boost_1_45_0/libs/functional/forward/test/lightweight_forward_adapter.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 /*=============================================================================
     Copyright (c) 2007 Tobias Schwinger

     Use modification and distribution are subject to 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 <boost/config.hpp>

 #ifdef BOOST_MSVC
 #   pragma warning(disable: 4244) // no conversion warnings, please
 #endif

 #include <boost/detail/lightweight_test.hpp>
 #include <boost/functional/lightweight_forward_adapter.hpp>

 #include <boost/type_traits/is_same.hpp>

 #include <boost/blank.hpp>
 #include <boost/noncopyable.hpp>

 #include <memory>

 template <class Base = boost::blank>
 class test_func : public Base
 {
     int val;
 public:
     test_func(int v) : val(v) { }

     template<class B>
     test_func(test_func<B> const & that)
       : val(that.val)
     { }

     template<class B> friend class test_func;

     int operator()(int & l, int const & r) const
     {
         return l=r+val;
     }
     long operator()(int & l, int const & r)
     {
         return -(l=r+val);
     }

     template <typename Sig>
     struct result
     {
         typedef void type;
     };

     // ensure result_of argument types are what's expected
     // note: this is *not* how client code should look like
     template <class Self>
     struct result< Self const(int&,int const&) > { typedef int type; };

     template <class Self>
     struct result< Self(int&,int const&) > { typedef long type; };

     template <class Self>
     struct result< Self(int&,int&) > { typedef char type; };
 };

 enum { int_, long_, char_ };

 int type_of(int)  { return int_; }
 int type_of(long) { return long_; }
 int type_of(char) { return char_; }

 int main()
 {
     {
         using boost::is_same;
         using boost::result_of;
         typedef boost::lightweight_forward_adapter< test_func<> > f;
         typedef boost::reference_wrapper<int> ref;
         typedef boost::reference_wrapper<int const> cref;

         // lvalue,rvalue
         BOOST_TEST(( is_same<
             result_of< f(ref, int) >::type, long >::value ));
         BOOST_TEST(( is_same<
             result_of< f const (ref, int) >::type, int >::value ));
         // lvalue,const lvalue
         BOOST_TEST(( is_same<
             result_of< f(ref, cref) >::type, long >::value ));
         BOOST_TEST(( is_same<
             result_of< f const (ref, cref) >::type, int >::value ));
         // lvalue,lvalue
         BOOST_TEST(( is_same<
             result_of< f(ref, ref) >::type, char >::value ));
         BOOST_TEST(( is_same<
             result_of< f const (ref, ref) >::type, char >::value ));
     }
     {
         using boost::noncopyable;
         using boost::lightweight_forward_adapter;

         int v = 0; boost::reference_wrapper<int> x(v);
         test_func<noncopyable> f(7);
         lightweight_forward_adapter< test_func<> > func(f);
         lightweight_forward_adapter< test_func<noncopyable> & > func_ref(f);
         lightweight_forward_adapter< test_func<noncopyable> & > const func_ref_c(f);
         lightweight_forward_adapter< test_func<> const > func_c(f);
         lightweight_forward_adapter< test_func<> > const func_c2(f);
         lightweight_forward_adapter< test_func<noncopyable> const & > func_c_ref(f);

         BOOST_TEST( type_of( func(x,1) ) == long_ );
         BOOST_TEST( type_of( func_ref(x,1) ) == long_ );
         BOOST_TEST( type_of( func_ref_c(x,1) ) == long_ );
         BOOST_TEST( type_of( func_c(x,1) ) == int_ );
         BOOST_TEST( type_of( func_c2(x,1) ) == int_ );
         BOOST_TEST( type_of( func_c_ref(x,1) ) == int_ );
         BOOST_TEST( type_of( func(x,x) ) == char_ );

         BOOST_TEST( func(x,1) == -8 );
         BOOST_TEST( func_ref(x,1) == -8 );
         BOOST_TEST( func_ref_c(x,1) == -8 );
         BOOST_TEST( func_c(x,1) == 8 );
         BOOST_TEST( func_c2(x,1) == 8 );
         BOOST_TEST( func_c_ref(x,1) == 8 );
     }

     return boost::report_errors();
 }
	/*=============================================================================
	Copyright (c) 2007 Tobias Schwinger

	Use modification and distribution are subject to 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 <boost/config.hpp>

	#ifdef BOOST_MSVC
	# pragma warning(disable: 4244) // no conversion warnings, please
	#endif

	#include <boost/detail/lightweight_test.hpp>
	#include <boost/functional/lightweight_forward_adapter.hpp>

	#include <boost/type_traits/is_same.hpp>

	#include <boost/blank.hpp>
	#include <boost/noncopyable.hpp>

	#include <memory>

	template <class Base = boost::blank>
	class test_func : public Base
	{
	int val;
	public:
	test_func(int v) : val(v) { }

	template<class B>
	test_func(test_func<B> const & that)
	: val(that.val)
	{ }

	template<class B> friend class test_func;

	int operator()(int & l, int const & r) const
	{
	return l=r+val;
	}
	long operator()(int & l, int const & r)
	{
	return -(l=r+val);
	}

	template <typename Sig>
	struct result
	{
	typedef void type;
	};

	// ensure result_of argument types are what's expected
	// note: this is not how client code should look like
	template <class Self>
	struct result< Self const(int&,int const&) > { typedef int type; };

	template <class Self>
	struct result< Self(int&,int const&) > { typedef long type; };

	template <class Self>
	struct result< Self(int&,int&) > { typedef char type; };
	};

	enum { int_, long_, char_ };

	int type_of(int) { return int_; }
	int type_of(long) { return long_; }
	int type_of(char) { return char_; }

	int main()
	{
	{
	using boost::is_same;
	using boost::result_of;
	typedef boost::lightweight_forward_adapter< test_func<> > f;
	typedef boost::reference_wrapper<int> ref;
	typedef boost::reference_wrapper<int const> cref;

	// lvalue,rvalue
	BOOST_TEST(( is_same<
	result_of< f(ref, int) >::type, long >::value ));
	BOOST_TEST(( is_same<
	result_of< f const (ref, int) >::type, int >::value ));
	// lvalue,const lvalue
	BOOST_TEST(( is_same<
	result_of< f(ref, cref) >::type, long >::value ));
	BOOST_TEST(( is_same<
	result_of< f const (ref, cref) >::type, int >::value ));
	// lvalue,lvalue
	BOOST_TEST(( is_same<
	result_of< f(ref, ref) >::type, char >::value ));
	BOOST_TEST(( is_same<
	result_of< f const (ref, ref) >::type, char >::value ));
	}
	{
	using boost::noncopyable;
	using boost::lightweight_forward_adapter;

	int v = 0; boost::reference_wrapper<int> x(v);
	test_func<noncopyable> f(7);
	lightweight_forward_adapter< test_func<> > func(f);
	lightweight_forward_adapter< test_func<noncopyable> & > func_ref(f);
	lightweight_forward_adapter< test_func<noncopyable> & > const func_ref_c(f);
	lightweight_forward_adapter< test_func<> const > func_c(f);
	lightweight_forward_adapter< test_func<> > const func_c2(f);
	lightweight_forward_adapter< test_func<noncopyable> const & > func_c_ref(f);

	BOOST_TEST( type_of( func(x,1) ) == long_ );
	BOOST_TEST( type_of( func_ref(x,1) ) == long_ );
	BOOST_TEST( type_of( func_ref_c(x,1) ) == long_ );
	BOOST_TEST( type_of( func_c(x,1) ) == int_ );
	BOOST_TEST( type_of( func_c2(x,1) ) == int_ );
	BOOST_TEST( type_of( func_c_ref(x,1) ) == int_ );
	BOOST_TEST( type_of( func(x,x) ) == char_ );

	BOOST_TEST( func(x,1) == -8 );
	BOOST_TEST( func_ref(x,1) == -8 );
	BOOST_TEST( func_ref_c(x,1) == -8 );
	BOOST_TEST( func_c(x,1) == 8 );
	BOOST_TEST( func_c2(x,1) == 8 );
	BOOST_TEST( func_c_ref(x,1) == 8 );
	}

	return boost::report_errors();
	}