// Use, modification and distribution is subject to 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 <boost/container/detail/config_begin.hpp>
#include <boost/core/lightweight_test.hpp>
#include <boost/core/no_exceptions_support.hpp>
#include <boost/container/vector.hpp>
-#include <boost/container/stable_vector.hpp>
+#include <boost/container/list.hpp>
#include <boost/container/detail/iterator.hpp>
#include "../../intrusive/test/iterator_test.hpp"
-#include <vector>
-#include <list>
-
#include "static_vector_test.hpp"
BOOST_TEST_THROWS( s.at(n), std::out_of_range );
if ( 1 < n )
{
- T val10(10);
- s[0] = val10;
+ s[0] = 10;
BOOST_TEST(T(10) == s[0]);
BOOST_TEST(T(10) == s.at(0));
- T val20(20);
- s.at(1) = val20;
+ s.at(1) = 20;
BOOST_TEST(T(20) == s[1]);
BOOST_TEST(T(20) == s.at(1));
}
{
#if !defined(BOOST_NO_CXX11_HDR_INITIALIZER_LIST)
{
- static_vector<int, 2> sv = {10, 8};
+ typedef static_vector<int, 2> sv_cap_2;
+ sv_cap_2 sv = {10, 8};
BOOST_TEST(10 == sv[0]);
BOOST_TEST(8 == sv[1]);
- typedef static_vector<int, 1> sv_cap_1;
- BOOST_TEST_THROWS(sv_cap_1({1, 1}), std::bad_alloc);
+ BOOST_TEST_THROWS(sv_cap_2({1, 1, 1}), std::bad_alloc);
}
{
BOOST_TEST_THROWS( s.at(n), std::out_of_range );
if ( 1 < n )
{
- T val10(10);
- s[0] = val10;
+ s[0] = 10;
BOOST_TEST(T(10) == s[0]);
BOOST_TEST(T(10) == s.at(0));
- T val20(20);
- s.at(1) = val20;
+ s.at(1) = 20;
BOOST_TEST(T(20) == s[1]);
BOOST_TEST(T(20) == s.at(1));
}
for ( size_t i = 0 ; i < N ; ++i )
{
- T t(i);
+ T t(static_cast<int>(i));
s.push_back(t);
BOOST_TEST(s.size() == i + 1);
BOOST_TEST_THROWS( s.at(i + 1), std::out_of_range );
- BOOST_TEST(T(i) == s.at(i));
- BOOST_TEST(T(i) == s[i]);
- BOOST_TEST(T(i) == s.back());
+ BOOST_TEST(T((int)i) == s.at(i));
+ BOOST_TEST(T((int)i) == s[i]);
+ BOOST_TEST(T((int)i) == s.back());
BOOST_TEST(T(0) == s.front());
- BOOST_TEST(T(i) == *(s.data() + i));
+ BOOST_TEST(T((int)i) == *(s.data() + i));
}
}
for ( size_t i = 0 ; i < N ; ++i )
{
- T t(i);
+ T t((int)i);
s.push_back(t);
}
s.pop_back();
BOOST_TEST(s.size() == i - 1);
BOOST_TEST_THROWS( s.at(i - 1), std::out_of_range );
- BOOST_TEST(T(i - 2) == s.at(i - 2));
- BOOST_TEST(T(i - 2) == s[i - 2]);
- BOOST_TEST(T(i - 2) == s.back());
+ BOOST_TEST(T((int)i - 2) == s.at(i - 2));
+ BOOST_TEST(T((int)i - 2) == s[i - 2]);
+ BOOST_TEST(T((int)i - 2) == s.back());
BOOST_TEST(T(0) == s.front());
}
}
void test_copy_and_assign_nd(T const& val)
{
static_vector<T, N> s;
- std::vector<T> v;
- std::list<T> l;
+ vector<T> v;
+ list<T> l;
for ( size_t i = 0 ; i < N ; ++i )
{
- T t(i);
+ T t((int)i);
s.push_back(t);
v.push_back(t);
l.push_back(t);
{
static_vector<T, N> s1(s);
test_compare_ranges(s.begin(), s.end(), s1.begin(), s1.end());
- std::vector<T> a(N, val);
+ vector<T> a(N, val);
s1.assign(N, val);
test_compare_ranges(a.begin(), a.end(), s1.begin(), s1.end());
}
-
- stable_vector<T> bsv(s.begin(), s.end());
- vector<T> bv(s.begin(), s.end());
- test_copy_and_assign<T, N>(bsv);
- test_copy_and_assign<T, N>(bv);
}
template <typename T, size_t N>
void test_iterators_nd()
{
static_vector<T, N> s;
- std::vector<T> v;
+ vector<T> v;
for ( size_t i = 0 ; i < N ; ++i )
{
- s.push_back(T(i));
- v.push_back(T(i));
+ s.push_back(T((int)i));
+ v.push_back(T((int)i));
}
test_compare_ranges(s.begin(), s.end(), v.begin(), v.end());
typedef typename static_vector<T, N>::iterator It;
for ( size_t i = 0 ; i < N ; ++i )
- s.push_back(T(i));
+ s.push_back(T((int)i));
// erase(pos)
{
BOOST_TEST(s1.begin() + i == it);
BOOST_TEST(s1.size() == N - 1);
for ( size_t j = 0 ; j < i ; ++j )
- BOOST_TEST(s1[j] == T(j));
+ BOOST_TEST(s1[j] == T((int)j));
for ( size_t j = i+1 ; j < N ; ++j )
- BOOST_TEST(s1[j-1] == T(j));
+ BOOST_TEST(s1[j-1] == T((int)j));
}
}
// erase(first, last)
BOOST_TEST(s1.begin() + i == it);
BOOST_TEST(s1.size() == N - removed);
for ( size_t j = 0 ; j < i ; ++j )
- BOOST_TEST(s1[j] == T(j));
+ BOOST_TEST(s1[j] == T((int)j));
for ( size_t j = i+n ; j < N ; ++j )
- BOOST_TEST(s1[j-n] == T(j));
+ BOOST_TEST(s1[j-n] == T((int)j));
}
}
}
BOOST_TEST(s1.begin() + i == it1);
BOOST_TEST(s1.size() == h+n);
for ( size_t j = 0 ; j < i ; ++j )
- BOOST_TEST(s1[j] == T(j));
+ BOOST_TEST(s1[j] == T((int)j));
for ( size_t j = 0 ; j < n ; ++j )
- BOOST_TEST(s1[j+i] == T(100 + j));
+ BOOST_TEST(s1[j+i] == T(100 + (int)j));
for ( size_t j = 0 ; j < h-i ; ++j )
- BOOST_TEST(s1[j+i+n] == T(j+i));
+ BOOST_TEST(s1[j+i+n] == T((int)j+(int)i));
}
}
size_t h = N/2;
static_vector<T, N> s, ss;
- std::vector<T> v;
- std::list<T> l;
+ vector<T> v;
+ list<T> l;
typedef typename static_vector<T, N>::iterator It;
for ( size_t i = 0 ; i < h ; ++i )
{
- s.push_back(T(i));
- ss.push_back(T(100 + i));
- v.push_back(T(100 + i));
- l.push_back(T(100 + i));
+ s.push_back(T((int)i));
+ ss.push_back(T(100 + (int)i));
+ v.push_back(T(100 + (int)i));
+ l.push_back(T(100 + (int)i));
}
// insert(pos, val)
BOOST_TEST(s1.begin() + i == it);
BOOST_TEST(s1.size() == h+1);
for ( size_t j = 0 ; j < i ; ++j )
- BOOST_TEST(s1[j] == T(j));
+ BOOST_TEST(s1[j] == T((int)j));
BOOST_TEST(s1[i] == val);
for ( size_t j = 0 ; j < h-i ; ++j )
- BOOST_TEST(s1[j+i+1] == T(j+i));
+ BOOST_TEST(s1[j+i+1] == T((int)j+(int)i));
}
}
// insert(pos, n, val)
BOOST_TEST(s1.begin() + i == it);
BOOST_TEST(s1.size() == h+n);
for ( size_t j = 0 ; j < i ; ++j )
- BOOST_TEST(s1[j] == T(j));
+ BOOST_TEST(s1[j] == T((int)j));
for ( size_t j = 0 ; j < n ; ++j )
BOOST_TEST(s1[j+i] == val);
for ( size_t j = 0 ; j < h-i ; ++j )
- BOOST_TEST(s1[j+i+n] == T(j+i));
+ BOOST_TEST(s1[j+i+n] == T((int)j+(int)i));
}
}
// insert(pos, first, last)
test_insert<T, N>(s, ss);
test_insert<T, N>(s, v);
test_insert<T, N>(s, l);
-
- stable_vector<T> bsv(ss.begin(), ss.end());
- vector<T> bv(ss.begin(), ss.end());
- test_insert<T, N>(s, bv);
- test_insert<T, N>(s, bsv);
}
template <typename T>
{
static_vector<T, 10> v(5u, T(0));
- static_vector<T, 0 > s;
+ typedef static_vector<T, 0> static_vector_0_t;
+ static_vector_0_t s;
BOOST_TEST(s.size() == 0);
BOOST_TEST(s.capacity() == 0);
BOOST_TEST_THROWS(s.at(0), std::out_of_range);
BOOST_TEST_THROWS(s.assign(v.begin(), v.end()), std::bad_alloc);
BOOST_TEST_THROWS(s.assign(5u, T(0)), std::bad_alloc);
BOOST_TEST_THROWS(s.assign(5u, T(0)), std::bad_alloc);
- typedef static_vector<T, 0> static_vector_0_t;
BOOST_TEST_THROWS(static_vector_0_t s2(v.begin(), v.end()), std::bad_alloc);
BOOST_TEST_THROWS(static_vector_0_t s1(5u, T(0)), std::bad_alloc);
}
void test_exceptions_nd()
{
static_vector<T, N> v(N, T(0));
- static_vector<T, N/2> s(N/2, T(0));
+ typedef static_vector<T, N/2> static_vector_n_half_t;
+ static_vector_n_half_t s(N/2, T(0));
BOOST_TEST_THROWS(s.resize(N, T(0)), std::bad_alloc);
BOOST_TEST_THROWS(s.push_back(T(0)), std::bad_alloc);
BOOST_TEST_THROWS(s.insert(s.end(), v.begin(), v.end()), std::bad_alloc);
BOOST_TEST_THROWS(s.assign(v.begin(), v.end()), std::bad_alloc);
BOOST_TEST_THROWS(s.assign(N, T(0)), std::bad_alloc);
- typedef static_vector<T, N/2> static_vector_n_half_t;
BOOST_TEST_THROWS(static_vector_n_half_t s2(v.begin(), v.end()), std::bad_alloc);
BOOST_TEST_THROWS(static_vector_n_half_t s1(N/2+1, T(0)), std::bad_alloc);
}
for (size_t i = 0 ; i < N ; ++i )
{
- v1.push_back(T(i));
- v2.push_back(T(i));
- v3.push_back(T(i));
- v4.push_back(T(i));
+ v1.push_back(T((int)i));
+ v2.push_back(T((int)i));
+ v3.push_back(T((int)i));
+ v4.push_back(T((int)i));
}
for (size_t i = 0 ; i < N/2 ; ++i )
{
- s1.push_back(T(100 + i));
- s2.push_back(T(100 + i));
- s4.push_back(T(100 + i));
+ s1.push_back(T(100 + (int)i));
+ s2.push_back(T(100 + (int)i));
+ s4.push_back(T(100 + (int)i));
}
s1.swap(v1);
BOOST_TEST(v1.size() == N/2);
BOOST_TEST(s1.size() == N);
- //iG moving does not imply emptying source
- //BOOST_TEST(v2.size() == 0);
+ BOOST_TEST(v2.size() == 0);
BOOST_TEST(s2.size() == N);
- //iG moving does not imply emptying source
- //BOOST_TEST(v3.size() == 0);
+ BOOST_TEST(v3.size() == 0);
BOOST_TEST(s3.size() == N);
BOOST_TEST(v4.size() == N/2);
BOOST_TEST(s4.size() == N);
for (size_t i = 0 ; i < N/2 ; ++i )
{
- BOOST_TEST(v1[i] == T(100 + i));
- BOOST_TEST(v4[i] == T(100 + i));
+ BOOST_TEST(v1[i] == T(100 + (int)i));
+ BOOST_TEST(v4[i] == T(100 + (int)i));
}
for (size_t i = 0 ; i < N ; ++i )
{
- BOOST_TEST(s1[i] == T(i));
- BOOST_TEST(s2[i] == T(i));
- BOOST_TEST(s3[i] == T(i));
- BOOST_TEST(s4[i] == T(i));
+ BOOST_TEST(s1[i] == T((int)i));
+ BOOST_TEST(s2[i] == T((int)i));
+ BOOST_TEST(s3[i] == T((int)i));
+ BOOST_TEST(s4[i] == T((int)i));
}
}
{
for (size_t i = 0 ; i < N/2 ; ++i )
{
- v1.push_back(T(i));
- v2.push_back(T(i));
- v3.push_back(T(i));
+ v1.push_back(T((int)i));
+ v2.push_back(T((int)i));
+ v3.push_back(T((int)i));
}
for (size_t i = 0 ; i < N/3 ; ++i )
{
- s1.push_back(T(100 + i));
- s2.push_back(T(100 + i));
+ s1.push_back(T(100 + (int)i));
+ s2.push_back(T(100 + (int)i));
}
s1.swap(v1);
//BOOST_TEST(v3.size() == 0);
BOOST_TEST(s4.size() == N/2);
for (size_t i = 0 ; i < N/3 ; ++i )
- BOOST_TEST(v1[i] == T(100 + i));
+ BOOST_TEST(v1[i] == T(100 + (int)i));
for (size_t i = 0 ; i < N/2 ; ++i )
{
- BOOST_TEST(s1[i] == T(i));
- BOOST_TEST(s2[i] == T(i));
- BOOST_TEST(s3[i] == T(i));
- BOOST_TEST(s4[i] == T(i));
+ BOOST_TEST(s1[i] == T((int)i));
+ BOOST_TEST(s2[i] == T((int)i));
+ BOOST_TEST(s3[i] == T((int)i));
+ BOOST_TEST(s4[i] == T((int)i));
}
}
{
for (int i = 0 ; i < int(N) ; ++i )
v.emplace_back(i, 100 + i);
BOOST_TEST(v.size() == N);
- BOOST_TEST_THROWS(v.emplace_back(N, 100 + N), std::bad_alloc);
+ BOOST_TEST_THROWS(v.emplace_back((int)N, 100 + (int)N), std::bad_alloc);
BOOST_TEST(v.size() == N);
for (int i = 0 ; i < int(N) ; ++i )
BOOST_TEST(v[i] == T(i, 100 + i));
test_ctor_ndc<value_ndc, 10>();
test_ctor_ndc<counting_value, 10>();
BOOST_TEST(counting_value::count() == 0);
- test_ctor_ndc<shptr_value, 10>();
test_ctor_ndc<movable_and_copyable_int, 10>();
test_ctor_nc<int, 10>(5);
test_ctor_nc<value_nc, 10>(5);
test_ctor_nc<counting_value, 10>(5);
BOOST_TEST(counting_value::count() == 0);
- test_ctor_nc<shptr_value, 10>(5);
test_ctor_nc<movable_and_copyable_int, 10>(5);
test_ctor_nd<int, 10>(5, 1);
test_ctor_nd<value_nd, 10>(5, value_nd(1));
test_ctor_nd<counting_value, 10>(5, counting_value(1));
BOOST_TEST(counting_value::count() == 0);
- test_ctor_nd<shptr_value, 10>(5, shptr_value(1));
test_ctor_nd<movable_and_copyable_int, 10>(5, produce_movable_and_copyable_int());
test_resize_nc<int, 10>(5);
test_resize_nc<value_nc, 10>(5);
test_resize_nc<counting_value, 10>(5);
BOOST_TEST(counting_value::count() == 0);
- test_resize_nc<shptr_value, 10>(5);
test_resize_nc<movable_and_copyable_int, 10>(5);
test_resize_nd<int, 10>(5, 1);
test_resize_nd<value_nd, 10>(5, value_nd(1));
test_resize_nd<counting_value, 10>(5, counting_value(1));
BOOST_TEST(counting_value::count() == 0);
- test_resize_nd<shptr_value, 10>(5, shptr_value(1));
test_resize_nd<movable_and_copyable_int, 10>(5, produce_movable_and_copyable_int());
test_push_back_nd<int, 10>();
test_push_back_nd<value_nd, 10>();
test_push_back_nd<counting_value, 10>();
BOOST_TEST(counting_value::count() == 0);
- test_push_back_nd<shptr_value, 10>();
test_push_back_nd<movable_and_copyable_int, 10>();
test_pop_back_nd<int, 10>();
test_pop_back_nd<value_nd, 10>();
test_pop_back_nd<counting_value, 10>();
BOOST_TEST(counting_value::count() == 0);
- test_pop_back_nd<shptr_value, 10>();
test_pop_back_nd<movable_and_copyable_int, 10>();
test_copy_and_assign_nd<int, 10>(1);
test_copy_and_assign_nd<value_nd, 10>(value_nd(1));
test_copy_and_assign_nd<counting_value, 10>(counting_value(1));
BOOST_TEST(counting_value::count() == 0);
- test_copy_and_assign_nd<shptr_value, 10>(shptr_value(1));
test_copy_and_assign_nd<movable_and_copyable_int, 10>(produce_movable_and_copyable_int());
test_iterators_nd<int, 10>();
test_iterators_nd<value_nd, 10>();
test_iterators_nd<counting_value, 10>();
BOOST_TEST(counting_value::count() == 0);
- test_iterators_nd<shptr_value, 10>();
test_iterators_nd<movable_and_copyable_int, 10>();
test_erase_nd<int, 10>();
test_erase_nd<value_nd, 10>();
test_erase_nd<counting_value, 10>();
BOOST_TEST(counting_value::count() == 0);
- test_erase_nd<shptr_value, 10>();
test_erase_nd<movable_and_copyable_int, 10>();
test_insert_nd<int, 10>(50);
test_insert_nd<value_nd, 10>(value_nd(50));
test_insert_nd<counting_value, 10>(counting_value(50));
BOOST_TEST(counting_value::count() == 0);
- test_insert_nd<shptr_value, 10>(shptr_value(50));
test_insert_nd<movable_and_copyable_int, 10>(produce_movable_and_copyable_int());
test_capacity_0_nd<int>();
test_capacity_0_nd<value_nd>();
test_capacity_0_nd<counting_value>();
BOOST_TEST(counting_value::count() == 0);
- test_capacity_0_nd<shptr_value>();
test_capacity_0_nd<movable_and_copyable_int>();
test_exceptions_nd<int, 10>();
test_exceptions_nd<value_nd, 10>();
test_exceptions_nd<counting_value, 10>();
BOOST_TEST(counting_value::count() == 0);
- test_exceptions_nd<shptr_value, 10>();
test_exceptions_nd<movable_and_copyable_int, 10>();
test_swap_and_move_nd<int, 10>();
test_swap_and_move_nd<value_nd, 10>();
test_swap_and_move_nd<counting_value, 10>();
BOOST_TEST(counting_value::count() == 0);
- test_swap_and_move_nd<shptr_value, 10>();
test_swap_and_move_nd<movable_and_copyable_int, 10>();
test_emplace_0p<counting_value, 10>();
test_sv_elem<value_nd, 10>(value_nd(50));
test_sv_elem<counting_value, 10>(counting_value(50));
BOOST_TEST(counting_value::count() == 0);
- test_sv_elem<shptr_value, 10>(shptr_value(50));
test_sv_elem<movable_and_copyable_int, 10>(movable_and_copyable_int(50));
BOOST_TEST(default_init_test() == true);
return boost::report_errors();
}
-#include <boost/container/detail/config_end.hpp>
+/*
+
+#include <boost/container/small_vector.hpp>
+#include <type_traits>
+
+struct S_trivial {
+int i;
+};
+static_assert(std::is_nothrow_move_constructible<S_trivial>::value, "");
+static_assert(std::is_nothrow_move_assignable<S_trivial>::value, "");
+
+struct S1 {
+int i = 0;
+};
+static_assert(std::is_nothrow_move_constructible<S1>::value, "");
+static_assert(std::is_nothrow_move_assignable<S1>::value, "");
+
+struct S2 {
+int i = 0;
+S2(S2&&) noexcept;
+S2& operator=(S2&&) noexcept;
+};
+static_assert(std::is_nothrow_move_constructible<S2>::value, "");
+static_assert(std::is_nothrow_move_assignable<S2>::value, "");
+
+// Succeed
+static_assert(std::is_nothrow_move_constructible<boost::container::small_vector<S_trivial, 1>>::value, "");
+static_assert(std::is_nothrow_move_assignable<boost::container::small_vector<S_trivial, 1>>::value, "");
+
+// Fail
+static_assert(std::is_nothrow_move_constructible<boost::container::small_vector<S1, 1>>::value, "");
+static_assert(std::is_nothrow_move_assignable<boost::container::small_vector<S1, 1>>::value, "");
+
+// Fail
+static_assert(std::is_nothrow_move_constructible<boost::container::small_vector<S2, 1>>::value, "");
+static_assert(std::is_nothrow_move_assignable<boost::container::small_vector<S2, 1>>::value, "");
+
+int main()
+{
+ return 0;
+}
+*/