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nest-open-source / nest-learning-thermostat / 5.0 / boost / 317601cb979f96545d0e892ce7cfdf59f676ee0a / . / boost_1_45_0 / libs / intrusive / test / generic_assoc_test.hpp
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/////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Olaf Krzikalla 2004-2006.
// (C) Copyright Ion Gaztanaga 2006-2009.
//
// 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)
//
// See http://www.boost.org/libs/intrusive for documentation.
//
/////////////////////////////////////////////////////////////////////////////
#include <vector> //vector
#include <algorithm> //sort, random_shuffle
#include <boost/intrusive/detail/config_begin.hpp>
#include "common_functors.hpp"
#include <boost/intrusive/options.hpp>
#include <boost/detail/lightweight_test.hpp>
#include "test_macros.hpp"
#include "test_container.hpp"
namespace boost{
namespace intrusive{
namespace test{
template<class T>
struct has_splay
{
static const bool value = false;
};
template<class T>
struct has_rebalance
{
static const bool value = false;
};
template<class T>
struct has_insert_before
{
static const bool value = false;
};
template<class ValueTraits, template <class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none> class ContainerDefiner>
struct test_generic_assoc
{
typedef typename ValueTraits::value_type value_type;
static void test_all(std::vector<value_type>& values);
static void test_clone(std::vector<value_type>& values);
static void test_insert_erase_burst();
static void test_container_from_end(std::vector<value_type>& values);
static void test_splay_up(std::vector<value_type>& values);
static void test_splay_up(std::vector<value_type>& values, boost::intrusive::detail::true_type);
static void test_splay_up(std::vector<value_type>& values, boost::intrusive::detail::false_type);
static void test_splay_down(std::vector<value_type>& values);
static void test_splay_down(std::vector<value_type>& values, boost::intrusive::detail::true_type);
static void test_splay_down(std::vector<value_type>& values, boost::intrusive::detail::false_type);
static void test_rebalance(std::vector<value_type>& values);
static void test_rebalance(std::vector<value_type>& values, boost::intrusive::detail::true_type);
static void test_rebalance(std::vector<value_type>& values, boost::intrusive::detail::false_type);
static void test_insert_before(std::vector<value_type>& values);
static void test_insert_before(std::vector<value_type>& values, boost::intrusive::detail::true_type);
static void test_insert_before(std::vector<value_type>& values, boost::intrusive::detail::false_type);
static void test_container_from_iterator(std::vector<value_type>& values);
};
template<class ValueTraits, template <class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none> class ContainerDefiner>
void test_generic_assoc<ValueTraits, ContainerDefiner>::
test_container_from_iterator(std::vector<value_type>& values)
{
typedef typename ContainerDefiner
< value_type
, value_traits<ValueTraits>
, constant_time_size<value_type::constant_time_size>
>::type assoc_type;
assoc_type testset(values.begin(), values.end());
typedef typename assoc_type::iterator it_type;
typedef typename assoc_type::const_iterator cit_type;
typedef typename assoc_type::size_type sz_type;
sz_type sz = testset.size();
for(it_type b(testset.begin()), e(testset.end()); b != e; ++b)
{
assoc_type &s = assoc_type::container_from_iterator(b);
const assoc_type &cs = assoc_type::container_from_iterator(cit_type(b));
BOOST_TEST(&s == &cs);
BOOST_TEST(&s == &testset);
s.erase(b);
BOOST_TEST(testset.size() == (sz-1));
s.insert(*b);
BOOST_TEST(testset.size() == sz);
}
}
template<class ValueTraits, template <class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none> class ContainerDefiner>
void test_generic_assoc<ValueTraits, ContainerDefiner>::test_insert_erase_burst()
{
typedef typename ValueTraits::value_type value_type;
std::vector<value_type> values;
const int MaxValues = 100;
for(int i = 0; i != MaxValues; ++i){
values.push_back(value_type(i));
}
typedef typename ContainerDefiner
< value_type
, value_traits<ValueTraits>
, constant_time_size<value_type::constant_time_size>
>::type assoc_type;
typedef typename assoc_type::iterator iterator;
//First ordered insertions
assoc_type testset (&values[0], &values[0] + values.size());
TEST_INTRUSIVE_SEQUENCE_EXPECTED(testset, testset.begin());
//Ordered erasure
iterator it(testset.begin()), itend(testset.end());
for(int i = 0; it != itend; ++i){
BOOST_TEST(&*it == &values[i]);
it = testset.erase(it);
}
BOOST_TEST(testset.empty());
//Now random insertions
std::random_shuffle(values.begin(), values.end());
testset.insert(&values[0], &values[0] + values.size());
std::vector<value_type> values_ordered(values);
std::sort(values_ordered.begin(), values_ordered.end());
TEST_INTRUSIVE_SEQUENCE_EXPECTED(testset, testset.begin());
{
typedef typename std::vector<value_type>::const_iterator cvec_iterator;
//Random erasure
std::vector<cvec_iterator> it_vector;
for(cvec_iterator it(values.begin()), itend(values.end())
; it != itend
; ++it){
it_vector.push_back(it);
}
std::random_shuffle(it_vector.begin(), it_vector.end());
for(int i = 0; i != MaxValues; ++i){
testset.erase(testset.iterator_to(*it_vector[i]));
}
BOOST_TEST(testset.empty());
}
}
template<class ValueTraits, template <class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none> class ContainerDefiner>
void test_generic_assoc<ValueTraits, ContainerDefiner>::test_all(std::vector<typename ValueTraits::value_type>& values)
{
typedef typename ValueTraits::value_type value_type;
test_clone(values);
test_container_from_end(values);
test_splay_up(values);
test_splay_down(values);
test_rebalance(values);
test_insert_before(values);
test_insert_erase_burst();
test_container_from_iterator(values);
}
template<class ValueTraits, template <class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none> class ContainerDefiner>
void test_generic_assoc<ValueTraits, ContainerDefiner>
::test_clone(std::vector<typename ValueTraits::value_type>& values)
{
typedef typename ValueTraits::value_type value_type;
typedef typename ContainerDefiner
< value_type
, value_traits<ValueTraits>
, constant_time_size<value_type::constant_time_size>
>::type assoc_type;
assoc_type testset1 (&values[0], &values[0] + values.size());
assoc_type testset2;
testset2.clone_from(testset1, test::new_cloner<value_type>(), test::delete_disposer<value_type>());
BOOST_TEST (testset2 == testset1);
testset2.clear_and_dispose(test::delete_disposer<value_type>());
BOOST_TEST (testset2.empty());
}
template<class ValueTraits, template <class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none> class ContainerDefiner>
void test_generic_assoc<ValueTraits, ContainerDefiner>
::test_container_from_end(std::vector<typename ValueTraits::value_type>& values)
{
typedef typename ValueTraits::value_type value_type;
typedef typename ContainerDefiner
< value_type
, value_traits<ValueTraits>
, constant_time_size<value_type::constant_time_size>
>::type assoc_type;
assoc_type testset (&values[0], &values[0] + values.size());
BOOST_TEST (testset == assoc_type::container_from_end_iterator(testset.end()));
BOOST_TEST (testset == assoc_type::container_from_end_iterator(testset.cend()));
}
template<class ValueTraits, template <class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none> class ContainerDefiner>
void test_generic_assoc<ValueTraits, ContainerDefiner>::test_splay_up
(std::vector<typename ValueTraits::value_type>& values, boost::intrusive::detail::true_type)
{
typedef typename ValueTraits::value_type value_type;
typedef typename ContainerDefiner
< value_type
, value_traits<ValueTraits>
, constant_time_size<value_type::constant_time_size>
>::type assoc_type;
typedef typename assoc_type::iterator iterator;
typedef std::vector<value_type> orig_set_t;
std::size_t num_values;
orig_set_t original_testset;
{
assoc_type testset (values.begin(), values.end());
num_values = testset.size();
original_testset.insert(original_testset.end(), testset.begin(), testset.end());
}
for(std::size_t i = 0; i != num_values; ++i){
assoc_type testset (values.begin(), values.end());
{
iterator it = testset.begin();
for(std::size_t j = 0; j != i; ++j, ++it){}
testset.splay_up(it);
}
BOOST_TEST (testset.size() == num_values);
iterator it = testset.begin();
for( typename orig_set_t::const_iterator origit = original_testset.begin()
, origitend = original_testset.end()
; origit != origitend
; ++origit, ++it){
BOOST_TEST(*origit == *it);
}
}
}
template<class ValueTraits, template <class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none> class ContainerDefiner>
void test_generic_assoc<ValueTraits, ContainerDefiner>::test_splay_up
(std::vector<typename ValueTraits::value_type>&, boost::intrusive::detail::false_type)
{}
template<class ValueTraits, template <class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none> class ContainerDefiner>
void test_generic_assoc<ValueTraits, ContainerDefiner>::test_splay_up
(std::vector<typename ValueTraits::value_type>& values)
{
typedef typename ContainerDefiner
< value_type
, value_traits<ValueTraits>
, constant_time_size<value_type::constant_time_size>
>::type assoc_type;
typedef typename detail::remove_const<assoc_type>::type Type;
typedef detail::bool_<has_splay<Type>::value> enabler;
test_splay_up(values, enabler());
}
template<class ValueTraits, template <class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none> class ContainerDefiner>
void test_generic_assoc<ValueTraits, ContainerDefiner>::test_splay_down
(std::vector<typename ValueTraits::value_type>& values, boost::intrusive::detail::true_type)
{
typedef typename ValueTraits::value_type value_type;
typedef typename ContainerDefiner
< value_type
, value_traits<ValueTraits>
, constant_time_size<value_type::constant_time_size>
>::type assoc_type;
typedef typename assoc_type::iterator iterator;
typedef std::vector<value_type> orig_set_t;
std::size_t num_values;
orig_set_t original_testset;
{
assoc_type testset (values.begin(), values.end());
num_values = testset.size();
original_testset.insert(original_testset.end(), testset.begin(), testset.end());
}
for(std::size_t i = 0; i != num_values; ++i){
assoc_type testset (values.begin(), values.end());
BOOST_TEST(testset.size() == num_values);
{
iterator it = testset.begin();
for(std::size_t j = 0; j != i; ++j, ++it){}
BOOST_TEST(*it == *testset.splay_down(*it));
}
BOOST_TEST (testset.size() == num_values);
iterator it = testset.begin();
for( typename orig_set_t::const_iterator origit = original_testset.begin()
, origitend = original_testset.end()
; origit != origitend
; ++origit, ++it){
BOOST_TEST(*origit == *it);
}
}
}
template<class ValueTraits, template <class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none> class ContainerDefiner>
void test_generic_assoc<ValueTraits, ContainerDefiner>::test_splay_down
(std::vector<typename ValueTraits::value_type>&, boost::intrusive::detail::false_type)
{}
template<class ValueTraits, template <class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none> class ContainerDefiner>
void test_generic_assoc<ValueTraits, ContainerDefiner>::test_splay_down
(std::vector<typename ValueTraits::value_type>& values)
{
typedef typename ContainerDefiner
< value_type
, value_traits<ValueTraits>
, constant_time_size<value_type::constant_time_size>
>::type assoc_type;
typedef typename detail::remove_const<assoc_type>::type Type;
typedef detail::bool_<has_splay<Type>::value> enabler;
test_splay_down(values, enabler());
}
template<class ValueTraits, template <class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none> class ContainerDefiner>
void test_generic_assoc<ValueTraits, ContainerDefiner>::test_rebalance
(std::vector<typename ValueTraits::value_type>& values, boost::intrusive::detail::true_type)
{
typedef typename ValueTraits::value_type value_type;
typedef typename ContainerDefiner
< value_type
, value_traits<ValueTraits>
, constant_time_size<value_type::constant_time_size>
>::type assoc_type;
typedef std::vector<value_type> orig_set_t;
typedef typename orig_set_t::iterator iterator_t;
std::size_t num_values;
orig_set_t original_testset;
{
assoc_type testset (values.begin(), values.end());
num_values = testset.size();
original_testset.insert(original_testset.end(), testset.begin(), testset.end());
}
{
assoc_type testset(values.begin(), values.end());
testset.rebalance();
iterator_t it = original_testset.begin();
TEST_INTRUSIVE_SEQUENCE_EXPECTED(original_testset, testset.begin());
}
{
std::size_t numdata;
{
assoc_type testset(values.begin(), values.end());
numdata = testset.size();
}
for(int i = 0; i != (int)numdata; ++i){
assoc_type testset(values.begin(), values.end());
typename assoc_type::iterator it = testset.begin();
for(int j = 0; j != i; ++j) ++it;
testset.rebalance_subtree(it);
TEST_INTRUSIVE_SEQUENCE_EXPECTED(original_testset, testset.begin());
}
}
}
template<class ValueTraits, template <class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none> class ContainerDefiner>
void test_generic_assoc<ValueTraits, ContainerDefiner>::test_rebalance
(std::vector<typename ValueTraits::value_type>&, boost::intrusive::detail::false_type)
{}
template<class ValueTraits, template <class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none> class ContainerDefiner>
void test_generic_assoc<ValueTraits, ContainerDefiner>::test_rebalance
(std::vector<typename ValueTraits::value_type>& values)
{
typedef typename ContainerDefiner
< value_type
, value_traits<ValueTraits>
, constant_time_size<value_type::constant_time_size>
>::type assoc_type;
typedef typename detail::remove_const<assoc_type>::type Type;
typedef detail::bool_<has_rebalance<Type>::value> enabler;
test_rebalance(values, enabler());
}
template<class ValueTraits, template <class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none> class ContainerDefiner>
void test_generic_assoc<ValueTraits, ContainerDefiner>::test_insert_before
(std::vector<typename ValueTraits::value_type>& values, boost::intrusive::detail::true_type)
{
typedef typename ValueTraits::value_type value_type;
typedef typename ContainerDefiner
< value_type
, value_traits<ValueTraits>
, constant_time_size<value_type::constant_time_size>
>::type assoc_type;
{
assoc_type testset;
typedef typename std::vector<value_type>::iterator vec_iterator;
for(vec_iterator it(values.begin()), itend(values.end())
; it != itend
; ++it){
testset.push_back(*it);
}
BOOST_TEST(testset.size() == values.size());
TEST_INTRUSIVE_SEQUENCE_EXPECTED(values, testset.begin());
}
{
assoc_type testset;
typedef typename std::vector<value_type>::iterator vec_iterator;
for(vec_iterator it(--values.end()); true; --it){
testset.push_front(*it);
if(it == values.begin()){
break;
}
}
BOOST_TEST(testset.size() == values.size());
TEST_INTRUSIVE_SEQUENCE_EXPECTED(values, testset.begin());
}
{
assoc_type testset;
typedef typename std::vector<value_type>::iterator vec_iterator;
typename assoc_type::iterator it_pos =
testset.insert_before(testset.end(), *values.rbegin());
testset.insert_before(testset.begin(), *values.begin());
for(vec_iterator it(++values.begin()), itend(--values.end())
; it != itend
; ++it){
testset.insert_before(it_pos, *it);
}
BOOST_TEST(testset.size() == values.size());
TEST_INTRUSIVE_SEQUENCE_EXPECTED(values, testset.begin());
}
}
template<class ValueTraits, template <class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none> class ContainerDefiner>
void test_generic_assoc<ValueTraits, ContainerDefiner>::test_insert_before
(std::vector<typename ValueTraits::value_type>&, boost::intrusive::detail::false_type)
{}
template<class ValueTraits, template <class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none, class = ::boost::intrusive::none> class ContainerDefiner>
void test_generic_assoc<ValueTraits, ContainerDefiner>::test_insert_before
(std::vector<typename ValueTraits::value_type>& values)
{
typedef typename ContainerDefiner
< value_type
, value_traits<ValueTraits>
, constant_time_size<value_type::constant_time_size>
>::type assoc_type;
typedef typename detail::remove_const<assoc_type>::type Type;
typedef detail::bool_<has_insert_before<Type>::value> enabler;
test_insert_before(values, enabler());
}
}}} //namespace boost::intrusive::test
#include <boost/intrusive/detail/config_end.hpp>