boost_1_45_0/libs/multi_index/test/test_iterators.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 /* Boost.MultiIndex test for iterators.
  *
  * Copyright 2003-2008 Joaquin M Lopez Munoz.
  * 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/multi_index for library home page.
  */

 #include "test_iterators.hpp"

 #include <boost/config.hpp> /* keep it first to prevent nasty warns in MSVC */
 #include "pre_multi_index.hpp"
 #include "employee.hpp"
 #include <boost/next_prior.hpp>
 #include <boost/test/test_tools.hpp>

 using namespace boost::multi_index;

 template<typename Index>
 void test_non_const_iterators(Index& i,int target)
 {
   typedef typename Index::iterator         iterator;
   typedef typename Index::reverse_iterator reverse_iterator;

   int n=0;
   for(iterator it=i.begin();it!=i.end();++it){
     BOOST_CHECK(i.iterator_to(*it)==it);
     n+=it->id;
   }
   int m=0;
   for(reverse_iterator rit=i.rbegin();rit!=i.rend();++rit){
     m+=rit->id;
   }
   int p=0;
   for(iterator it2=i.end();it2!=i.begin();){
     --it2;
     p+=it2->id;
   }
   int q=0;
   for(reverse_iterator rit2=i.rend();rit2!=i.rbegin();){
     --rit2;
     q+=rit2->id;
   }

   BOOST_CHECK(n==target&&n==m&&n==p&&n==q);
 }

 template<typename Index>
 void test_const_iterators(const Index& i,int target)
 {
   typedef typename Index::const_iterator         const_iterator;
   typedef typename Index::const_reverse_iterator const_reverse_iterator;

   BOOST_CHECK(i.cbegin()==i.begin());
   BOOST_CHECK(i.cend()==i.end());
   BOOST_CHECK(i.crbegin()==i.rbegin());
   BOOST_CHECK(i.crend()==i.rend());

   int n=0;
   for(const_iterator it=i.begin();it!=i.end();++it){
     BOOST_CHECK(i.iterator_to(*it)==it);
     n+=it->id;
   }
   int m=0;
   for(const_reverse_iterator rit=i.rbegin();rit!=i.rend();++rit){
     m+=rit->id;
   }
   int p=0;
   for(const_iterator it2=i.end();it2!=i.begin();){
     --it2;
     p+=it2->id;
   }
   int q=0;
   for(const_reverse_iterator rit2=i.rend();rit2!=i.rbegin();){
     --rit2;
     q+=rit2->id;
   }

   BOOST_CHECK(n==target&&n==m&&n==p&&n==q);
 }

 template<typename Index>
 void test_non_const_hashed_iterators(Index& i,int target)
 {
   typedef typename Index::iterator       iterator;
   typedef typename Index::local_iterator local_iterator;
   typedef typename Index::size_type      size_type;

   int n=0;
   for(iterator it=i.begin();it!=i.end();++it){
     BOOST_CHECK(i.iterator_to(*it)==it);
     n+=it->id;
   }
   int m=0;
   for(size_type buc=0;buc<i.bucket_count();++buc){
     for(local_iterator it=i.begin(buc);it!=i.end(buc);++it){
       BOOST_CHECK(i.local_iterator_to(*it)==it);
       m+=it->id;
     }
   }

   BOOST_CHECK(n==target&&n==m);
 }

 template<typename Index>
 void test_const_hashed_iterators(const Index& i,int target)
 {
   typedef typename Index::const_iterator       const_iterator;
   typedef typename Index::const_local_iterator const_local_iterator;
   typedef typename Index::size_type            size_type;

   BOOST_CHECK(i.cbegin()==i.begin());
   BOOST_CHECK(i.cend()==i.end());

   int n=0;
   for(const_iterator it=i.begin();it!=i.end();++it){
     BOOST_CHECK(i.iterator_to(*it)==it);
     n+=it->id;
   }
   int m=0;
   for(size_type buc=0;buc<i.bucket_count();++buc){
     BOOST_CHECK(i.cbegin(buc)==i.begin(buc));
     BOOST_CHECK(i.cend(buc)==i.end(buc));
     for(const_local_iterator it=i.begin(buc);it!=i.end(buc);++it){
       BOOST_CHECK(i.local_iterator_to(*it)==it);
       m+=it->id;
     }
   }

   BOOST_CHECK(n==target&&n==m);
 }

 template<typename Index>
 void test_non_const_rnd_iterators(Index& i,int target)
 {
   typedef typename Index::iterator         iterator;
   typedef typename Index::reverse_iterator reverse_iterator;
   typedef typename Index::difference_type  difference_type;

   iterator         middle=i.begin()+(i.end()-i.begin())/2;
   difference_type  off=middle-i.begin();
   reverse_iterator rmiddle=i.rbegin()+off;
   bool             odd=((i.end()-i.begin())%2)!=0;

   int n=0;
   for(iterator it=i.begin();it!=middle;++it){
     BOOST_CHECK(i.iterator_to(*it)==it);
     n+=it->id;
     n+=it[off].id;
   }
   if(odd)n+=(boost::prior(i.end()))->id;
   int m=0;
   for(reverse_iterator rit=i.rbegin();rit!=rmiddle;++rit){
     m+=rit->id;
     m+=(rit+off)->id;
   }
   if(odd)m+=(boost::prior(i.rend()))->id;
   int p=0;
   for(iterator it2=i.end();it2!=middle;){
     --it2;
     p+=it2->id;
     p+=(it2-off)->id;
   }
   if(odd)p-=middle->id;
   int q=0;
   for(reverse_iterator rit2=i.rend();rit2!=rmiddle;){
     --rit2;
     q+=rit2->id;
     q+=(rit2-off)->id;
   }
   if(odd)q-=rmiddle->id;

   BOOST_CHECK(n==target&&n==m&&n==p&&n==q);
 }

 template<typename Index>
 void test_const_rnd_iterators(const Index& i,int target)
 {
   typedef typename Index::const_iterator         const_iterator;
   typedef typename Index::const_reverse_iterator const_reverse_iterator;
   typedef typename Index::difference_type        difference_type;

   BOOST_CHECK(i.cbegin()==i.begin());
   BOOST_CHECK(i.cend()==i.end());
   BOOST_CHECK(i.crbegin()==i.rbegin());
   BOOST_CHECK(i.crend()==i.rend());

   const_iterator         middle=i.begin()+(i.end()-i.begin())/2;
   difference_type        off=middle-i.begin();
   const_reverse_iterator rmiddle=i.rbegin()+off;
   bool                   odd=((i.end()-i.begin())%2)!=0;

   int n=0;
   for(const_iterator it=i.begin();it!=middle;++it){
     BOOST_CHECK(i.iterator_to(*it)==it);
     n+=it->id;
     n+=it[off].id;
   }
   if(odd)n+=(boost::prior(i.end()))->id;
   int m=0;
   for(const_reverse_iterator rit=i.rbegin();rit!=rmiddle;++rit){
     m+=rit->id;
     m+=(rit+off)->id;
   }
   if(odd)m+=(boost::prior(i.rend()))->id;
   int p=0;
   for(const_iterator it2=i.end();it2!=middle;){
     --it2;
     p+=it2->id;
     p+=(it2-off)->id;
   }
   if(odd)p-=middle->id;
   int q=0;
   for(const_reverse_iterator rit2=i.rend();rit2!=rmiddle;){
     --rit2;
     q+=rit2->id;
     q+=(rit2-off)->id;
   }
   if(odd)q-=rmiddle->id;

   BOOST_CHECK(n==target&&n==m&&n==p&&n==q);
 }

 void test_iterators()
 {
   employee_set es;

   es.insert(employee(0,"Joe",31,1123));
   es.insert(employee(1,"Robert",27,5601));
   es.insert(employee(2,"John",40,7889));
   es.insert(employee(3,"Albert",20,9012));
   es.insert(employee(4,"John",57,1002));

   int target=0+1+2+3+4;

   test_non_const_iterators       (es,target);
   test_const_iterators           (es,target);
   test_non_const_hashed_iterators(get<1>(es),target);
   test_const_hashed_iterators    (get<1>(es),target);
   test_non_const_iterators       (get<2>(es),target);
   test_const_iterators           (get<2>(es),target);
   test_non_const_iterators       (get<3>(es),target);
   test_const_iterators           (get<3>(es),target);
   test_non_const_hashed_iterators(get<4>(es),target);
   test_const_hashed_iterators    (get<4>(es),target);
   test_non_const_rnd_iterators   (get<5>(es),target);
   test_const_rnd_iterators       (get<5>(es),target);
 }
	/* Boost.MultiIndex test for iterators.
	*
	* Copyright 2003-2008 Joaquin M Lopez Munoz.
	* 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/multi_index for library home page.
	*/

	#include "test_iterators.hpp"

	#include <boost/config.hpp> /* keep it first to prevent nasty warns in MSVC */
	#include "pre_multi_index.hpp"
	#include "employee.hpp"
	#include <boost/next_prior.hpp>
	#include <boost/test/test_tools.hpp>

	using namespace boost::multi_index;

	template<typename Index>
	void test_non_const_iterators(Index& i,int target)
	{
	typedef typename Index::iterator iterator;
	typedef typename Index::reverse_iterator reverse_iterator;

	int n=0;
	for(iterator it=i.begin();it!=i.end();++it){
	BOOST_CHECK(i.iterator_to(*it)==it);
	n+=it->id;
	}
	int m=0;
	for(reverse_iterator rit=i.rbegin();rit!=i.rend();++rit){
	m+=rit->id;
	}
	int p=0;
	for(iterator it2=i.end();it2!=i.begin();){
	--it2;
	p+=it2->id;
	}
	int q=0;
	for(reverse_iterator rit2=i.rend();rit2!=i.rbegin();){
	--rit2;
	q+=rit2->id;
	}

	BOOST_CHECK(n==target&&n==m&&n==p&&n==q);
	}

	template<typename Index>
	void test_const_iterators(const Index& i,int target)
	{
	typedef typename Index::const_iterator const_iterator;
	typedef typename Index::const_reverse_iterator const_reverse_iterator;

	BOOST_CHECK(i.cbegin()==i.begin());
	BOOST_CHECK(i.cend()==i.end());
	BOOST_CHECK(i.crbegin()==i.rbegin());
	BOOST_CHECK(i.crend()==i.rend());

	int n=0;
	for(const_iterator it=i.begin();it!=i.end();++it){
	BOOST_CHECK(i.iterator_to(*it)==it);
	n+=it->id;
	}
	int m=0;
	for(const_reverse_iterator rit=i.rbegin();rit!=i.rend();++rit){
	m+=rit->id;
	}
	int p=0;
	for(const_iterator it2=i.end();it2!=i.begin();){
	--it2;
	p+=it2->id;
	}
	int q=0;
	for(const_reverse_iterator rit2=i.rend();rit2!=i.rbegin();){
	--rit2;
	q+=rit2->id;
	}

	BOOST_CHECK(n==target&&n==m&&n==p&&n==q);
	}

	template<typename Index>
	void test_non_const_hashed_iterators(Index& i,int target)
	{
	typedef typename Index::iterator iterator;
	typedef typename Index::local_iterator local_iterator;
	typedef typename Index::size_type size_type;

	int n=0;
	for(iterator it=i.begin();it!=i.end();++it){
	BOOST_CHECK(i.iterator_to(*it)==it);
	n+=it->id;
	}
	int m=0;
	for(size_type buc=0;buc<i.bucket_count();++buc){
	for(local_iterator it=i.begin(buc);it!=i.end(buc);++it){
	BOOST_CHECK(i.local_iterator_to(*it)==it);
	m+=it->id;
	}
	}

	BOOST_CHECK(n==target&&n==m);
	}

	template<typename Index>
	void test_const_hashed_iterators(const Index& i,int target)
	{
	typedef typename Index::const_iterator const_iterator;
	typedef typename Index::const_local_iterator const_local_iterator;
	typedef typename Index::size_type size_type;

	BOOST_CHECK(i.cbegin()==i.begin());
	BOOST_CHECK(i.cend()==i.end());

	int n=0;
	for(const_iterator it=i.begin();it!=i.end();++it){
	BOOST_CHECK(i.iterator_to(*it)==it);
	n+=it->id;
	}
	int m=0;
	for(size_type buc=0;buc<i.bucket_count();++buc){
	BOOST_CHECK(i.cbegin(buc)==i.begin(buc));
	BOOST_CHECK(i.cend(buc)==i.end(buc));
	for(const_local_iterator it=i.begin(buc);it!=i.end(buc);++it){
	BOOST_CHECK(i.local_iterator_to(*it)==it);
	m+=it->id;
	}
	}

	BOOST_CHECK(n==target&&n==m);
	}

	template<typename Index>
	void test_non_const_rnd_iterators(Index& i,int target)
	{
	typedef typename Index::iterator iterator;
	typedef typename Index::reverse_iterator reverse_iterator;
	typedef typename Index::difference_type difference_type;

	iterator middle=i.begin()+(i.end()-i.begin())/2;
	difference_type off=middle-i.begin();
	reverse_iterator rmiddle=i.rbegin()+off;
	bool odd=((i.end()-i.begin())%2)!=0;

	int n=0;
	for(iterator it=i.begin();it!=middle;++it){
	BOOST_CHECK(i.iterator_to(*it)==it);
	n+=it->id;
	n+=it[off].id;
	}
	if(odd)n+=(boost::prior(i.end()))->id;
	int m=0;
	for(reverse_iterator rit=i.rbegin();rit!=rmiddle;++rit){
	m+=rit->id;
	m+=(rit+off)->id;
	}
	if(odd)m+=(boost::prior(i.rend()))->id;
	int p=0;
	for(iterator it2=i.end();it2!=middle;){
	--it2;
	p+=it2->id;
	p+=(it2-off)->id;
	}
	if(odd)p-=middle->id;
	int q=0;
	for(reverse_iterator rit2=i.rend();rit2!=rmiddle;){
	--rit2;
	q+=rit2->id;
	q+=(rit2-off)->id;
	}
	if(odd)q-=rmiddle->id;

	BOOST_CHECK(n==target&&n==m&&n==p&&n==q);
	}

	template<typename Index>
	void test_const_rnd_iterators(const Index& i,int target)
	{
	typedef typename Index::const_iterator const_iterator;
	typedef typename Index::const_reverse_iterator const_reverse_iterator;
	typedef typename Index::difference_type difference_type;

	BOOST_CHECK(i.cbegin()==i.begin());
	BOOST_CHECK(i.cend()==i.end());
	BOOST_CHECK(i.crbegin()==i.rbegin());
	BOOST_CHECK(i.crend()==i.rend());

	const_iterator middle=i.begin()+(i.end()-i.begin())/2;
	difference_type off=middle-i.begin();
	const_reverse_iterator rmiddle=i.rbegin()+off;
	bool odd=((i.end()-i.begin())%2)!=0;

	int n=0;
	for(const_iterator it=i.begin();it!=middle;++it){
	BOOST_CHECK(i.iterator_to(*it)==it);
	n+=it->id;
	n+=it[off].id;
	}
	if(odd)n+=(boost::prior(i.end()))->id;
	int m=0;
	for(const_reverse_iterator rit=i.rbegin();rit!=rmiddle;++rit){
	m+=rit->id;
	m+=(rit+off)->id;
	}
	if(odd)m+=(boost::prior(i.rend()))->id;
	int p=0;
	for(const_iterator it2=i.end();it2!=middle;){
	--it2;
	p+=it2->id;
	p+=(it2-off)->id;
	}
	if(odd)p-=middle->id;
	int q=0;
	for(const_reverse_iterator rit2=i.rend();rit2!=rmiddle;){
	--rit2;
	q+=rit2->id;
	q+=(rit2-off)->id;
	}
	if(odd)q-=rmiddle->id;

	BOOST_CHECK(n==target&&n==m&&n==p&&n==q);
	}

	void test_iterators()
	{
	employee_set es;

	es.insert(employee(0,"Joe",31,1123));
	es.insert(employee(1,"Robert",27,5601));
	es.insert(employee(2,"John",40,7889));
	es.insert(employee(3,"Albert",20,9012));
	es.insert(employee(4,"John",57,1002));

	int target=0+1+2+3+4;

	test_non_const_iterators (es,target);
	test_const_iterators (es,target);
	test_non_const_hashed_iterators(get<1>(es),target);
	test_const_hashed_iterators (get<1>(es),target);
	test_non_const_iterators (get<2>(es),target);
	test_const_iterators (get<2>(es),target);
	test_non_const_iterators (get<3>(es),target);
	test_const_iterators (get<3>(es),target);
	test_non_const_hashed_iterators(get<4>(es),target);
	test_const_hashed_iterators (get<4>(es),target);
	test_non_const_rnd_iterators (get<5>(es),target);
	test_const_rnd_iterators (get<5>(es),target);
	}