boost_1_45_0/libs/unordered/test/unordered/simple_tests.cpp - nest-learning-thermostat/5.0/boost - Git at Google


 // Copyright 2006-2009 Daniel James.
 // 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)

 // This test checks the runtime requirements of containers.

 #include "../helpers/prefix.hpp"

 #include <boost/unordered_set.hpp>
 #include <boost/unordered_map.hpp>
 #include "../helpers/test.hpp"
 #include <cstdlib>
 #include <algorithm>
 #include "../helpers/equivalent.hpp"

 template <class X>
 void simple_test(X const& a)
 {
     test::unordered_equivalence_tester<X> equivalent(a);

     {
         X u;
         BOOST_TEST(u.size() == 0);
         BOOST_TEST(X().size() == 0);
     }

     {
         BOOST_TEST(equivalent(X(a)));
     }

     {
         X u(a);
         BOOST_TEST(equivalent(u));
     }

     {
         X u = a;
         BOOST_TEST(equivalent(u));
     }

     {
         X b(a);
         BOOST_TEST(b.begin() == const_cast<X const&>(b).cbegin());
         BOOST_TEST(b.end() == const_cast<X const&>(b).cend());
     }

     {
         X b(a);
         X c;
         BOOST_TEST(equivalent(b));
         BOOST_TEST(c.empty());
         b.swap(c);
         BOOST_TEST(b.empty());
         BOOST_TEST(equivalent(c));
         b.swap(c);
         BOOST_TEST(c.empty());
         BOOST_TEST(equivalent(b));
     }

     {
         X u;
         X& r = u;
         BOOST_TEST(&(r = r) == &r);

         BOOST_TEST(r.empty());
         BOOST_TEST(&(r = a) == &r);
         BOOST_TEST(equivalent(r));
         BOOST_TEST(&(r = r) == &r);
         BOOST_TEST(equivalent(r));
     }

     {
         BOOST_TEST(a.size() ==
             static_cast<BOOST_DEDUCED_TYPENAME X::size_type>(
                 std::distance(a.begin(), a.end())));
     }

     {
         BOOST_TEST(a.empty() == (a.size() == 0));
     }

     {
         BOOST_TEST(a.empty() == (a.begin() == a.end()));
         X u;
         BOOST_TEST(u.begin() == u.end());
     }
 }

 UNORDERED_AUTO_TEST(simple_tests)
 {
     using namespace std;
     srand(14878);

     std::cout<<"Test unordered_set.\n";
     boost::unordered_set<int> set;
     simple_test(set);

     set.insert(1); set.insert(2); set.insert(1456);
     simple_test(set);

     std::cout<<"Test unordered_multiset.\n";
     boost::unordered_multiset<int> multiset;
     simple_test(multiset);

     for(int i1 = 0; i1 < 1000; ++i1) {
         int count = rand() % 10, index = rand();
         for(int j = 0; j < count; ++j)
             multiset.insert(index);
     }
     simple_test(multiset);

     std::cout<<"Test unordered_map.\n";
     boost::unordered_map<int, int> map;

     for(int i2 = 0; i2 < 1000; ++i2) {
         map.insert(std::pair<const int, int>(rand(), rand()));
     }
     simple_test(map);

     std::cout<<"Test unordered_multimap.\n";
     boost::unordered_multimap<int, int> multimap;

     for(int i3 = 0; i3 < 1000; ++i3) {
         int count = rand() % 10, index = rand();
         for(int j = 0; j < count; ++j)
             multimap.insert(std::pair<const int, int>(index, rand()));
     }
     simple_test(multimap);
 }

 RUN_TESTS()

	// Copyright 2006-2009 Daniel James.
	// 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)

	// This test checks the runtime requirements of containers.

	#include "../helpers/prefix.hpp"

	#include <boost/unordered_set.hpp>
	#include <boost/unordered_map.hpp>
	#include "../helpers/test.hpp"
	#include <cstdlib>
	#include <algorithm>
	#include "../helpers/equivalent.hpp"

	template <class X>
	void simple_test(X const& a)
	{
	test::unordered_equivalence_tester<X> equivalent(a);

	{
	X u;
	BOOST_TEST(u.size() == 0);
	BOOST_TEST(X().size() == 0);
	}

	{
	BOOST_TEST(equivalent(X(a)));
	}

	{
	X u(a);
	BOOST_TEST(equivalent(u));
	}

	{
	X u = a;
	BOOST_TEST(equivalent(u));
	}

	{
	X b(a);
	BOOST_TEST(b.begin() == const_cast<X const&>(b).cbegin());
	BOOST_TEST(b.end() == const_cast<X const&>(b).cend());
	}

	{
	X b(a);
	X c;
	BOOST_TEST(equivalent(b));
	BOOST_TEST(c.empty());
	b.swap(c);
	BOOST_TEST(b.empty());
	BOOST_TEST(equivalent(c));
	b.swap(c);
	BOOST_TEST(c.empty());
	BOOST_TEST(equivalent(b));
	}

	{
	X u;
	X& r = u;
	BOOST_TEST(&(r = r) == &r);

	BOOST_TEST(r.empty());
	BOOST_TEST(&(r = a) == &r);
	BOOST_TEST(equivalent(r));
	BOOST_TEST(&(r = r) == &r);
	BOOST_TEST(equivalent(r));
	}

	{
	BOOST_TEST(a.size() ==
	static_cast<BOOST_DEDUCED_TYPENAME X::size_type>(
	std::distance(a.begin(), a.end())));
	}

	{
	BOOST_TEST(a.empty() == (a.size() == 0));
	}

	{
	BOOST_TEST(a.empty() == (a.begin() == a.end()));
	X u;
	BOOST_TEST(u.begin() == u.end());
	}
	}

	UNORDERED_AUTO_TEST(simple_tests)
	{
	using namespace std;
	srand(14878);

	std::cout<<"Test unordered_set.\n";
	boost::unordered_set<int> set;
	simple_test(set);

	set.insert(1); set.insert(2); set.insert(1456);
	simple_test(set);

	std::cout<<"Test unordered_multiset.\n";
	boost::unordered_multiset<int> multiset;
	simple_test(multiset);

	for(int i1 = 0; i1 < 1000; ++i1) {
	int count = rand() % 10, index = rand();
	for(int j = 0; j < count; ++j)
	multiset.insert(index);
	}
	simple_test(multiset);

	std::cout<<"Test unordered_map.\n";
	boost::unordered_map<int, int> map;

	for(int i2 = 0; i2 < 1000; ++i2) {
	map.insert(std::pair<const int, int>(rand(), rand()));
	}
	simple_test(map);

	std::cout<<"Test unordered_multimap.\n";
	boost::unordered_multimap<int, int> multimap;

	for(int i3 = 0; i3 < 1000; ++i3) {
	int count = rand() % 10, index = rand();
	for(int j = 0; j < count; ++j)
	multimap.insert(std::pair<const int, int>(index, rand()));
	}
	simple_test(multimap);
	}

	RUN_TESTS()