boost_1_45_0/libs/intrusive/test/stateful_value_traits_test.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 /////////////////////////////////////////////////////////////////////////////
 //
 // (C) Copyright Ion Gaztanaga  2007-2009
 //
 // 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 <boost/intrusive/list.hpp>
 #include <boost/intrusive/slist.hpp>
 #include <boost/intrusive/set.hpp>
 #include <boost/intrusive/unordered_set.hpp>
 #include <boost/functional/hash.hpp>
 #include <boost/pointer_to_other.hpp>
 #include <vector>

 using namespace boost::intrusive;

 class MyClass
 {
    public:
    int int_;

    MyClass(int i = 0)
       :  int_(i)
    {}

    friend bool operator<(const MyClass &l, const MyClass &r)
    {  return l.int_ < r.int_; }

    friend bool operator==(const MyClass &l, const MyClass &r)
    {  return l.int_ == r.int_; }

    friend std::size_t hash_value(const MyClass &v)
    {  return boost::hash_value(v.int_); }
 };

 template<class T, class NodeTraits>
 struct stateful_value_traits
 {
    typedef NodeTraits                                          node_traits;
    typedef typename node_traits::node                          node;
    typedef typename node_traits::node_ptr                      node_ptr;
    typedef typename node_traits::const_node_ptr                const_node_ptr;
    typedef T                                                   value_type;
    typedef typename boost::pointer_to_other
       <node_ptr, T>::type                                      pointer;
    typedef typename boost::pointer_to_other
       <node_ptr, const T>::type                                const_pointer;
    static const link_mode_type link_mode = normal_link;

    stateful_value_traits(pointer values, node_ptr node_array)
       :  values_(values),  node_array_(node_array)
    {}

    node_ptr to_node_ptr (value_type &value)
    {  return node_array_ + (&value - values_); }

    const_node_ptr to_node_ptr (const value_type &value) const
    {  return node_array_ + (&value - values_); }

    pointer to_value_ptr(node_ptr n)
    {  return values_ + (n - node_array_); }

    const_pointer to_value_ptr(const_node_ptr n) const
    {  return values_ + (n - node_array_); }

    pointer  values_;
    node_ptr node_array_;
 };

 //Define a list that will store MyClass using the external hook
 typedef stateful_value_traits< MyClass, list_node_traits<void*> > list_traits;
 typedef list<MyClass, value_traits<list_traits> > List;

 //Define a slist that will store MyClass using the external hook
 typedef stateful_value_traits< MyClass, slist_node_traits<void*> > slist_traits;
 typedef slist<MyClass, value_traits<slist_traits> > Slist;

 //Define a set that will store MyClass using the external hook
 typedef stateful_value_traits< MyClass, rbtree_node_traits<void*> > rbtree_traits;
 typedef set<MyClass, value_traits<rbtree_traits> > Set;

 //uset uses the same traits as slist
 typedef unordered_set<MyClass, value_traits<slist_traits> > Uset;


 typedef list_traits::node     list_node_t;
 typedef slist_traits::node    slist_node_t;
 typedef rbtree_traits::node   rbtree_node_t;

 const int NumElements = 100;

 MyClass        values    [NumElements];
 list_node_t    list_hook_array   [NumElements];
 slist_node_t   slist_hook_array  [NumElements];
 rbtree_node_t  rbtree_hook_array [NumElements];
 slist_node_t   uset_hook_array   [NumElements];

 int main()
 {
    //Create several MyClass objects, each one with a different value
    for(int i = 0; i < NumElements; ++i)
       values[i].int_ = i;

    Uset::bucket_type buckets[NumElements];

    List  my_list (list_traits (values, list_hook_array));
    Slist my_slist(slist_traits(values, slist_hook_array));
    Set   my_set  (std::less<MyClass>(), rbtree_traits(values, rbtree_hook_array));
    Uset  my_uset ( Uset::bucket_traits(buckets, NumElements)
                  , boost::hash<MyClass>()
                  , std::equal_to<MyClass>()
                  , slist_traits(values, uset_hook_array)
                  );

    //Now insert them in containers
    for(MyClass * it(&values[0]), *itend(&values[NumElements])
       ; it != itend
       ; ++it){
       my_list.push_front(*it);
       my_slist.push_front(*it);
       my_set.insert(*it);
       my_uset.insert(*it);
    }

    //Now test lists
    {
       List::const_iterator   list_it (my_list.cbegin());
       Slist::const_iterator  slist_it(my_slist.cbegin());
       Set::const_reverse_iterator set_rit(my_set.crbegin());
       MyClass *it_val(&values[NumElements-1]), *it_rbeg_val(&values[0]-1);

       //Test the objects inserted in the base hook list
       for(; it_val != it_rbeg_val; --it_val, ++list_it, ++slist_it, ++set_rit){
          if(&*list_it  != &*it_val)   return 1;
          if(&*slist_it != &*it_val)   return 1;
          if(&*set_rit  != &*it_val)   return 1;
          if(my_uset.find(*it_val) == my_uset.cend())  return 1;
       }
    }

    return 0;
 }
	/////////////////////////////////////////////////////////////////////////////
	//
	// (C) Copyright Ion Gaztanaga 2007-2009
	//
	// 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 <boost/intrusive/list.hpp>
	#include <boost/intrusive/slist.hpp>
	#include <boost/intrusive/set.hpp>
	#include <boost/intrusive/unordered_set.hpp>
	#include <boost/functional/hash.hpp>
	#include <boost/pointer_to_other.hpp>
	#include <vector>

	using namespace boost::intrusive;

	class MyClass
	{
	public:
	int int_;

	MyClass(int i = 0)
	: int_(i)
	{}

	friend bool operator<(const MyClass &l, const MyClass &r)
	{ return l.int_ < r.int_; }

	friend bool operator==(const MyClass &l, const MyClass &r)
	{ return l.int_ == r.int_; }

	friend std::size_t hash_value(const MyClass &v)
	{ return boost::hash_value(v.int_); }
	};

	template<class T, class NodeTraits>
	struct stateful_value_traits
	{
	typedef NodeTraits node_traits;
	typedef typename node_traits::node node;
	typedef typename node_traits::node_ptr node_ptr;
	typedef typename node_traits::const_node_ptr const_node_ptr;
	typedef T value_type;
	typedef typename boost::pointer_to_other
	<node_ptr, T>::type pointer;
	typedef typename boost::pointer_to_other
	<node_ptr, const T>::type const_pointer;
	static const link_mode_type link_mode = normal_link;

	stateful_value_traits(pointer values, node_ptr node_array)
	: values_(values), node_array_(node_array)
	{}

	node_ptr to_node_ptr (value_type &value)
	{ return node_array_ + (&value - values_); }

	const_node_ptr to_node_ptr (const value_type &value) const
	{ return node_array_ + (&value - values_); }

	pointer to_value_ptr(node_ptr n)
	{ return values_ + (n - node_array_); }

	const_pointer to_value_ptr(const_node_ptr n) const
	{ return values_ + (n - node_array_); }

	pointer values_;
	node_ptr node_array_;
	};

	//Define a list that will store MyClass using the external hook
	typedef stateful_value_traits< MyClass, list_node_traits<void*> > list_traits;
	typedef list<MyClass, value_traits<list_traits> > List;

	//Define a slist that will store MyClass using the external hook
	typedef stateful_value_traits< MyClass, slist_node_traits<void*> > slist_traits;
	typedef slist<MyClass, value_traits<slist_traits> > Slist;

	//Define a set that will store MyClass using the external hook
	typedef stateful_value_traits< MyClass, rbtree_node_traits<void*> > rbtree_traits;
	typedef set<MyClass, value_traits<rbtree_traits> > Set;

	//uset uses the same traits as slist
	typedef unordered_set<MyClass, value_traits<slist_traits> > Uset;


	typedef list_traits::node list_node_t;
	typedef slist_traits::node slist_node_t;
	typedef rbtree_traits::node rbtree_node_t;

	const int NumElements = 100;

	MyClass values [NumElements];
	list_node_t list_hook_array [NumElements];
	slist_node_t slist_hook_array [NumElements];
	rbtree_node_t rbtree_hook_array [NumElements];
	slist_node_t uset_hook_array [NumElements];

	int main()
	{
	//Create several MyClass objects, each one with a different value
	for(int i = 0; i < NumElements; ++i)
	values[i].int_ = i;

	Uset::bucket_type buckets[NumElements];

	List my_list (list_traits (values, list_hook_array));
	Slist my_slist(slist_traits(values, slist_hook_array));
	Set my_set (std::less<MyClass>(), rbtree_traits(values, rbtree_hook_array));
	Uset my_uset ( Uset::bucket_traits(buckets, NumElements)
	, boost::hash<MyClass>()
	, std::equal_to<MyClass>()
	, slist_traits(values, uset_hook_array)
	);

	//Now insert them in containers
	for(MyClass * it(&values[0]), *itend(&values[NumElements])
	; it != itend
	; ++it){
	my_list.push_front(*it);
	my_slist.push_front(*it);
	my_set.insert(*it);
	my_uset.insert(*it);
	}

	//Now test lists
	{
	List::const_iterator list_it (my_list.cbegin());
	Slist::const_iterator slist_it(my_slist.cbegin());
	Set::const_reverse_iterator set_rit(my_set.crbegin());
	MyClass it_val(&values[NumElements-1]), it_rbeg_val(&values[0]-1);

	//Test the objects inserted in the base hook list
	for(; it_val != it_rbeg_val; --it_val, ++list_it, ++slist_it, ++set_rit){
	if(&list_it != &it_val) return 1;
	if(&slist_it != &it_val) return 1;
	if(&set_rit != &it_val) return 1;
	if(my_uset.find(*it_val) == my_uset.cend()) return 1;
	}
	}

	return 0;
	}