boost_1_45_0/libs/range/test/atl.cpp - nest-learning-thermostat/5.0/boost - Git at Google



 // Boost.Range ATL Extension
 //
 // Copyright Shunsuke Sogame 2005-2006.
 // 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 <pstade/vodka/drink.hpp>

 #include <boost/test/test_tools.hpp>
 #define _ATL_CSTRING_EXPLICIT_CONSTRUCTORS
 #define _ATL_NO_AUTOMATIC_NAMESPACE

 #define BOOST_LIB_NAME boost_test_exec_monitor
 #include <boost/config/auto_link.hpp>

 #define BOOST_RANGE_DETAIL_MICROSOFT_TEST
 #include <boost/range/atl.hpp> // can be placed first


 #include <map>
 #include <string>
 #include <boost/concept_check.hpp>
 #include <boost/mpl/if.hpp>
 #include <boost/range/begin.hpp>
 #include <boost/range/distance.hpp>
 #include <boost/range/iterator_range.hpp>
 #include <boost/static_assert.hpp>
 #include <boost/type_traits/is_same.hpp>


 #include <boost/foreach.hpp>


 #include <atlbase.h> // for ATL3 CSimpleArray/CSimpleValArray
 #if !(_ATL_VER < 0x0700)
     #include <atlcoll.h>
     #include <cstringt.h>
     #include <atlsimpstr.h>
     #include <atlstr.h>
 #endif


 namespace brdm = boost::range_detail_microsoft;


 #if !(_ATL_VER < 0x0700)


 template< class ArrayT, class SampleRange >
 bool test_init_auto_ptr_array(ArrayT& arr, SampleRange& sample)
 {
     typedef typename boost::range_iterator<SampleRange>::type iter_t;

     for (iter_t it = boost::begin(sample), last = boost::end(sample); it != last; ++it) {
         arr.Add(*it); // moves ownership
     }

     return boost::distance(arr) == boost::distance(sample);
 }


 template< class ListT, class SampleRange >
 bool test_init_auto_ptr_list(ListT& lst, SampleRange& sample)
 {
     typedef typename boost::range_iterator<SampleRange>::type iter_t;
     typedef typename boost::range_value<SampleRange>::type val_t;

     for (iter_t it = boost::begin(sample), last = boost::end(sample); it != last; ++it) {
         lst.AddTail(*it); // moves ownership
     }

     return boost::distance(lst) == boost::distance(sample);
 }


 // Workaround:
 // CRBTree provides no easy access function, but yes, it is the range!
 //
 template< class AtlMapT, class KeyT, class MappedT >
 bool test_atl_map_has(AtlMapT& map, const KeyT& k, const MappedT m)
 {
     typedef typename boost::range_iterator<AtlMapT>::type iter_t;

     for (iter_t it = boost::begin(map), last = boost::end(map); it != last; ++it) {
         if (it->m_key == k && it->m_value == m)
             return true;
     }

     return false;
 }


 template< class AtlMapT, class MapT >
 bool test_atl_map(AtlMapT& map, const MapT& sample)
 {
     typedef typename boost::range_iterator<AtlMapT>::type iter_t;
     typedef typename boost::range_const_iterator<MapT>::type siter_t;

     bool result = true;

     result = result && (boost::distance(map) == boost::distance(sample));
     if (!result)
         return false;

     {
         for (iter_t it = boost::begin(map), last = boost::end(map); it != last; ++it) {
             result = result && brdm::test_find_key_and_mapped(sample, std::make_pair(it->m_key, it->m_value));
         }
     }

     {
         for (siter_t it = boost::begin(sample), last = boost::end(sample); it != last; ++it) {
             result = result && (test_atl_map_has)(map, it->first, it->second);
         }
     }

     return result;
 }


 template< class MapT, class SampleMap >
 bool test_init_atl_multimap(MapT& map, const SampleMap& sample)
 {
     typedef typename boost::range_const_iterator<SampleMap>::type iter_t;

     for (iter_t it = boost::const_begin(sample), last = boost::const_end(sample); it != last; ++it) {
         map.Insert(it->first, it->second);
     }

     return boost::distance(map) == boost::distance(sample);
 }


 // arrays
 //

 template< class Range >
 void test_CAtlArray(const Range& sample)
 {
     typedef typename boost::range_value<Range>::type val_t;

     typedef ATL::CAtlArray<val_t> rng_t;
     BOOST_STATIC_ASSERT(( brdm::test_mutable_iter<rng_t, val_t *>::value ));
     BOOST_STATIC_ASSERT(( brdm::test_const_iter  <rng_t, val_t const*>::value ));

     rng_t rng;
     BOOST_CHECK( brdm::test_init_array(rng, sample) );
     BOOST_CHECK( brdm::test_random_access(rng) );
     BOOST_CHECK( brdm::test_emptiness(rng) );
 }


 template< class ValT, class Range >
 void test_CAutoPtrArray(Range& sample)
 {
     typedef ValT val_t;

     typedef ATL::CAutoPtrArray<val_t> rng_t;
     BOOST_STATIC_ASSERT(( brdm::test_mutable_iter<rng_t, boost::indirect_iterator< ATL::CAutoPtr<val_t> *> >::value ));
     BOOST_STATIC_ASSERT(( brdm::test_const_iter  <rng_t, boost::indirect_iterator< ATL::CAutoPtr<val_t> const*> >::value ));

     rng_t rng;
     BOOST_CHECK( ::test_init_auto_ptr_array(rng, sample) );
     BOOST_CHECK( brdm::test_random_access(rng) );
     BOOST_CHECK( brdm::test_emptiness(rng) );
 }


 template< class I, class Range >
 void test_CInterfaceArray(const Range& sample)
 {
     typedef typename boost::range_value<Range>::type val_t;

     typedef ATL::CInterfaceArray<I> rng_t;
     BOOST_STATIC_ASSERT(( brdm::test_mutable_iter<rng_t, ATL::CComQIPtr<I> * >::value ));
     BOOST_STATIC_ASSERT(( brdm::test_const_iter  <rng_t, ATL::CComQIPtr<I> const* >::value ));

     rng_t rng;
     BOOST_CHECK( brdm::test_init_array(rng, sample) );
     BOOST_CHECK( brdm::test_random_access(rng) );
     BOOST_CHECK( brdm::test_emptiness(rng) );
 }


 // lists
 //

 template< class Range >
 void test_CAtlList(const Range& sample)
 {
     typedef typename boost::range_value<Range>::type val_t;

     typedef ATL::CAtlList<val_t> rng_t;
     BOOST_STATIC_ASSERT(( brdm::test_mutable_iter< rng_t, brdm::list_iterator<rng_t,       val_t> >::value ));
     BOOST_STATIC_ASSERT(( brdm::test_const_iter  < rng_t, brdm::list_iterator<rng_t const, val_t const> >::value ));

     rng_t rng;
     BOOST_CHECK( brdm::test_init_list(rng, sample) );
     BOOST_CHECK( brdm::test_bidirectional(rng) );
     BOOST_CHECK( brdm::test_emptiness(rng) );
 }


 template< class ValT, class Range >
 void test_CAutoPtrList(Range& sample)
 {
     typedef ValT val_t;

     typedef ATL::CAutoPtrList<val_t> rng_t;
     BOOST_STATIC_ASSERT(( brdm::test_mutable_iter< rng_t, boost::indirect_iterator< brdm::list_iterator<rng_t,       ATL::CAutoPtr<val_t> > > >::value ));
     BOOST_STATIC_ASSERT(( brdm::test_const_iter  < rng_t, boost::indirect_iterator< brdm::list_iterator<rng_t const, ATL::CAutoPtr<val_t> const> > >::value ));

     rng_t rng;
     BOOST_CHECK( ::test_init_auto_ptr_list(rng, sample) );
     BOOST_CHECK( brdm::test_bidirectional(rng) );
     BOOST_CHECK( brdm::test_emptiness(rng) );
 }


 template< class ValT, class Range >
 void test_CHeapPtrList(const Range& sample)
 {
     typedef ValT val_t;

     typedef ATL::CHeapPtrList<val_t> rng_t;
     BOOST_STATIC_ASSERT(( brdm::test_mutable_iter< rng_t, boost::indirect_iterator< brdm::list_iterator<rng_t,       ATL::CHeapPtr<val_t> > > >::value ));
     BOOST_STATIC_ASSERT(( brdm::test_const_iter  < rng_t, boost::indirect_iterator< brdm::list_iterator<rng_t const, ATL::CHeapPtr<val_t> const> > >::value ));

     rng_t rng;
     BOOST_CHECK( ::test_init_auto_ptr_list(rng, sample) );
     BOOST_CHECK( brdm::test_bidirectional(rng) );
     BOOST_CHECK( brdm::test_emptiness(rng) );
 }


 template< class I, class Range >
 void test_CInterfaceList(const Range& sample)
 {
     typedef typename boost::range_value<Range>::type val_t;

     typedef ATL::CInterfaceList<I> rng_t;
     BOOST_STATIC_ASSERT(( brdm::test_mutable_iter< rng_t, brdm::list_iterator<rng_t,       ATL::CComQIPtr<I> > >::value ));
     BOOST_STATIC_ASSERT(( brdm::test_const_iter  < rng_t, brdm::list_iterator<rng_t const, ATL::CComQIPtr<I> const> >::value ));

     rng_t rng;
     BOOST_CHECK( brdm::test_init_list(rng, sample) );
     BOOST_CHECK( brdm::test_bidirectional(rng) );
     BOOST_CHECK( brdm::test_emptiness(rng) );
 }


 // strings
 //

 template< class Range >
 void test_CSimpleStringT(const Range& sample)
 {
     typedef typename boost::range_value<Range>::type val_t;

     typedef typename boost::mpl::if_< boost::is_same<val_t, char>,
         ATL::CAtlStringA,
         ATL::CAtlStringW
     >::type derived_t;

     typedef ATL::CSimpleStringT<val_t> rng_t;
     BOOST_STATIC_ASSERT(( brdm::test_mutable_iter<rng_t, typename rng_t::PXSTR>::value ));
     BOOST_STATIC_ASSERT(( brdm::test_const_iter  <rng_t, typename rng_t::PCXSTR>::value ));

     derived_t drng;
     rng_t& rng = drng;
     BOOST_CHECK( brdm::test_init_string(rng, sample) );
     BOOST_CHECK( brdm::test_random_access(rng) );
     // BOOST_CHECK( brdm::test_emptiness(rng) ); no default constructible
 }


 template< int n, class Range >
 void test_CFixedStringT(const Range& sample)
 {
     typedef typename boost::range_value<Range>::type val_t;

     typedef typename boost::mpl::if_< boost::is_same<val_t, char>,
         ATL::CAtlStringA,
         ATL::CAtlStringW
     >::type base_t;

     typedef ATL::CFixedStringT<base_t, n> rng_t;
     BOOST_STATIC_ASSERT(( brdm::test_mutable_iter<rng_t, typename rng_t::PXSTR>::value ));
     BOOST_STATIC_ASSERT(( brdm::test_const_iter  <rng_t, typename rng_t::PCXSTR>::value ));

     rng_t rng;
     BOOST_CHECK( brdm::test_init_string(rng, sample) );
     BOOST_CHECK( brdm::test_random_access(rng) );
     BOOST_CHECK( brdm::test_emptiness(rng) );
 }


 template< class Range >
 void test_CStringT(const Range& sample)
 {
     typedef typename boost::range_value<Range>::type val_t;

     typedef typename boost::mpl::if_< boost::is_same<val_t, char>,
         ATL::CAtlStringA, // == CStringT<char, X>
         ATL::CAtlStringW  // == CStringT<wchar_t, X>
     >::type rng_t;

     BOOST_STATIC_ASSERT(( brdm::test_mutable_iter<rng_t, typename rng_t::PXSTR>::value ));
     BOOST_STATIC_ASSERT(( brdm::test_const_iter  <rng_t, typename rng_t::PCXSTR>::value ));

     rng_t rng;
     BOOST_CHECK( brdm::test_init_string(rng, sample) );
     BOOST_CHECK( brdm::test_random_access(rng) );
     BOOST_CHECK( brdm::test_emptiness(rng) );
 }


 template< class Range >
 void test_CStaticString(const Range& sample)
 {
 #if !defined(BOOST_RANGE_ATL_NO_TEST_UNDOCUMENTED_RANGE)
     {
         typedef ATL::CStaticString<char, 20> rng_t;
         BOOST_STATIC_ASSERT(( brdm::test_mutable_iter<rng_t, char const *>::value ));
         BOOST_STATIC_ASSERT(( brdm::test_const_iter  <rng_t, char const *>::value ));

         rng_t rng("hello static string");
         BOOST_CHECK( *(boost::begin(rng)+4) == 'o' );
         BOOST_CHECK( *(boost::end(rng)-3) == 'i' );
     }

     {
         typedef ATL::CStaticString<wchar_t, 40> rng_t;
         BOOST_STATIC_ASSERT(( brdm::test_mutable_iter<rng_t, wchar_t const *>::value ));
         BOOST_STATIC_ASSERT(( brdm::test_const_iter  <rng_t, wchar_t const *>::value ));

         rng_t rng(L"hello static string");
         BOOST_CHECK( *(boost::begin(rng)+4) == L'o' );
         BOOST_CHECK( *(boost::end(rng)-3) == L'i' );
     }
 #endif

     (void)sample; // unused
 }


 #endif // !(_ATL_VER < 0x0700)


 template< class Range >
 void test_CComBSTR(const Range& sample)
 {
     typedef ATL::CComBSTR rng_t;
     BOOST_STATIC_ASSERT(( brdm::test_mutable_iter<rng_t, OLECHAR *>::value ));
     BOOST_STATIC_ASSERT(( brdm::test_const_iter  <rng_t, OLECHAR const*>::value ));

     rng_t rng(OLESTR("hello CComBSTR range!"));
     BOOST_CHECK( brdm::test_equals(rng, std::string("hello CComBSTR range!")) );
     BOOST_CHECK( brdm::test_random_access(rng) );
     BOOST_CHECK( brdm::test_emptiness(rng) );

     (void)sample; // unused
 }


 // simples
 //

 template< class Range >
 void test_CSimpleArray(const Range& sample)
 {
     typedef typename boost::range_value<Range>::type val_t;

     typedef ATL::CSimpleArray<val_t> rng_t;
     BOOST_STATIC_ASSERT(( brdm::test_mutable_iter<rng_t, val_t *>::value ));
     BOOST_STATIC_ASSERT(( brdm::test_const_iter  <rng_t, val_t const*>::value ));

     rng_t rng;
     BOOST_CHECK( brdm::test_init_array(rng, sample) );
     BOOST_CHECK( brdm::test_random_access(rng) );
     BOOST_CHECK( brdm::test_emptiness(rng) );
 }


 template< class Range >
 void test_CSimpleMap(const Range& sample)
 {
 #if !defined(BOOST_RANGE_ATL_NO_TEST_UNDOCUMENTED_RANGE)

     typedef ATL::CSimpleMap<int, double> rng_t;

     rng_t rng;
     rng.Add(3, 3.0);
     rng.Add(4, 2.0);

     BOOST_CHECK( boost::begin(rng)->get<0>() == 3.0 );
     BOOST_CHECK( (boost::end(rng)-1)->get<1>() == 2.0 );

 #endif

     (void)sample; // unused
 }


 template< class Range >
 void test_CSimpleValArray(const Range& sample)
 {
     typedef typename boost::range_value<Range>::type val_t;

     typedef ATL::CSimpleArray<val_t> rng_t;
     BOOST_STATIC_ASSERT(( brdm::test_mutable_iter<rng_t, val_t *>::value ));
     BOOST_STATIC_ASSERT(( brdm::test_const_iter  <rng_t, val_t const*>::value ));

     rng_t rng;
     BOOST_CHECK( brdm::test_init_array(rng, sample) );
     BOOST_CHECK( brdm::test_random_access(rng) );
     BOOST_CHECK( brdm::test_emptiness(rng) );
 }


 // maps
 //

 template< class MapT >
 void test_CAtlMap(const MapT& sample)
 {
     typedef typename MapT::key_type k_t;
     typedef typename MapT::mapped_type m_t;

     typedef ATL::CAtlMap<k_t, m_t> rng_t;

     rng_t rng;
     boost::function_requires< boost::ForwardRangeConcept<rng_t> >();
     BOOST_CHECK( brdm::test_init_map(rng, sample) );
     BOOST_CHECK( ::test_atl_map(rng, sample) );
 }


 template< class MapT >
 void test_CRBTree(const MapT& sample)
 {
     typedef typename MapT::key_type k_t;
     typedef typename MapT::mapped_type m_t;

     typedef ATL::CRBMap<k_t, m_t> derived_t;
     typedef ATL::CRBTree<k_t, m_t> rng_t;

     derived_t drng;
     rng_t& rng = drng;

     boost::function_requires< boost::BidirectionalRangeConcept<rng_t> >();
     BOOST_CHECK( brdm::test_init_map(drng, sample) );
     BOOST_CHECK( ::test_atl_map(rng, sample) );
 }


 template< class MapT >
 void test_CRBMap(const MapT& sample)
 {
     typedef typename MapT::key_type k_t;
     typedef typename MapT::mapped_type m_t;

     typedef ATL::CRBMap<k_t, m_t> rng_t;

     rng_t rng;
     boost::function_requires< boost::BidirectionalRangeConcept<rng_t> >();
     BOOST_CHECK( brdm::test_init_map(rng, sample) );
     BOOST_CHECK( ::test_atl_map(rng, sample) );
 }


 template< class MapT >
 void test_CRBMultiMap(const MapT& sample)
 {
     typedef typename MapT::key_type k_t;
     typedef typename MapT::mapped_type m_t;

     typedef ATL::CRBMultiMap<k_t, m_t> rng_t;

     rng_t rng;
     boost::function_requires< boost::BidirectionalRangeConcept<rng_t> >();
     BOOST_CHECK( ::test_init_atl_multimap(rng, sample) );
     BOOST_CHECK( ::test_atl_map(rng, sample) );
 }


 // main test
 //

 void test_atl()
 {

     // ordinary ranges
     //
     {
         std::string sample("rebecca judy and mary whiteberry chat monchy");
 #if !(_ATL_VER < 0x0700)
         ::test_CAtlArray(sample);
         ::test_CAtlList(sample);
         ::test_CSimpleStringT(sample);
         ::test_CFixedStringT<44>(sample);
         ::test_CStringT(sample);
         ::test_CStaticString(sample);
 #endif
         ::test_CComBSTR(sample);
         ::test_CSimpleArray(sample);
         ::test_CSimpleMap(sample);
         ::test_CSimpleValArray(sample);
     }


     {
         std::wstring sample(L"rebecca judy and mary whiteberry chat monchy");
 #if !(_ATL_VER < 0x0700)
         ::test_CAtlArray(sample);
         ::test_CAtlList(sample);
         ::test_CSimpleStringT(sample);
         ::test_CFixedStringT<44>(sample);
         ::test_CStringT(sample);
         ::test_CStaticString(sample);
 #endif
         ::test_CComBSTR(sample);
         ::test_CSimpleArray(sample);
         ::test_CSimpleMap(sample);
         ::test_CSimpleValArray(sample);
     }

     // pointer ranges
     //
 #if !(_ATL_VER < 0x0700)
     {
         typedef ATL::CAutoPtr<int> ptr_t;
         ptr_t
             ptr0(new int(3)), ptr1(new int(4)), ptr2(new int(5)), ptr3(new int(4)),
             ptr4(new int(1)), ptr5(new int(2)), ptr6(new int(4)), ptr7(new int(0));

         ptr_t ptrs[8] = {
             ptr0, ptr1, ptr2, ptr3, ptr4, ptr5, ptr6, ptr7
         };

         boost::iterator_range< ptr_t * > workaround(ptrs, ptrs+8);
         ::test_CAutoPtrArray<int>(workaround);
     }

     {
         typedef ATL::CAutoPtr<int> ptr_t;
         ptr_t
             ptr0(new int(3)), ptr1(new int(4)), ptr2(new int(5)), ptr3(new int(4)),
             ptr4(new int(1)), ptr5(new int(2)), ptr6(new int(4)), ptr7(new int(0));

         ptr_t ptrs[8] = {
             ptr0, ptr1, ptr2, ptr3, ptr4, ptr5, ptr6, ptr7
         };

         boost::iterator_range< ptr_t * > workaround(ptrs, ptrs+8);
         ::test_CAutoPtrList<int>(workaround);
     }

     {
         typedef ATL::CHeapPtr<int> ptr_t;
         ptr_t ptrs[5]; {
             ptrs[0].AllocateBytes(sizeof(int));
             ptrs[1].AllocateBytes(sizeof(int));
             ptrs[2].AllocateBytes(sizeof(int));
             ptrs[3].AllocateBytes(sizeof(int));
             ptrs[4].AllocateBytes(sizeof(int));
         }

         boost::iterator_range< ptr_t * > workaround(ptrs, ptrs+5);
         ::test_CHeapPtrList<int>(workaround);
     }


     {
         typedef ATL::CComQIPtr<IDispatch> ptr_t;
         ptr_t ptrs[8];

         boost::iterator_range< ptr_t * > workaround(ptrs, ptrs+8);
         ::test_CInterfaceArray<IDispatch>(workaround);
         ::test_CInterfaceList<IDispatch>(workaround);
     }
 #endif

     // maps
     //
     {
 #if !(_ATL_VER < 0x0700)
         std::map<int, std::string> sample; {
             sample[0] = "hello";
             sample[1] = "range";
             sample[2] = "atl";
             sample[3] = "mfc";
             sample[4] = "collections";
         }

         ::test_CAtlMap(sample);
         ::test_CRBTree(sample);
         ::test_CRBMap(sample);
         ::test_CRBMultiMap(sample);
 #endif
     }


 } // test_atl


 #include <boost/test/unit_test.hpp>
 using boost::unit_test::test_suite;


 test_suite *
 init_unit_test_suite(int argc, char* argv[])
 {
     test_suite *test = BOOST_TEST_SUITE("ATL Range Test Suite");
     test->add(BOOST_TEST_CASE(&test_atl));

     (void)argc, (void)argv; // unused
     return test;
 }


	// Boost.Range ATL Extension
	//
	// Copyright Shunsuke Sogame 2005-2006.
	// 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 <pstade/vodka/drink.hpp>

	#include <boost/test/test_tools.hpp>
	#define _ATL_CSTRING_EXPLICIT_CONSTRUCTORS
	#define _ATL_NO_AUTOMATIC_NAMESPACE

	#define BOOST_LIB_NAME boost_test_exec_monitor
	#include <boost/config/auto_link.hpp>

	#define BOOST_RANGE_DETAIL_MICROSOFT_TEST
	#include <boost/range/atl.hpp> // can be placed first


	#include <map>
	#include <string>
	#include <boost/concept_check.hpp>
	#include <boost/mpl/if.hpp>
	#include <boost/range/begin.hpp>
	#include <boost/range/distance.hpp>
	#include <boost/range/iterator_range.hpp>
	#include <boost/static_assert.hpp>
	#include <boost/type_traits/is_same.hpp>


	#include <boost/foreach.hpp>


	#include <atlbase.h> // for ATL3 CSimpleArray/CSimpleValArray
	#if !(_ATL_VER < 0x0700)
	#include <atlcoll.h>
	#include <cstringt.h>
	#include <atlsimpstr.h>
	#include <atlstr.h>
	#endif


	namespace brdm = boost::range_detail_microsoft;


	#if !(_ATL_VER < 0x0700)


	template< class ArrayT, class SampleRange >
	bool test_init_auto_ptr_array(ArrayT& arr, SampleRange& sample)
	{
	typedef typename boost::range_iterator<SampleRange>::type iter_t;

	for (iter_t it = boost::begin(sample), last = boost::end(sample); it != last; ++it) {
	arr.Add(*it); // moves ownership
	}

	return boost::distance(arr) == boost::distance(sample);
	}


	template< class ListT, class SampleRange >
	bool test_init_auto_ptr_list(ListT& lst, SampleRange& sample)
	{
	typedef typename boost::range_iterator<SampleRange>::type iter_t;
	typedef typename boost::range_value<SampleRange>::type val_t;

	for (iter_t it = boost::begin(sample), last = boost::end(sample); it != last; ++it) {
	lst.AddTail(*it); // moves ownership
	}

	return boost::distance(lst) == boost::distance(sample);
	}


	// Workaround:
	// CRBTree provides no easy access function, but yes, it is the range!
	//
	template< class AtlMapT, class KeyT, class MappedT >
	bool test_atl_map_has(AtlMapT& map, const KeyT& k, const MappedT m)
	{
	typedef typename boost::range_iterator<AtlMapT>::type iter_t;

	for (iter_t it = boost::begin(map), last = boost::end(map); it != last; ++it) {
	if (it->m_key == k && it->m_value == m)
	return true;
	}

	return false;
	}


	template< class AtlMapT, class MapT >
	bool test_atl_map(AtlMapT& map, const MapT& sample)
	{
	typedef typename boost::range_iterator<AtlMapT>::type iter_t;
	typedef typename boost::range_const_iterator<MapT>::type siter_t;

	bool result = true;

	result = result && (boost::distance(map) == boost::distance(sample));
	if (!result)
	return false;

	{
	for (iter_t it = boost::begin(map), last = boost::end(map); it != last; ++it) {
	result = result && brdm::test_find_key_and_mapped(sample, std::make_pair(it->m_key, it->m_value));
	}
	}

	{
	for (siter_t it = boost::begin(sample), last = boost::end(sample); it != last; ++it) {
	result = result && (test_atl_map_has)(map, it->first, it->second);
	}
	}

	return result;
	}


	template< class MapT, class SampleMap >
	bool test_init_atl_multimap(MapT& map, const SampleMap& sample)
	{
	typedef typename boost::range_const_iterator<SampleMap>::type iter_t;

	for (iter_t it = boost::const_begin(sample), last = boost::const_end(sample); it != last; ++it) {
	map.Insert(it->first, it->second);
	}

	return boost::distance(map) == boost::distance(sample);
	}


	// arrays
	//

	template< class Range >
	void test_CAtlArray(const Range& sample)
	{
	typedef typename boost::range_value<Range>::type val_t;

	typedef ATL::CAtlArray<val_t> rng_t;
	BOOST_STATIC_ASSERT(( brdm::test_mutable_iter<rng_t, val_t *>::value ));
	BOOST_STATIC_ASSERT(( brdm::test_const_iter <rng_t, val_t const*>::value ));

	rng_t rng;
	BOOST_CHECK( brdm::test_init_array(rng, sample) );
	BOOST_CHECK( brdm::test_random_access(rng) );
	BOOST_CHECK( brdm::test_emptiness(rng) );
	}


	template< class ValT, class Range >
	void test_CAutoPtrArray(Range& sample)
	{
	typedef ValT val_t;

	typedef ATL::CAutoPtrArray<val_t> rng_t;
	BOOST_STATIC_ASSERT(( brdm::test_mutable_iter<rng_t, boost::indirect_iterator< ATL::CAutoPtr<val_t> *> >::value ));
	BOOST_STATIC_ASSERT(( brdm::test_const_iter <rng_t, boost::indirect_iterator< ATL::CAutoPtr<val_t> const*> >::value ));

	rng_t rng;
	BOOST_CHECK( ::test_init_auto_ptr_array(rng, sample) );
	BOOST_CHECK( brdm::test_random_access(rng) );
	BOOST_CHECK( brdm::test_emptiness(rng) );
	}


	template< class I, class Range >
	void test_CInterfaceArray(const Range& sample)
	{
	typedef typename boost::range_value<Range>::type val_t;

	typedef ATL::CInterfaceArray<I> rng_t;
	BOOST_STATIC_ASSERT(( brdm::test_mutable_iter<rng_t, ATL::CComQIPtr<I> * >::value ));
	BOOST_STATIC_ASSERT(( brdm::test_const_iter <rng_t, ATL::CComQIPtr<I> const* >::value ));

	rng_t rng;
	BOOST_CHECK( brdm::test_init_array(rng, sample) );
	BOOST_CHECK( brdm::test_random_access(rng) );
	BOOST_CHECK( brdm::test_emptiness(rng) );
	}


	// lists
	//

	template< class Range >
	void test_CAtlList(const Range& sample)
	{
	typedef typename boost::range_value<Range>::type val_t;

	typedef ATL::CAtlList<val_t> rng_t;
	BOOST_STATIC_ASSERT(( brdm::test_mutable_iter< rng_t, brdm::list_iterator<rng_t, val_t> >::value ));
	BOOST_STATIC_ASSERT(( brdm::test_const_iter < rng_t, brdm::list_iterator<rng_t const, val_t const> >::value ));

	rng_t rng;
	BOOST_CHECK( brdm::test_init_list(rng, sample) );
	BOOST_CHECK( brdm::test_bidirectional(rng) );
	BOOST_CHECK( brdm::test_emptiness(rng) );
	}


	template< class ValT, class Range >
	void test_CAutoPtrList(Range& sample)
	{
	typedef ValT val_t;

	typedef ATL::CAutoPtrList<val_t> rng_t;
	BOOST_STATIC_ASSERT(( brdm::test_mutable_iter< rng_t, boost::indirect_iterator< brdm::list_iterator<rng_t, ATL::CAutoPtr<val_t> > > >::value ));
	BOOST_STATIC_ASSERT(( brdm::test_const_iter < rng_t, boost::indirect_iterator< brdm::list_iterator<rng_t const, ATL::CAutoPtr<val_t> const> > >::value ));

	rng_t rng;
	BOOST_CHECK( ::test_init_auto_ptr_list(rng, sample) );
	BOOST_CHECK( brdm::test_bidirectional(rng) );
	BOOST_CHECK( brdm::test_emptiness(rng) );
	}


	template< class ValT, class Range >
	void test_CHeapPtrList(const Range& sample)
	{
	typedef ValT val_t;

	typedef ATL::CHeapPtrList<val_t> rng_t;
	BOOST_STATIC_ASSERT(( brdm::test_mutable_iter< rng_t, boost::indirect_iterator< brdm::list_iterator<rng_t, ATL::CHeapPtr<val_t> > > >::value ));
	BOOST_STATIC_ASSERT(( brdm::test_const_iter < rng_t, boost::indirect_iterator< brdm::list_iterator<rng_t const, ATL::CHeapPtr<val_t> const> > >::value ));

	rng_t rng;
	BOOST_CHECK( ::test_init_auto_ptr_list(rng, sample) );
	BOOST_CHECK( brdm::test_bidirectional(rng) );
	BOOST_CHECK( brdm::test_emptiness(rng) );
	}


	template< class I, class Range >
	void test_CInterfaceList(const Range& sample)
	{
	typedef typename boost::range_value<Range>::type val_t;

	typedef ATL::CInterfaceList<I> rng_t;
	BOOST_STATIC_ASSERT(( brdm::test_mutable_iter< rng_t, brdm::list_iterator<rng_t, ATL::CComQIPtr<I> > >::value ));
	BOOST_STATIC_ASSERT(( brdm::test_const_iter < rng_t, brdm::list_iterator<rng_t const, ATL::CComQIPtr<I> const> >::value ));

	rng_t rng;
	BOOST_CHECK( brdm::test_init_list(rng, sample) );
	BOOST_CHECK( brdm::test_bidirectional(rng) );
	BOOST_CHECK( brdm::test_emptiness(rng) );
	}


	// strings
	//

	template< class Range >
	void test_CSimpleStringT(const Range& sample)
	{
	typedef typename boost::range_value<Range>::type val_t;

	typedef typename boost::mpl::if_< boost::is_same<val_t, char>,
	ATL::CAtlStringA,
	ATL::CAtlStringW
	>::type derived_t;

	typedef ATL::CSimpleStringT<val_t> rng_t;
	BOOST_STATIC_ASSERT(( brdm::test_mutable_iter<rng_t, typename rng_t::PXSTR>::value ));
	BOOST_STATIC_ASSERT(( brdm::test_const_iter <rng_t, typename rng_t::PCXSTR>::value ));

	derived_t drng;
	rng_t& rng = drng;
	BOOST_CHECK( brdm::test_init_string(rng, sample) );
	BOOST_CHECK( brdm::test_random_access(rng) );
	// BOOST_CHECK( brdm::test_emptiness(rng) ); no default constructible
	}


	template< int n, class Range >
	void test_CFixedStringT(const Range& sample)
	{
	typedef typename boost::range_value<Range>::type val_t;

	typedef typename boost::mpl::if_< boost::is_same<val_t, char>,
	ATL::CAtlStringA,
	ATL::CAtlStringW
	>::type base_t;

	typedef ATL::CFixedStringT<base_t, n> rng_t;
	BOOST_STATIC_ASSERT(( brdm::test_mutable_iter<rng_t, typename rng_t::PXSTR>::value ));
	BOOST_STATIC_ASSERT(( brdm::test_const_iter <rng_t, typename rng_t::PCXSTR>::value ));

	rng_t rng;
	BOOST_CHECK( brdm::test_init_string(rng, sample) );
	BOOST_CHECK( brdm::test_random_access(rng) );
	BOOST_CHECK( brdm::test_emptiness(rng) );
	}


	template< class Range >
	void test_CStringT(const Range& sample)
	{
	typedef typename boost::range_value<Range>::type val_t;

	typedef typename boost::mpl::if_< boost::is_same<val_t, char>,
	ATL::CAtlStringA, // == CStringT<char, X>
	ATL::CAtlStringW // == CStringT<wchar_t, X>
	>::type rng_t;

	BOOST_STATIC_ASSERT(( brdm::test_mutable_iter<rng_t, typename rng_t::PXSTR>::value ));
	BOOST_STATIC_ASSERT(( brdm::test_const_iter <rng_t, typename rng_t::PCXSTR>::value ));

	rng_t rng;
	BOOST_CHECK( brdm::test_init_string(rng, sample) );
	BOOST_CHECK( brdm::test_random_access(rng) );
	BOOST_CHECK( brdm::test_emptiness(rng) );
	}


	template< class Range >
	void test_CStaticString(const Range& sample)
	{
	#if !defined(BOOST_RANGE_ATL_NO_TEST_UNDOCUMENTED_RANGE)
	{
	typedef ATL::CStaticString<char, 20> rng_t;
	BOOST_STATIC_ASSERT(( brdm::test_mutable_iter<rng_t, char const *>::value ));
	BOOST_STATIC_ASSERT(( brdm::test_const_iter <rng_t, char const *>::value ));

	rng_t rng("hello static string");
	BOOST_CHECK( *(boost::begin(rng)+4) == 'o' );
	BOOST_CHECK( *(boost::end(rng)-3) == 'i' );
	}

	{
	typedef ATL::CStaticString<wchar_t, 40> rng_t;
	BOOST_STATIC_ASSERT(( brdm::test_mutable_iter<rng_t, wchar_t const *>::value ));
	BOOST_STATIC_ASSERT(( brdm::test_const_iter <rng_t, wchar_t const *>::value ));

	rng_t rng(L"hello static string");
	BOOST_CHECK( *(boost::begin(rng)+4) == L'o' );
	BOOST_CHECK( *(boost::end(rng)-3) == L'i' );
	}
	#endif

	(void)sample; // unused
	}


	#endif // !(_ATL_VER < 0x0700)


	template< class Range >
	void test_CComBSTR(const Range& sample)
	{
	typedef ATL::CComBSTR rng_t;
	BOOST_STATIC_ASSERT(( brdm::test_mutable_iter<rng_t, OLECHAR *>::value ));
	BOOST_STATIC_ASSERT(( brdm::test_const_iter <rng_t, OLECHAR const*>::value ));

	rng_t rng(OLESTR("hello CComBSTR range!"));
	BOOST_CHECK( brdm::test_equals(rng, std::string("hello CComBSTR range!")) );
	BOOST_CHECK( brdm::test_random_access(rng) );
	BOOST_CHECK( brdm::test_emptiness(rng) );

	(void)sample; // unused
	}


	// simples
	//

	template< class Range >
	void test_CSimpleArray(const Range& sample)
	{
	typedef typename boost::range_value<Range>::type val_t;

	typedef ATL::CSimpleArray<val_t> rng_t;
	BOOST_STATIC_ASSERT(( brdm::test_mutable_iter<rng_t, val_t *>::value ));
	BOOST_STATIC_ASSERT(( brdm::test_const_iter <rng_t, val_t const*>::value ));

	rng_t rng;
	BOOST_CHECK( brdm::test_init_array(rng, sample) );
	BOOST_CHECK( brdm::test_random_access(rng) );
	BOOST_CHECK( brdm::test_emptiness(rng) );
	}


	template< class Range >
	void test_CSimpleMap(const Range& sample)
	{
	#if !defined(BOOST_RANGE_ATL_NO_TEST_UNDOCUMENTED_RANGE)

	typedef ATL::CSimpleMap<int, double> rng_t;

	rng_t rng;
	rng.Add(3, 3.0);
	rng.Add(4, 2.0);

	BOOST_CHECK( boost::begin(rng)->get<0>() == 3.0 );
	BOOST_CHECK( (boost::end(rng)-1)->get<1>() == 2.0 );

	#endif

	(void)sample; // unused
	}


	template< class Range >
	void test_CSimpleValArray(const Range& sample)
	{
	typedef typename boost::range_value<Range>::type val_t;

	typedef ATL::CSimpleArray<val_t> rng_t;
	BOOST_STATIC_ASSERT(( brdm::test_mutable_iter<rng_t, val_t *>::value ));
	BOOST_STATIC_ASSERT(( brdm::test_const_iter <rng_t, val_t const*>::value ));

	rng_t rng;
	BOOST_CHECK( brdm::test_init_array(rng, sample) );
	BOOST_CHECK( brdm::test_random_access(rng) );
	BOOST_CHECK( brdm::test_emptiness(rng) );
	}


	// maps
	//

	template< class MapT >
	void test_CAtlMap(const MapT& sample)
	{
	typedef typename MapT::key_type k_t;
	typedef typename MapT::mapped_type m_t;

	typedef ATL::CAtlMap<k_t, m_t> rng_t;

	rng_t rng;
	boost::function_requires< boost::ForwardRangeConcept<rng_t> >();
	BOOST_CHECK( brdm::test_init_map(rng, sample) );
	BOOST_CHECK( ::test_atl_map(rng, sample) );
	}


	template< class MapT >
	void test_CRBTree(const MapT& sample)
	{
	typedef typename MapT::key_type k_t;
	typedef typename MapT::mapped_type m_t;

	typedef ATL::CRBMap<k_t, m_t> derived_t;
	typedef ATL::CRBTree<k_t, m_t> rng_t;

	derived_t drng;
	rng_t& rng = drng;

	boost::function_requires< boost::BidirectionalRangeConcept<rng_t> >();
	BOOST_CHECK( brdm::test_init_map(drng, sample) );
	BOOST_CHECK( ::test_atl_map(rng, sample) );
	}


	template< class MapT >
	void test_CRBMap(const MapT& sample)
	{
	typedef typename MapT::key_type k_t;
	typedef typename MapT::mapped_type m_t;

	typedef ATL::CRBMap<k_t, m_t> rng_t;

	rng_t rng;
	boost::function_requires< boost::BidirectionalRangeConcept<rng_t> >();
	BOOST_CHECK( brdm::test_init_map(rng, sample) );
	BOOST_CHECK( ::test_atl_map(rng, sample) );
	}


	template< class MapT >
	void test_CRBMultiMap(const MapT& sample)
	{
	typedef typename MapT::key_type k_t;
	typedef typename MapT::mapped_type m_t;

	typedef ATL::CRBMultiMap<k_t, m_t> rng_t;

	rng_t rng;
	boost::function_requires< boost::BidirectionalRangeConcept<rng_t> >();
	BOOST_CHECK( ::test_init_atl_multimap(rng, sample) );
	BOOST_CHECK( ::test_atl_map(rng, sample) );
	}


	// main test
	//

	void test_atl()
	{

	// ordinary ranges
	//
	{
	std::string sample("rebecca judy and mary whiteberry chat monchy");
	#if !(_ATL_VER < 0x0700)
	::test_CAtlArray(sample);
	::test_CAtlList(sample);
	::test_CSimpleStringT(sample);
	::test_CFixedStringT<44>(sample);
	::test_CStringT(sample);
	::test_CStaticString(sample);
	#endif
	::test_CComBSTR(sample);
	::test_CSimpleArray(sample);
	::test_CSimpleMap(sample);
	::test_CSimpleValArray(sample);
	}


	{
	std::wstring sample(L"rebecca judy and mary whiteberry chat monchy");
	#if !(_ATL_VER < 0x0700)
	::test_CAtlArray(sample);
	::test_CAtlList(sample);
	::test_CSimpleStringT(sample);
	::test_CFixedStringT<44>(sample);
	::test_CStringT(sample);
	::test_CStaticString(sample);
	#endif
	::test_CComBSTR(sample);
	::test_CSimpleArray(sample);
	::test_CSimpleMap(sample);
	::test_CSimpleValArray(sample);
	}

	// pointer ranges
	//
	#if !(_ATL_VER < 0x0700)
	{
	typedef ATL::CAutoPtr<int> ptr_t;
	ptr_t
	ptr0(new int(3)), ptr1(new int(4)), ptr2(new int(5)), ptr3(new int(4)),
	ptr4(new int(1)), ptr5(new int(2)), ptr6(new int(4)), ptr7(new int(0));

	ptr_t ptrs[8] = {
	ptr0, ptr1, ptr2, ptr3, ptr4, ptr5, ptr6, ptr7
	};

	boost::iterator_range< ptr_t * > workaround(ptrs, ptrs+8);
	::test_CAutoPtrArray<int>(workaround);
	}

	{
	typedef ATL::CAutoPtr<int> ptr_t;
	ptr_t
	ptr0(new int(3)), ptr1(new int(4)), ptr2(new int(5)), ptr3(new int(4)),
	ptr4(new int(1)), ptr5(new int(2)), ptr6(new int(4)), ptr7(new int(0));

	ptr_t ptrs[8] = {
	ptr0, ptr1, ptr2, ptr3, ptr4, ptr5, ptr6, ptr7
	};

	boost::iterator_range< ptr_t * > workaround(ptrs, ptrs+8);
	::test_CAutoPtrList<int>(workaround);
	}

	{
	typedef ATL::CHeapPtr<int> ptr_t;
	ptr_t ptrs[5]; {
	ptrs[0].AllocateBytes(sizeof(int));
	ptrs[1].AllocateBytes(sizeof(int));
	ptrs[2].AllocateBytes(sizeof(int));
	ptrs[3].AllocateBytes(sizeof(int));
	ptrs[4].AllocateBytes(sizeof(int));
	}

	boost::iterator_range< ptr_t * > workaround(ptrs, ptrs+5);
	::test_CHeapPtrList<int>(workaround);
	}


	{
	typedef ATL::CComQIPtr<IDispatch> ptr_t;
	ptr_t ptrs[8];

	boost::iterator_range< ptr_t * > workaround(ptrs, ptrs+8);
	::test_CInterfaceArray<IDispatch>(workaround);
	::test_CInterfaceList<IDispatch>(workaround);
	}
	#endif

	// maps
	//
	{
	#if !(_ATL_VER < 0x0700)
	std::map<int, std::string> sample; {
	sample[0] = "hello";
	sample[1] = "range";
	sample[2] = "atl";
	sample[3] = "mfc";
	sample[4] = "collections";
	}

	::test_CAtlMap(sample);
	::test_CRBTree(sample);
	::test_CRBMap(sample);
	::test_CRBMultiMap(sample);
	#endif
	}


	} // test_atl


	#include <boost/test/unit_test.hpp>
	using boost::unit_test::test_suite;


	test_suite *
	init_unit_test_suite(int argc, char* argv[])
	{
	test_suite *test = BOOST_TEST_SUITE("ATL Range Test Suite");
	test->add(BOOST_TEST_CASE(&test_atl));

	(void)argc, (void)argv; // unused
	return test;
	}