// Copyright 2006-2009 Daniel James.
// 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 "./containers.hpp"
#include "../helpers/helpers.hpp"
#include "../helpers/invariants.hpp"
#include "../helpers/random_values.hpp"
#include "../helpers/strong.hpp"
#include "../helpers/tracker.hpp"
#include <cmath>
#include <string>
test::seed_t initialize_seed(747373);
// Fill in a container so that it's about to rehash
template <typename T> void rehash_prep(T& x)
{
using namespace std;
typedef typename T::size_type size_type;
x.max_load_factor(0.25);
size_type bucket_count = x.bucket_count();
size_type initial_elements = static_cast<size_type>(
ceil((double)bucket_count * (double)x.max_load_factor()) - 1);
test::random_values<T> v(initial_elements);
x.insert(v.begin(), v.end());
BOOST_TEST(bucket_count == x.bucket_count());
}
// Overload to generate inserters that need type information.
template <typename Inserter, typename T>
Inserter generate(Inserter inserter, T&)
{
return inserter;
}
// Get the iterator returned from an insert/emplace.
template <typename T> T get_iterator(T const& x) { return x; }
template <typename T> T get_iterator(std::pair<T, bool> const& x)
{
return x.first;
}
// Generic insert exception test for typical single element inserts..
template <typename T, typename Inserter, typename Values>
void insert_exception_test_impl(T x, Inserter insert, Values const& v)
{
test::strong<T> strong;
test::ordered<T> tracker;
tracker.insert(x.begin(), x.end());
try {
ENABLE_EXCEPTIONS;
for (typename Values::const_iterator it = v.begin(); it != v.end(); ++it) {
strong.store(x, test::detail::tracker.count_allocations);
insert(x, it);
}
} catch (...) {
test::check_equivalent_keys(x);
insert.exception_check(x, strong);
throw;
}
test::check_equivalent_keys(x);
insert.track(tracker, v.begin(), v.end());
tracker.compare(x);
}
// Simple insert exception test
template <typename T, typename Inserter>
void insert_exception_test(T*, Inserter insert, test::random_generator gen)
{
for (int i = 0; i < 5; ++i) {
test::random_values<T> v(10, gen);
T x;
EXCEPTION_LOOP(insert_exception_test_impl(x, generate(insert, x), v));
}
}
// Insert into a container which is about to hit its max load, so that it
// rehashes.
template <typename T, typename Inserter>
void insert_rehash_exception_test(
T*, Inserter insert, test::random_generator gen)
{
for (int i = 0; i < 5; ++i) {
T x;
rehash_prep(x);
test::random_values<T> v2(5, gen);
EXCEPTION_LOOP(insert_exception_test_impl(x, generate(insert, x), v2));
}
}
// Various methods for inserting a single element
struct inserter_base
{
template <typename T> void exception_check(T& x, test::strong<T>& strong)
{
std::string scope(test::scope);
if (scope.find("hash::operator()") == std::string::npos)
strong.test(x, test::detail::tracker.count_allocations);
}
template <typename T, typename Iterator>
void track(T& tracker, Iterator begin, Iterator end)
{
tracker.insert(begin, end);
}
};
struct insert_lvalue_type : inserter_base
{
template <typename T, typename Iterator> void operator()(T& x, Iterator it)
{
x.insert(*it);
}
} insert_lvalue;
struct insert_lvalue_begin_type : inserter_base
{
template <typename T, typename Iterator> void operator()(T& x, Iterator it)
{
x.insert(x.begin(), *it);
}
} insert_lvalue_begin;
struct insert_lvalue_end_type : inserter_base
{
template <typename T, typename Iterator> void operator()(T& x, Iterator it)
{
x.insert(x.end(), *it);
}
} insert_lvalue_end;
template <typename T> struct insert_lvalue_pos_type_impl : inserter_base
{
typename T::iterator pos;
insert_lvalue_pos_type_impl(T& x) : pos(x.begin()) {}
template <typename Iterator> void operator()(T& x, Iterator it)
{
pos = get_iterator(x.insert(pos, *it));
}
};
struct insert_lvalue_pos_type
{
template <typename T>
friend insert_lvalue_pos_type_impl<T> generate(insert_lvalue_pos_type, T& x)
{
return insert_lvalue_pos_type_impl<T>(x);
}
} insert_lvalue_pos;
struct insert_single_item_range_type : inserter_base
{
template <typename T, typename Iterator> void operator()(T& x, Iterator it)
{
x.insert(it, test::next(it));
}
} insert_single_item_range;
struct emplace_lvalue_type : inserter_base
{
template <typename T, typename Iterator> void operator()(T& x, Iterator it)
{
x.emplace(*it);
}
} emplace_lvalue;
struct emplace_lvalue_begin_type : inserter_base
{
template <typename T, typename Iterator> void operator()(T& x, Iterator it)
{
x.emplace_hint(x.begin(), *it);
}
} emplace_lvalue_begin;
struct emplace_lvalue_end_type : inserter_base
{
template <typename T, typename Iterator> void operator()(T& x, Iterator it)
{
x.emplace_hint(x.end(), *it);
}
} emplace_lvalue_end;
template <typename T> struct emplace_lvalue_pos_type_impl : inserter_base
{
typename T::iterator pos;
emplace_lvalue_pos_type_impl(T& x) : pos(x.begin()) {}
template <typename Iterator> void operator()(T& x, Iterator it)
{
pos = get_iterator(x.emplace_hint(pos, *it));
}
};
struct emplace_lvalue_pos_type
{
template <typename T>
friend emplace_lvalue_pos_type_impl<T> generate(emplace_lvalue_pos_type, T& x)
{
return emplace_lvalue_pos_type_impl<T>(x);
}
} emplace_lvalue_pos;
// Run the exception tests in various combinations.
test_set* test_set_;
test_multiset* test_multiset_;
test_map* test_map_;
test_multimap* test_multimap_;
using test::default_generator;
using test::limited_range;
using test::generate_collisions;
// clang-format off
UNORDERED_TEST(insert_exception_test,
((test_set_)(test_multiset_)(test_map_)(test_multimap_))
((insert_lvalue)(insert_lvalue_begin)(insert_lvalue_end)
(insert_lvalue_pos)(insert_single_item_range)
(emplace_lvalue)(emplace_lvalue_begin)(emplace_lvalue_end)
(emplace_lvalue_pos)
)
((default_generator)(limited_range)(generate_collisions))
)
UNORDERED_TEST(insert_rehash_exception_test,
((test_set_)(test_multiset_)(test_map_)(test_multimap_))
((insert_lvalue)(insert_lvalue_begin)(insert_lvalue_end)
(insert_lvalue_pos)(insert_single_item_range)
(emplace_lvalue)(emplace_lvalue_begin)(emplace_lvalue_end)
(emplace_lvalue_pos)
)
((default_generator)(limited_range)(generate_collisions))
)
// clang-format on
// Repeat insert tests with pairs
struct pair_emplace_type : inserter_base
{
template <typename T, typename Iterator> void operator()(T& x, Iterator it)
{
x.emplace(boost::unordered::piecewise_construct,
boost::make_tuple(it->first), boost::make_tuple(it->second));
}
} pair_emplace;
struct pair_emplace2_type : inserter_base
{
template <typename T, typename Iterator> void operator()(T& x, Iterator it)
{
x.emplace_hint(x.begin(), boost::unordered::piecewise_construct,
boost::make_tuple(it->first),
boost::make_tuple(it->second.tag1_, it->second.tag2_));
}
} pair_emplace2;
test_pair_set* test_pair_set_;
test_pair_multiset* test_pair_multiset_;
// clang-format off
UNORDERED_TEST(insert_exception_test,
((test_pair_set_)(test_pair_multiset_)(test_map_)(test_multimap_))
((pair_emplace)(pair_emplace2))
((default_generator)(limited_range)(generate_collisions))
)
UNORDERED_TEST(insert_rehash_exception_test,
((test_pair_set_)(test_pair_multiset_)(test_map_)(test_multimap_))
((pair_emplace)(pair_emplace2))
((default_generator)(limited_range)(generate_collisions))
)
// clang-format on
// Test inserting using operator[]
struct try_emplace_type : inserter_base
{
template <typename T, typename Iterator> void operator()(T& x, Iterator it)
{
x.try_emplace(it->first, it->second);
}
} try_emplace;
struct try_emplace2_type : inserter_base
{
template <typename T, typename Iterator> void operator()(T& x, Iterator it)
{
x.try_emplace(it->first, it->second.tag1_, it->second.tag2_);
}
} try_emplace2;
struct map_inserter_base
{
template <typename T> void exception_check(T& x, test::strong<T>& strong)
{
std::string scope(test::scope);
if (scope.find("hash::operator()") == std::string::npos &&
scope.find("::operator=") == std::string::npos)
strong.test(x, test::detail::tracker.count_allocations);
}
template <typename T, typename Iterator>
void track(T& tracker, Iterator begin, Iterator end)
{
for (; begin != end; ++begin) {
tracker[begin->first] = begin->second;
}
}
};
struct map_insert_operator_type : map_inserter_base
{
template <typename T, typename Iterator> void operator()(T& x, Iterator it)
{
x[it->first] = it->second;
}
} map_insert_operator;
struct map_insert_or_assign_type : map_inserter_base
{
template <typename T, typename Iterator> void operator()(T& x, Iterator it)
{
x.insert_or_assign(it->first, it->second);
}
} map_insert_or_assign;
// clang-format off
UNORDERED_TEST(insert_exception_test,
((test_map_))
((try_emplace)(try_emplace2)(map_insert_operator)(map_insert_or_assign))
((default_generator)(limited_range)(generate_collisions))
)
UNORDERED_TEST(insert_rehash_exception_test,
((test_map_))
((try_emplace)(try_emplace2)(map_insert_operator)(map_insert_or_assign))
((default_generator)(limited_range)(generate_collisions))
)
// clang-format on
// Range insert tests
template <typename T, typename Values>
void insert_range_exception_test_impl(T x, Values const& v)
{
test::ordered<T> tracker;
tracker.insert(x.begin(), x.end());
try {
ENABLE_EXCEPTIONS;
x.insert(v.begin(), v.end());
} catch (...) {
test::check_equivalent_keys(x);
throw;
}
test::check_equivalent_keys(x);
tracker.insert(v.begin(), v.end());
tracker.compare(x);
}
template <typename T>
void insert_range_exception_test(T*, test::random_generator gen)
{
for (int i = 0; i < 5; ++i) {
test::random_values<T> v(10, gen);
T x;
EXCEPTION_LOOP(insert_range_exception_test_impl(x, v));
}
}
template <typename T>
void insert_range_rehash_exception_test(T*, test::random_generator gen)
{
for (int i = 0; i < 5; ++i) {
T x;
rehash_prep(x);
test::random_values<T> v2(5, gen);
EXCEPTION_LOOP(insert_range_exception_test_impl(x, v2));
}
}
// clang-format off
UNORDERED_TEST(insert_range_exception_test,
((test_set_)(test_multiset_)(test_map_)(test_multimap_))
((default_generator)(limited_range)(generate_collisions))
)
UNORDERED_TEST(insert_range_rehash_exception_test,
((test_set_)(test_multiset_)(test_map_)(test_multimap_))
((default_generator)(limited_range)(generate_collisions))
)
// clang-format on
RUN_TESTS()