022-2023 Christian Mazakas
// 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/unordered.hpp"
#include "../helpers/equivalent.hpp"
#include "../helpers/invariants.hpp"
#include "../helpers/random_values.hpp"
#include "../helpers/test.hpp"
#include "../helpers/tracker.hpp"
#include "../objects/cxx11_allocator.hpp"
#include "../objects/test.hpp"
test::seed_t initialize_seed(9063);
namespace copy_tests {
template <class T>
void copy_construct_tests1(T*, test::random_generator const& generator)
{
typedef typename T::allocator_type allocator_type;
typename T::hasher hf;
typename T::key_equal eq;
typename T::allocator_type al;
{
test::check_instances check_;
T x;
T y(x);
BOOST_TEST(y.empty());
BOOST_TEST(test::equivalent(y.hash_function(), hf));
BOOST_TEST(test::equivalent(y.key_eq(), eq));
BOOST_TEST(test::equivalent(y.get_allocator(), al));
BOOST_TEST(x.max_load_factor() == y.max_load_factor());
BOOST_TEST(test::selected_count(y.get_allocator()) ==
(allocator_type::is_select_on_copy));
BOOST_TEST(test::detail::tracker.count_allocations == 0);
test::check_equivalent_keys(y);
}
{
test::check_instances check_;
T x(0);
T y(x);
BOOST_TEST(y.empty());
BOOST_TEST(test::equivalent(y.hash_function(), hf));
BOOST_TEST(test::equivalent(y.key_eq(), eq));
BOOST_TEST(test::equivalent(y.get_allocator(), al));
BOOST_TEST(x.max_load_factor() == y.max_load_factor());
BOOST_TEST(test::selected_count(y.get_allocator()) ==
(allocator_type::is_select_on_copy));
BOOST_TEST(test::detail::tracker.count_allocations == 0);
test::check_equivalent_keys(y);
}
{
test::check_instances check_;
test::random_values<T> v(1000, generator);
T x(v.begin(), v.end());
T y(x);
test::unordered_equivalence_tester<T> equivalent(x);
BOOST_TEST(equivalent(y));
BOOST_TEST(test::selected_count(y.get_allocator()) ==
(allocator_type::is_select_on_copy));
test::check_equivalent_keys(y);
}
{
test::check_instances check_;
// In this test I drop the original containers max load factor, so it
// is much lower than the load factor. The hash table is not allowed
// to rehash, but the destination container should probably allocate
// enough buckets to decrease the load factor appropriately.
test::random_values<T> v(1000, generator);
T x(v.begin(), v.end());
x.max_load_factor(x.load_factor() / 4);
T y(x);
test::unordered_equivalence_tester<T> equivalent(x);
BOOST_TEST(equivalent(y));
// This isn't guaranteed:
BOOST_TEST(y.load_factor() < y.max_load_factor());
BOOST_TEST(test::selected_count(y.get_allocator()) ==
(allocator_type::is_select_on_copy));
test::check_equivalent_keys(y);
}
}
template <class T>
void copy_construct_tests2(T*, test::random_generator const& generator)
{
typename T::hasher hf(1);
typename T::key_equal eq(1);
typename T::allocator_type al(1);
typename T::allocator_type al2(2);
typedef typename T::allocator_type allocator_type;
{
test::check_instances check_;
T x(0, hf, eq, al);
T y(x);
BOOST_TEST(y.empty());
BOOST_TEST(test::equivalent(y.hash_function(), hf));
BOOST_TEST(test::equivalent(y.key_eq(), eq));
BOOST_TEST(test::equivalent(y.get_allocator(), al));
BOOST_TEST(x.max_load_factor() == y.max_load_factor());
BOOST_TEST(test::selected_count(y.get_allocator()) ==
(allocator_type::is_select_on_copy));
BOOST_TEST(test::detail::tracker.count_allocations == 0);
test::check_equivalent_keys(y);
}
{
test::check_instances check_;
T x(10000, hf, eq, al);
T y(x);
BOOST_TEST(y.empty());
BOOST_TEST(test::equivalent(y.hash_function(), hf));
BOOST_TEST(test::equivalent(y.key_eq(), eq));
BOOST_TEST(test::equivalent(y.get_allocator(), al));
BOOST_TEST(x.max_load_factor() == y.max_load_factor());
BOOST_TEST(test::selected_count(y.get_allocator()) ==
(allocator_type::is_select_on_copy));
test::check_equivalent_keys(y);
}
{
test::check_instances check_;
T x(0, hf, eq, al);
T y(x, al2);
BOOST_TEST(y.empty());
BOOST_TEST(test::equivalent(y.hash_function(), hf));
BOOST_TEST(test::equivalent(y.key_eq(), eq));
BOOST_TEST(test::equivalent(y.get_allocator(), al2));
BOOST_TEST(x.max_load_factor() == y.max_load_factor());
BOOST_TEST(test::selected_count(y.get_allocator()) == 0);
BOOST_TEST(test::detail::tracker.count_allocations == 0);
test::check_equivalent_keys(y);
}
{
test::check_instances check_;
T x(1000, hf, eq, al);
T y(x, al2);
BOOST_TEST(y.empty());
BOOST_TEST(test::equivalent(y.hash_function(), hf));
BOOST_TEST(test::equivalent(y.key_eq(), eq));
BOOST_TEST(test::equivalent(y.get_allocator(), al2));
BOOST_TEST(x.max_load_factor() == y.max_load_factor());
BOOST_TEST(test::selected_count(y.get_allocator()) == 0);
test::check_equivalent_keys(y);
}
{
test::check_instances check_;
test::random_values<T> v;
T x(v.begin(), v.end(), 0, hf, eq, al);
T y(x);
test::unordered_equivalence_tester<T> equivalent(x);
BOOST_TEST(equivalent(y));
test::check_equivalent_keys(y);
BOOST_TEST(test::selected_count(y.get_allocator()) ==
(allocator_type::is_select_on_copy));
BOOST_TEST(test::equivalent(y.get_allocator(), al));
BOOST_TEST(test::detail::tracker.count_allocations == 0);
}
{
test::check_instances check_;
test::random_values<T> v(1000, generator);
T x(v.begin(), v.end(), 0, hf, eq, al);
T y(x);
test::unordered_equivalence_tester<T> equivalent(x);
BOOST_TEST(equivalent(y));
test::check_equivalent_keys(y);
BOOST_TEST(test::selected_count(y.get_allocator()) ==
(allocator_type::is_select_on_copy));
BOOST_TEST(test::equivalent(y.get_allocator(), al));
}
{
test::check_instances check_;
test::random_values<T> v;
T x(v.begin(), v.end(), 0, hf, eq, al);
T y(x, al2);
test::unordered_equivalence_tester<T> equivalent(x);
BOOST_TEST(equivalent(y));
test::check_equivalent_keys(y);
BOOST_TEST(test::selected_count(y.get_allocator()) == 0);
BOOST_TEST(test::equivalent(y.get_allocator(), al2));
BOOST_TEST(test::detail::tracker.count_allocations == 0);
}
{
test::check_instances check_;
test::random_values<T> v(500, generator);
T x(v.begin(), v.end(), 0, hf, eq, al);
T y(x, al2);
test::unordered_equivalence_tester<T> equivalent(x);
BOOST_TEST(equivalent(y));
test::check_equivalent_keys(y);
BOOST_TEST(test::selected_count(y.get_allocator()) == 0);
BOOST_TEST(test::equivalent(y.get_allocator(), al2));
}
}
template <class T>
void copy_construct_tests_std_allocator1(
T*, test::random_generator const& generator)
{
typename T::hasher hf;
typename T::key_equal eq;
typename T::allocator_type al;
{
test::check_instances check_;
T x;
T y(x);
BOOST_TEST(y.empty());
BOOST_TEST(test::equivalent(y.hash_function(), hf));
BOOST_TEST(test::equivalent(y.key_eq(), eq));
BOOST_TEST(test::equivalent(y.get_allocator(), al));
BOOST_TEST(x.max_load_factor() == y.max_load_factor());
BOOST_TEST(test::detail::tracker.count_allocations == 0);
test::check_equivalent_keys(y);
}
{
test::check_instances check_;
T x(0);
T y(x);
BOOST_TEST(y.empty());
BOOST_TEST(test::equivalent(y.hash_function(), hf));
BOOST_TEST(test::equivalent(y.key_eq(), eq));
BOOST_TEST(test::equivalent(y.get_allocator(), al));
BOOST_TEST(x.max_load_factor() == y.max_load_factor());
BOOST_TEST(test::detail::tracker.count_allocations == 0);
test::check_equivalent_keys(y);
}
{
test::check_instances check_;
test::random_values<T> v(1000, generator);
T x(v.begin(), v.end());
T y(x);
test::unordered_equivalence_tester<T> equivalent(x);
BOOST_TEST(equivalent(y));
test::check_equivalent_keys(y);
}
{
test::check_instances check_;
// In this test I drop the original containers max load factor, so it
// is much lower than the load factor. The hash table is not allowed
// to rehash, but the destination container should probably allocate
// enough buckets to decrease the load factor appropriately.
test::random_values<T> v(1000, generator);
T x(v.begin(), v.end());
x.max_load_factor(x.load_factor() / 4);
T y(x);
test::unordered_equivalence_tester<T> equivalent(x);
BOOST_TEST(equivalent(y));
// This isn't guaranteed:
BOOST_TEST(y.load_factor() < y.max_load_factor());
test::check_equivalent_keys(y);
}
}
template <class T>
void copy_construct_tests_std_allocator2(
T*, test::random_generator const& generator)
{
typename T::hasher hf(1);
typename T::key_equal eq(1);
typename T::allocator_type al;
{
test::check_instances check_;
T x(0, hf, eq, al);
T y(x);
BOOST_TEST(y.empty());
BOOST_TEST(test::equivalent(y.hash_function(), hf));
BOOST_TEST(test::equivalent(y.key_eq(), eq));
BOOST_TEST(test::equivalent(y.get_allocator(), al));
BOOST_TEST(x.max_load_factor() == y.max_load_factor());
BOOST_TEST(test::detail::tracker.count_allocations == 0);
test::check_equivalent_keys(y);
}
{
test::check_instances check_;
T x(10000, hf, eq, al);
T y(x);
BOOST_TEST(y.empty());
BOOST_TEST(test::equivalent(y.hash_function(), hf));
BOOST_TEST(test::equivalent(y.key_eq(), eq));
BOOST_TEST(test::equivalent(y.get_allocator(), al));
BOOST_TEST(x.max_load_factor() == y.max_load_factor());
test::check_equivalent_keys(y);
}
{
test::check_instances check_;
T x(0, hf, eq, al);
T y(x, al);
BOOST_TEST(y.empty());
BOOST_TEST(test::equivalent(y.hash_function(), hf));
BOOST_TEST(test::equivalent(y.key_eq(), eq));
BOOST_TEST(test::equivalent(y.get_allocator(), al));
BOOST_TEST(x.max_load_factor() == y.max_load_factor());
BOOST_TEST(test::selected_count(y.get_allocator()) == 0);
BOOST_TEST(test::detail::tracker.count_allocations == 0);
test::check_equivalent_keys(y);
}
{
test::check_instances check_;
T x(1000, hf, eq, al);
T y(x, al);
BOOST_TEST(y.empty());
BOOST_TEST(test::equivalent(y.hash_function(), hf));
BOOST_TEST(test::equivalent(y.key_eq(), eq));
BOOST_TEST(test::equivalent(y.get_allocator(), al));
BOOST_TEST(x.max_load_factor() == y.max_load_factor());
BOOST_TEST(test::selected_count(y.get_allocator()) == 0);
test::check_equivalent_keys(y);
}
{
test::check_instances check_;
test::random_values<T> v;
T x(v.begin(), v.end(), 0, hf, eq, al);
T y(x);
test::unordered_equivalence_tester<T> equivalent(x);
BOOST_TEST(equivalent(y));
test::check_equivalent_keys(y);
BOOST_TEST(test::equivalent(y.get_allocator(), al));
BOOST_TEST(test::detail::tracker.count_allocations == 0);
}
{
test::check_instances check_;
test::random_values<T> v(1000, generator);
T x(v.begin(), v.end(), 0, hf, eq, al);
T y(x);
test::unordered_equivalence_tester<T> equivalent(x);
BOOST_TEST(equivalent(y));
test::check_equivalent_keys(y);
BOOST_TEST(test::equivalent(y.get_allocator(), al));
}
{
test::check_instances check_;
test::random_values<T> v;
T x(v.begin(), v.end(), 0, hf, eq, al);
T y(x, al);
test::unordered_equivalence_tester<T> equivalent(x);
BOOST_TEST(equivalent(y));
test::check_equivalent_keys(y);
BOOST_TEST(test::selected_count(y.get_allocator()) == 0);
BOOST_TEST(test::equivalent(y.get_allocator(), al));
BOOST_TEST(test::detail::tracker.count_allocations == 0);
}
{
test::check_instances check_;
test::random_values<T> v(500, generator);
T x(v.begin(), v.end(), 0, hf, eq, al);
T y(x, al);
test::unordered_equivalence_tester<T> equivalent(x);
BOOST_TEST(equivalent(y));
test::check_equivalent_keys(y);
BOOST_TEST(test::selected_count(y.get_allocator()) == 0);
BOOST_TEST(test::equivalent(y.get_allocator(), al));
}
}
using test::default_generator;
using test::generate_collisions;
using test::limited_range;
#ifdef BOOST_UNORDERED_FOA_TESTS
template <class T> struct allocator
{
using value_type = T;
allocator() = default;
allocator(allocator const&) = default;
allocator(allocator&&) = default;
template <class U> allocator(allocator<U> const&) {}
T* allocate(std::size_t n)
{
return static_cast<T*>(::operator new(sizeof(value_type) * n));
}
void deallocate(T* p, std::size_t) { ::operator delete(p); }
friend inline bool operator==(allocator const&, allocator const&)
{
return true;
}
friend inline bool operator!=(allocator const&, allocator const&)
{
return false;
}
};
boost::unordered_flat_set<test::object, test::hash, test::equal_to,
test::allocator1<test::object> >* test_set;
boost::unordered_flat_map<test::object, test::object, test::hash,
test::equal_to, test::allocator1<test::object> >* test_map;
boost::unordered_flat_set<test::object, test::hash, test::equal_to,
test::cxx11_allocator<test::object, test::select_copy> >*
test_set_select_copy;
boost::unordered_flat_map<test::object, test::object, test::hash,
test::equal_to, test::cxx11_allocator<test::object, test::select_copy> >*
test_map_select_copy;
boost::unordered_flat_set<test::object, test::hash, test::equal_to,
test::cxx11_allocator<test::object, test::no_select_copy> >*
test_set_no_select_copy;
boost::unordered_flat_map<test::object, test::object, test::hash,
test::equal_to, test::cxx11_allocator<test::object, test::no_select_copy> >*
test_map_no_select_copy;
boost::unordered_flat_set<int, test::hash, test::equal_to,
test::allocator1<int> >* test_set_trivially_copyable;
boost::unordered_flat_map<int, int, test::hash, test::equal_to,
test::allocator1<std::pair<int const, int> > >* test_map_trivially_copyable;
boost::unordered_flat_set<int, test::hash, test::equal_to,
std::allocator<int> >* test_set_trivially_copyable_std_allocator;
boost::unordered_flat_map<int, int, test::hash, test::equal_to,
std::allocator<std::pair<int const, int> > >*
test_map_trivially_copyable_std_allocator;
boost::unordered_flat_set<int, test::hash, test::equal_to, allocator<int> >*
test_set_trivially_copyable_no_construct;
boost::unordered_flat_map<int, int, test::hash, test::equal_to,
allocator<std::pair<int const, int> > >*
test_map_trivially_copyable_no_construct;
boost::unordered_node_set<test::object, test::hash, test::equal_to,
test::allocator1<test::object> >* test_node_set;
boost::unordered_node_map<test::object, test::object, test::hash,
test::equal_to, test::allocator1<test::object> >* test_node_map;
boost::unordered_node_set<test::object, test::hash, test::equal_to,
test::cxx11_allocator<test::object, test::select_copy> >*
test_node_set_select_copy;
boost::unordered_node_map<test::object, test::object, test::hash,
test::equal_to, test::cxx11_allocator<test::object, test::select_copy> >*
test_node_map_select_copy;
boost::unordered_node_set<test::object, test::hash, test::equal_to,
test::cxx11_allocator<test::object, test::no_select_copy> >*
test_node_set_no_select_copy;
boost::unordered_node_map<test::object, test::object, test::hash,
test::equal_to, test::cxx11_allocator<test::object, test::no_select_copy> >*
test_node_map_no_select_copy;
boost::unordered_node_set<int, test::hash, test::equal_to,
test::allocator1<int> >* test_node_set_trivially_copyable;
boost::unordered_node_map<int, int, test::hash, test::equal_to,
test::allocator1<std::pair<int const, int> > >*
test_node_map_trivially_copyable;
boost::unordered_node_set<int, test::hash, test::equal_to,
std::allocator<int> >* test_node_set_trivially_copyable_std_allocator;
boost::unordered_node_map<int, int, test::hash, test::equal_to,
std::allocator<std::pair<int const, int> > >*
test_node_map_trivially_copyable_std_allocator;
boost::unordered_node_set<int, test::hash, test::equal_to, allocator<int> >*
test_node_set_trivially_copyable_no_construct;
boost::unordered_node_map<int, int, test::hash, test::equal_to,
allocator<std::pair<int const, int> > >*
test_node_map_trivially_copyable_no_construct;
// clang-format off
UNORDERED_TEST(copy_construct_tests1,
((test_set)(test_map)(test_set_select_copy)(test_map_select_copy)
(test_set_no_select_copy)(test_map_no_select_copy)
(test_set_trivially_copyable)(test_map_trivially_copyable)
(test_node_set)(test_node_map)(test_node_set_select_copy)(test_node_map_select_copy)
(test_node_set_no_select_copy)(test_node_map_no_select_copy)
(test_node_set_trivially_copyable)(test_node_map_trivially_copyable))
((default_generator)(generate_collisions)(limited_range)))
UNORDERED_TEST(copy_construct_tests2,
((test_set)(test_map)(test_set_select_copy)(test_map_select_copy)
(test_set_no_select_copy)(test_map_no_select_copy)
(test_set_trivially_copyable)(test_map_trivially_copyable)
(test_node_set)(test_node_map)(test_node_set_select_copy)(test_node_map_select_copy)
(test_node_set_no_select_copy)(test_node_map_no_select_copy)
(test_node_set_trivially_copyable)(test_node_map_trivially_copyable))
((default_generator)(generate_collisions)(limited_range)))
UNORDERED_TEST(copy_construct_tests_std_allocator1,
((test_set_trivially_copyable_std_allocator)
(test_map_trivially_copyable_std_allocator)
(test_set_trivially_copyable_no_construct)
(test_map_trivially_copyable_no_construct)
(test_node_set_trivially_copyable_std_allocator)
(test_node_map_trivially_copyable_std_allocator)
(test_node_set_trivially_copyable_no_construct)
(test_node_map_trivially_copyable_no_construct))
((default_generator)(generate_collisions)(limited_range)))
UNORDERED_TEST(copy_construct_tests_std_allocator2,
((test_set_trivially_copyable_std_allocator)
(test_map_trivially_copyable_std_allocator)
(test_set_trivially_copyable_no_construct)
(test_map_trivially_copyable_no_construct)
(test_node_set_trivially_copyable_std_allocator)
(test_node_map_trivially_copyable_std_allocator)
(test_node_set_trivially_copyable_no_construct)
(test_node_map_trivially_copyable_no_construct))
((default_generator)(generate_collisions)(limited_range)))
// clang-format on
#else
boost::unordered_set<test::object, test::hash, test::equal_to,
test::allocator1<test::object> >* test_set;
boost::unordered_multiset<test::object, test::hash, test::equal_to,
test::allocator2<test::object> >* test_multiset;
boost::unordered_map<test::object, test::object, test::hash, test::equal_to,
test::allocator1<test::object> >* test_map;
boost::unordered_multimap<test::object, test::object, test::hash,
test::equal_to, test::allocator2<test::object> >* test_multimap;
boost::unordered_set<test::object, test::hash, test::equal_to,
test::cxx11_allocator<test::object, test::select_copy> >*
test_set_select_copy;
boost::unordered_multiset<test::object, test::hash, test::equal_to,
test::cxx11_allocator<test::object, test::select_copy> >*
test_multiset_select_copy;
boost::unordered_map<test::object, test::object, test::hash, test::equal_to,
test::cxx11_allocator<test::object, test::select_copy> >*
test_map_select_copy;
boost::unordered_multimap<test::object, test::object, test::hash,
test::equal_to, test::cxx11_allocator<test::object, test::select_copy> >*
test_multimap_select_copy;
boost::unordered_set<test::object, test::hash, test::equal_to,
test::cxx11_allocator<test::object, test::no_select_copy> >*
test_set_no_select_copy;
boost::unordered_multiset<test::object, test::hash, test::equal_to,
test::cxx11_allocator<test::object, test::no_select_copy> >*
test_multiset_no_select_copy;
boost::unordered_map<test::object, test::object, test::hash, test::equal_to,
test::cxx11_allocator<test::object, test::no_select_copy> >*
test_map_no_select_copy;
boost::unordered_multimap<test::object, test::object, test::hash,
test::equal_to, test::cxx11_allocator<test::object, test::no_select_copy> >*
test_multimap_no_select_copy;
// clang-format off
UNORDERED_TEST(copy_construct_tests1,
((test_set)(test_multiset)(test_map)(test_multimap)
(test_set_select_copy)(test_multiset_select_copy)
(test_map_select_copy)(test_multimap_select_copy)
(test_set_no_select_copy)(test_multiset_no_select_copy)
(test_map_no_select_copy)(test_multimap_no_select_copy))(
(default_generator)(generate_collisions)(limited_range)))
UNORDERED_TEST(copy_construct_tests2,
((test_set)(test_multiset)(test_map)(test_multimap)
(test_set_select_copy)(test_multiset_select_copy)
(test_map_select_copy)(test_multimap_select_copy)
(test_set_no_select_copy)(test_multiset_no_select_copy)
(test_map_no_select_copy)(test_multimap_no_select_copy))(
(default_generator)(generate_collisions)(limited_range)))
// clang-format on
#endif
} // namespace copy_tests
RUN_TESTS()