boost_container/test/map_test.cpp

//////////////////////////////////////////////////////////////////////////////
//
// (C) Copyright Ion Gaztanaga 2004-2013. 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/container for documentation.
//
//////////////////////////////////////////////////////////////////////////////
#include <boost/container/detail/config_begin.hpp>
#include <boost/container/map.hpp>
#include <boost/container/allocator.hpp>
#include <boost/container/node_allocator.hpp>
#include <boost/container/adaptive_pool.hpp>

#include "print_container.hpp"
#include "movable_int.hpp"
#include "dummy_test_allocator.hpp"
#include "map_test.hpp"
#include "propagate_allocator_test.hpp"
#include "emplace_test.hpp"

using namespace boost::container;

namespace boost {
namespace container {

//Explicit instantiation to detect compilation errors

//map
template class map
   < test::movable_and_copyable_int
   , test::movable_and_copyable_int
   , std::less<test::movable_and_copyable_int>
   , test::dummy_test_allocator
      < std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >
   >;

template class map
   < test::movable_and_copyable_int
   , test::movable_and_copyable_int
   , std::less<test::movable_and_copyable_int>
   , test::simple_allocator
      < std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >
   >;

template class map
   < test::movable_and_copyable_int
   , test::movable_and_copyable_int
   , std::less<test::movable_and_copyable_int>
   , std::allocator
      < std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >
   >;


template class map
   < test::movable_and_copyable_int
   , test::movable_and_copyable_int
   , std::less<test::movable_and_copyable_int>
   , allocator
      < std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >
   >;

template class map
   < test::movable_and_copyable_int
   , test::movable_and_copyable_int
   , std::less<test::movable_and_copyable_int>
   , adaptive_pool
      < std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >
   >;

template class map
   < test::movable_and_copyable_int
   , test::movable_and_copyable_int
   , std::less<test::movable_and_copyable_int>
   , node_allocator
      < std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >
   >;

//multimap
template class multimap
   < test::movable_and_copyable_int
   , test::movable_and_copyable_int
   , std::less<test::movable_and_copyable_int>
   , test::dummy_test_allocator
      < std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >
   >;

template class multimap
   < test::movable_and_copyable_int
   , test::movable_and_copyable_int
   , std::less<test::movable_and_copyable_int>
   , test::simple_allocator
      < std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >
   >;

template class multimap
   < test::movable_and_copyable_int
   , test::movable_and_copyable_int
   , std::less<test::movable_and_copyable_int>
   , std::allocator
      < std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >
   >;

template class multimap
   < test::movable_and_copyable_int
   , test::movable_and_copyable_int
   , std::less<test::movable_and_copyable_int>
   , allocator
      < std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >
   >;

template class multimap
   < test::movable_and_copyable_int
   , test::movable_and_copyable_int
   , std::less<test::movable_and_copyable_int>
   , adaptive_pool
      < std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >
   >;

template class multimap
   < test::movable_and_copyable_int
   , test::movable_and_copyable_int
   , std::less<test::movable_and_copyable_int>
   , node_allocator
      < std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >
   >;

}} //boost::container

class recursive_map
{
   public:
   recursive_map & operator=(const recursive_map &x)
   {  id_ = x.id_;  map_ = x.map_; return *this;  }

   int id_;
   map<recursive_map, recursive_map> map_;
   friend bool operator< (const recursive_map &a, const recursive_map &b)
   {  return a.id_ < b.id_;   }
};

class recursive_multimap
{
   public:
   recursive_multimap & operator=(const recursive_multimap &x)
   {  id_ = x.id_;  multimap_ = x.multimap_; return *this;  }

   int id_;
   multimap<recursive_multimap, recursive_multimap> multimap_;
   friend bool operator< (const recursive_multimap &a, const recursive_multimap &b)
   {  return a.id_ < b.id_;   }
};

template<class C>
void test_move()
{
   //Now test move semantics
   C original;
   original.emplace();
   C move_ctor(boost::move(original));
   C move_assign;
   move_assign.emplace();
   move_assign = boost::move(move_ctor);
   move_assign.swap(original);
}

template<class T, class A>
class map_propagate_test_wrapper
   : public boost::container::map
      < T, T, std::less<T>
      , typename boost::container::allocator_traits<A>::template
         portable_rebind_alloc< std::pair<const T, T> >::type
      , red_black_tree>
{
   BOOST_COPYABLE_AND_MOVABLE(map_propagate_test_wrapper)
   typedef boost::container::map
      < T, T, std::less<T>
      , typename boost::container::allocator_traits<A>::template
         portable_rebind_alloc< std::pair<const T, T> >::type
      , red_black_tree> Base;
   public:
   map_propagate_test_wrapper()
      : Base()
   {}

   map_propagate_test_wrapper(const map_propagate_test_wrapper &x)
      : Base(x)
   {}

   map_propagate_test_wrapper(BOOST_RV_REF(map_propagate_test_wrapper) x)
      : Base(boost::move(static_cast<Base&>(x)))
   {}

   map_propagate_test_wrapper &operator=(BOOST_COPY_ASSIGN_REF(map_propagate_test_wrapper) x)
   {  this->Base::operator=(x);  return *this; }

   map_propagate_test_wrapper &operator=(BOOST_RV_REF(map_propagate_test_wrapper) x)
   {  this->Base::operator=(boost::move(static_cast<Base&>(x)));  return *this; }

   void swap(map_propagate_test_wrapper &x)
   {  this->Base::swap(x);  }
};


template<class VoidAllocator>
struct GetAllocatorMap
{
   template<class ValueType>
   struct apply
   {
      typedef map< ValueType
                 , ValueType
                 , std::less<ValueType>
                 , typename allocator_traits<VoidAllocator>
                    ::template portable_rebind_alloc< std::pair<const ValueType, ValueType> >::type
                 > map_type;

      typedef multimap< ValueType
                 , ValueType
                 , std::less<ValueType>
                 , typename allocator_traits<VoidAllocator>
                    ::template portable_rebind_alloc< std::pair<const ValueType, ValueType> >::type
                 > multimap_type;
   };
};

template<class VoidAllocator>
int test_map_variants()
{
   typedef typename GetAllocatorMap<VoidAllocator>::template apply<int>::map_type MyMap;
   typedef typename GetAllocatorMap<VoidAllocator>::template apply<test::movable_int>::map_type MyMoveMap;
   typedef typename GetAllocatorMap<VoidAllocator>::template apply<test::movable_and_copyable_int>::map_type MyCopyMoveMap;
   typedef typename GetAllocatorMap<VoidAllocator>::template apply<test::copyable_int>::map_type MyCopyMap;

   typedef typename GetAllocatorMap<VoidAllocator>::template apply<int>::multimap_type MyMultiMap;
   typedef typename GetAllocatorMap<VoidAllocator>::template apply<test::movable_int>::multimap_type MyMoveMultiMap;
   typedef typename GetAllocatorMap<VoidAllocator>::template apply<test::movable_and_copyable_int>::multimap_type MyCopyMoveMultiMap;
   typedef typename GetAllocatorMap<VoidAllocator>::template apply<test::copyable_int>::multimap_type MyCopyMultiMap;

   typedef std::map<int, int>                                     MyStdMap;
   typedef std::multimap<int, int>                                MyStdMultiMap;

   if (0 != test::map_test<
                  MyMap
                  ,MyStdMap
                  ,MyMultiMap
                  ,MyStdMultiMap>()){
      std::cout << "Error in map_test<MyBoostMap>" << std::endl;
      return 1;
   }

   if (0 != test::map_test<
                  MyMoveMap
                  ,MyStdMap
                  ,MyMoveMultiMap
                  ,MyStdMultiMap>()){
      std::cout << "Error in map_test<MyBoostMap>" << std::endl;
      return 1;
   }

   if (0 != test::map_test<
                  MyCopyMoveMap
                  ,MyStdMap
                  ,MyCopyMoveMultiMap
                  ,MyStdMultiMap>()){
      std::cout << "Error in map_test<MyBoostMap>" << std::endl;
      return 1;
   }

   if (0 != test::map_test<
                  MyCopyMap
                  ,MyStdMap
                  ,MyCopyMultiMap
                  ,MyStdMultiMap>()){
      std::cout << "Error in map_test<MyBoostMap>" << std::endl;
      return 1;
   }

   return 0;
}

int main ()
{
   //Recursive container instantiation
   {
      map<recursive_map, recursive_map> map_;
      multimap<recursive_multimap, recursive_multimap> multimap_;
   }
   //Allocator argument container
   {
      map<int, int> map_((std::allocator<std::pair<const int, int> >()));
      multimap<int, int> multimap_((std::allocator<std::pair<const int, int> >()));
   }
   //Now test move semantics
   {
      test_move<map<recursive_map, recursive_map> >();
      test_move<multimap<recursive_multimap, recursive_multimap> >();
   }

   if(test_map_variants< std::allocator<void> >()){
      std::cerr << "test_map_variants< std::allocator<void> > failed" << std::endl;
      return 1;
   }

   if(test_map_variants< allocator<void> >()){
      std::cerr << "test_map_variants< allocator<void> > failed" << std::endl;
      return 1;
   }

   if(test_map_variants< node_allocator<void> >()){
      std::cerr << "test_map_variants< node_allocator<void> > failed" << std::endl;
      return 1;
   }

   if(test_map_variants< adaptive_pool<void> >()){
      std::cerr << "test_map_variants< adaptive_pool<void> > failed" << std::endl;
      return 1;
   }

   const test::EmplaceOptions MapOptions = (test::EmplaceOptions)(test::EMPLACE_HINT_PAIR | test::EMPLACE_ASSOC_PAIR);
   if(!boost::container::test::test_emplace<map<test::EmplaceInt, test::EmplaceInt>, MapOptions>())
      return 1;
   if(!boost::container::test::test_emplace<multimap<test::EmplaceInt, test::EmplaceInt>, MapOptions>())
      return 1;
   if(!boost::container::test::test_propagate_allocator<map_propagate_test_wrapper>())
      return 1;

   return 0;
}

#include <boost/container/detail/config_end.hpp>
- Modified relational operators to be friend inline definitions. This allows compilation checking when instantiating classes, avoids predeclarations and results in less verbose code. - First to make associative containers' tree implementation configurable. 2013-12-23 23:34:28 +01:00			`//////////////////////////////////////////////////////////////////////////////`
			`//`
			`// (C) Copyright Ion Gaztanaga 2004-2013. 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/container for documentation.`
			`//`
			`//////////////////////////////////////////////////////////////////////////////`
			`#include <boost/container/detail/config_begin.hpp>`
			`#include <boost/container/map.hpp>`
			`#include <boost/container/allocator.hpp>`
			`#include <boost/container/node_allocator.hpp>`
			`#include <boost/container/adaptive_pool.hpp>`

			`#include "print_container.hpp"`
			`#include "movable_int.hpp"`
			`#include "dummy_test_allocator.hpp"`
			`#include "map_test.hpp"`
			`#include "propagate_allocator_test.hpp"`
			`#include "emplace_test.hpp"`

			`using namespace boost::container;`

			`namespace boost {`
			`namespace container {`

			`//Explicit instantiation to detect compilation errors`

			`//map`
			`template class map`
			`< test::movable_and_copyable_int`
			`, test::movable_and_copyable_int`
			`, std::less<test::movable_and_copyable_int>`
			`, test::dummy_test_allocator`
			`< std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >`
			`>;`

			`template class map`
			`< test::movable_and_copyable_int`
			`, test::movable_and_copyable_int`
			`, std::less<test::movable_and_copyable_int>`
			`, test::simple_allocator`
			`< std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >`
			`>;`

			`template class map`
			`< test::movable_and_copyable_int`
			`, test::movable_and_copyable_int`
			`, std::less<test::movable_and_copyable_int>`
			`, std::allocator`
			`< std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >`
			`>;`


			`template class map`
			`< test::movable_and_copyable_int`
			`, test::movable_and_copyable_int`
			`, std::less<test::movable_and_copyable_int>`
			`, allocator`
			`< std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >`
			`>;`

			`template class map`
			`< test::movable_and_copyable_int`
			`, test::movable_and_copyable_int`
			`, std::less<test::movable_and_copyable_int>`
			`, adaptive_pool`
			`< std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >`
			`>;`

			`template class map`
			`< test::movable_and_copyable_int`
			`, test::movable_and_copyable_int`
			`, std::less<test::movable_and_copyable_int>`
			`, node_allocator`
			`< std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >`
			`>;`

			`//multimap`
			`template class multimap`
			`< test::movable_and_copyable_int`
			`, test::movable_and_copyable_int`
			`, std::less<test::movable_and_copyable_int>`
			`, test::dummy_test_allocator`
			`< std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >`
			`>;`

			`template class multimap`
			`< test::movable_and_copyable_int`
			`, test::movable_and_copyable_int`
			`, std::less<test::movable_and_copyable_int>`
			`, test::simple_allocator`
			`< std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >`
			`>;`

			`template class multimap`
			`< test::movable_and_copyable_int`
			`, test::movable_and_copyable_int`
			`, std::less<test::movable_and_copyable_int>`
			`, std::allocator`
			`< std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >`
			`>;`

			`template class multimap`
			`< test::movable_and_copyable_int`
			`, test::movable_and_copyable_int`
			`, std::less<test::movable_and_copyable_int>`
			`, allocator`
			`< std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >`
			`>;`

			`template class multimap`
			`< test::movable_and_copyable_int`
			`, test::movable_and_copyable_int`
			`, std::less<test::movable_and_copyable_int>`
			`, adaptive_pool`
			`< std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >`
			`>;`

			`template class multimap`
			`< test::movable_and_copyable_int`
			`, test::movable_and_copyable_int`
			`, std::less<test::movable_and_copyable_int>`
			`, node_allocator`
			`< std::pair<const test::movable_and_copyable_int, test::movable_and_copyable_int> >`
			`>;`

			`}} //boost::container`

			`class recursive_map`
			`{`
			`public:`
			`recursive_map & operator=(const recursive_map &x)`
			`{ id_ = x.id_; map_ = x.map_; return *this; }`

			`int id_;`
			`map<recursive_map, recursive_map> map_;`
			`friend bool operator< (const recursive_map &a, const recursive_map &b)`
			`{ return a.id_ < b.id_; }`
			`};`

			`class recursive_multimap`
			`{`
			`public:`
			`recursive_multimap & operator=(const recursive_multimap &x)`
			`{ id_ = x.id_; multimap_ = x.multimap_; return *this; }`

			`int id_;`
			`multimap<recursive_multimap, recursive_multimap> multimap_;`
			`friend bool operator< (const recursive_multimap &a, const recursive_multimap &b)`
			`{ return a.id_ < b.id_; }`
			`};`

			`template<class C>`
			`void test_move()`
			`{`
			`//Now test move semantics`
			`C original;`
			`original.emplace();`
			`C move_ctor(boost::move(original));`
			`C move_assign;`
			`move_assign.emplace();`
			`move_assign = boost::move(move_ctor);`
			`move_assign.swap(original);`
			`}`

			`template<class T, class A>`
Added a static assert to make sure that flat_[xxx]map::allocator_type::value_type is std::pair<Key, T>. Fixed some test cases failing to do that properly. 2013-12-24 19:00:52 +01:00			`class map_propagate_test_wrapper`
			`: public boost::container::map`
			`< T, T, std::less<T>`
			`, typename boost::container::allocator_traits<A>::template`
			`portable_rebind_alloc< std::pair<const T, T> >::type`
			`, red_black_tree>`
- Modified relational operators to be friend inline definitions. This allows compilation checking when instantiating classes, avoids predeclarations and results in less verbose code. - First to make associative containers' tree implementation configurable. 2013-12-23 23:34:28 +01:00			`{`
Added a static assert to make sure that flat_[xxx]map::allocator_type::value_type is std::pair<Key, T>. Fixed some test cases failing to do that properly. 2013-12-24 19:00:52 +01:00			`BOOST_COPYABLE_AND_MOVABLE(map_propagate_test_wrapper)`
			`typedef boost::container::map`
			`< T, T, std::less<T>`
			`, typename boost::container::allocator_traits<A>::template`
			`portable_rebind_alloc< std::pair<const T, T> >::type`
			`, red_black_tree> Base;`
- Modified relational operators to be friend inline definitions. This allows compilation checking when instantiating classes, avoids predeclarations and results in less verbose code. - First to make associative containers' tree implementation configurable. 2013-12-23 23:34:28 +01:00			`public:`
Added a static assert to make sure that flat_[xxx]map::allocator_type::value_type is std::pair<Key, T>. Fixed some test cases failing to do that properly. 2013-12-24 19:00:52 +01:00			`map_propagate_test_wrapper()`
- Modified relational operators to be friend inline definitions. This allows compilation checking when instantiating classes, avoids predeclarations and results in less verbose code. - First to make associative containers' tree implementation configurable. 2013-12-23 23:34:28 +01:00			`: Base()`
			`{}`

Added a static assert to make sure that flat_[xxx]map::allocator_type::value_type is std::pair<Key, T>. Fixed some test cases failing to do that properly. 2013-12-24 19:00:52 +01:00			`map_propagate_test_wrapper(const map_propagate_test_wrapper &x)`
- Modified relational operators to be friend inline definitions. This allows compilation checking when instantiating classes, avoids predeclarations and results in less verbose code. - First to make associative containers' tree implementation configurable. 2013-12-23 23:34:28 +01:00			`: Base(x)`
			`{}`

Added a static assert to make sure that flat_[xxx]map::allocator_type::value_type is std::pair<Key, T>. Fixed some test cases failing to do that properly. 2013-12-24 19:00:52 +01:00			`map_propagate_test_wrapper(BOOST_RV_REF(map_propagate_test_wrapper) x)`
- Modified relational operators to be friend inline definitions. This allows compilation checking when instantiating classes, avoids predeclarations and results in less verbose code. - First to make associative containers' tree implementation configurable. 2013-12-23 23:34:28 +01:00			`: Base(boost::move(static_cast<Base&>(x)))`
			`{}`

Added a static assert to make sure that flat_[xxx]map::allocator_type::value_type is std::pair<Key, T>. Fixed some test cases failing to do that properly. 2013-12-24 19:00:52 +01:00			`map_propagate_test_wrapper &operator=(BOOST_COPY_ASSIGN_REF(map_propagate_test_wrapper) x)`
- Modified relational operators to be friend inline definitions. This allows compilation checking when instantiating classes, avoids predeclarations and results in less verbose code. - First to make associative containers' tree implementation configurable. 2013-12-23 23:34:28 +01:00			`{ this->Base::operator=(x); return *this; }`

Added a static assert to make sure that flat_[xxx]map::allocator_type::value_type is std::pair<Key, T>. Fixed some test cases failing to do that properly. 2013-12-24 19:00:52 +01:00			`map_propagate_test_wrapper &operator=(BOOST_RV_REF(map_propagate_test_wrapper) x)`
- Modified relational operators to be friend inline definitions. This allows compilation checking when instantiating classes, avoids predeclarations and results in less verbose code. - First to make associative containers' tree implementation configurable. 2013-12-23 23:34:28 +01:00			`{ this->Base::operator=(boost::move(static_cast<Base&>(x))); return *this; }`

Added a static assert to make sure that flat_[xxx]map::allocator_type::value_type is std::pair<Key, T>. Fixed some test cases failing to do that properly. 2013-12-24 19:00:52 +01:00			`void swap(map_propagate_test_wrapper &x)`
- Modified relational operators to be friend inline definitions. This allows compilation checking when instantiating classes, avoids predeclarations and results in less verbose code. - First to make associative containers' tree implementation configurable. 2013-12-23 23:34:28 +01:00			`{ this->Base::swap(x); }`
			`};`


			`template<class VoidAllocator>`
			`struct GetAllocatorMap`
			`{`
			`template<class ValueType>`
			`struct apply`
			`{`
			`typedef map< ValueType`
			`, ValueType`
			`, std::less<ValueType>`
			`, typename allocator_traits<VoidAllocator>`
			`::template portable_rebind_alloc< std::pair<const ValueType, ValueType> >::type`
			`> map_type;`

			`typedef multimap< ValueType`
			`, ValueType`
			`, std::less<ValueType>`
			`, typename allocator_traits<VoidAllocator>`
			`::template portable_rebind_alloc< std::pair<const ValueType, ValueType> >::type`
			`> multimap_type;`
			`};`
			`};`

			`template<class VoidAllocator>`
			`int test_map_variants()`
			`{`
			`typedef typename GetAllocatorMap<VoidAllocator>::template apply<int>::map_type MyMap;`
			`typedef typename GetAllocatorMap<VoidAllocator>::template apply<test::movable_int>::map_type MyMoveMap;`
			`typedef typename GetAllocatorMap<VoidAllocator>::template apply<test::movable_and_copyable_int>::map_type MyCopyMoveMap;`
			`typedef typename GetAllocatorMap<VoidAllocator>::template apply<test::copyable_int>::map_type MyCopyMap;`

			`typedef typename GetAllocatorMap<VoidAllocator>::template apply<int>::multimap_type MyMultiMap;`
			`typedef typename GetAllocatorMap<VoidAllocator>::template apply<test::movable_int>::multimap_type MyMoveMultiMap;`
			`typedef typename GetAllocatorMap<VoidAllocator>::template apply<test::movable_and_copyable_int>::multimap_type MyCopyMoveMultiMap;`
			`typedef typename GetAllocatorMap<VoidAllocator>::template apply<test::copyable_int>::multimap_type MyCopyMultiMap;`

			`typedef std::map<int, int> MyStdMap;`
			`typedef std::multimap<int, int> MyStdMultiMap;`

			`if (0 != test::map_test<`
			`MyMap`
			`,MyStdMap`
			`,MyMultiMap`
			`,MyStdMultiMap>()){`
			`std::cout << "Error in map_test<MyBoostMap>" << std::endl;`
			`return 1;`
			`}`

			`if (0 != test::map_test<`
			`MyMoveMap`
			`,MyStdMap`
			`,MyMoveMultiMap`
			`,MyStdMultiMap>()){`
			`std::cout << "Error in map_test<MyBoostMap>" << std::endl;`
			`return 1;`
			`}`

			`if (0 != test::map_test<`
			`MyCopyMoveMap`
			`,MyStdMap`
			`,MyCopyMoveMultiMap`
			`,MyStdMultiMap>()){`
			`std::cout << "Error in map_test<MyBoostMap>" << std::endl;`
			`return 1;`
			`}`

			`if (0 != test::map_test<`
			`MyCopyMap`
			`,MyStdMap`
			`,MyCopyMultiMap`
			`,MyStdMultiMap>()){`
			`std::cout << "Error in map_test<MyBoostMap>" << std::endl;`
			`return 1;`
			`}`

			`return 0;`
			`}`

			`int main ()`
			`{`
			`//Recursive container instantiation`
			`{`
			`map<recursive_map, recursive_map> map_;`
			`multimap<recursive_multimap, recursive_multimap> multimap_;`
			`}`
			`//Allocator argument container`
			`{`
			`map<int, int> map_((std::allocator<std::pair<const int, int> >()));`
			`multimap<int, int> multimap_((std::allocator<std::pair<const int, int> >()));`
			`}`
			`//Now test move semantics`
			`{`
			`test_move<map<recursive_map, recursive_map> >();`
			`test_move<multimap<recursive_multimap, recursive_multimap> >();`
			`}`

			`if(test_map_variants< std::allocator<void> >()){`
			`std::cerr << "test_map_variants< std::allocator<void> > failed" << std::endl;`
			`return 1;`
			`}`

			`if(test_map_variants< allocator<void> >()){`
			`std::cerr << "test_map_variants< allocator<void> > failed" << std::endl;`
			`return 1;`
			`}`

			`if(test_map_variants< node_allocator<void> >()){`
			`std::cerr << "test_map_variants< node_allocator<void> > failed" << std::endl;`
			`return 1;`
			`}`

			`if(test_map_variants< adaptive_pool<void> >()){`
			`std::cerr << "test_map_variants< adaptive_pool<void> > failed" << std::endl;`
			`return 1;`
			`}`

			`const test::EmplaceOptions MapOptions = (test::EmplaceOptions)(test::EMPLACE_HINT_PAIR \| test::EMPLACE_ASSOC_PAIR);`
			`if(!boost::container::test::test_emplace<map<test::EmplaceInt, test::EmplaceInt>, MapOptions>())`
			`return 1;`
			`if(!boost::container::test::test_emplace<multimap<test::EmplaceInt, test::EmplaceInt>, MapOptions>())`
			`return 1;`
Added a static assert to make sure that flat_[xxx]map::allocator_type::value_type is std::pair<Key, T>. Fixed some test cases failing to do that properly. 2013-12-24 19:00:52 +01:00			`if(!boost::container::test::test_propagate_allocator<map_propagate_test_wrapper>())`
- Modified relational operators to be friend inline definitions. This allows compilation checking when instantiating classes, avoids predeclarations and results in less verbose code. - First to make associative containers' tree implementation configurable. 2013-12-23 23:34:28 +01:00			`return 1;`

			`return 0;`
			`}`

			`#include <boost/container/detail/config_end.hpp>`