boost_1_45_0/libs/array/test/array0.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 /* tests for using class array<> specialization for size 0
  * (C) Copyright Alisdair Meredith 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 <string>
 #include <iostream>
 #include <boost/array.hpp>

 namespace {
 unsigned int failed_tests = 0;

 void    fail_test( const char * reason ) {
     ++failed_tests;
     std::cerr << "Test failure " << failed_tests << ": " << reason << std::endl;
 }

 template< class T >
 void    BadValue( const T &  )
 {
     fail_test( "Unexpected value" );
 }

 template< class T >
 void    RunTests()
 {
     typedef boost::array< T, 0 >    test_type;

     //  Test value and aggegrate initialization
     test_type                   test_case   =   {};
     const boost::array< T, 0 >  const_test_case = test_type();

     test_case.fill ( T() );

     //  front/back and operator[] must compile, but calling them is undefined
     //  Likewise, all tests below should evaluate to false, avoiding undefined behaviour
     if( !test_case.empty() ) {
         BadValue( test_case.front() );
     }

     if( !const_test_case.empty() ) {
         BadValue( const_test_case.back() );
     }

     if( test_case.size() > 0 ) {
         BadValue( test_case[ 0 ] );
     }

     if( const_test_case.max_size() > 0 ) {
         BadValue( const_test_case[ 0 ] );
     }

     //  Assert requirements of TR1 6.2.2.4
     if( test_case.begin() != test_case.end() ) {
         fail_test( "Not an empty range" );
     }
     if( const_test_case.begin() != const_test_case.end() ) {
         fail_test( "Not an empty range" );
     }

     if( test_case.begin() == const_test_case.begin() ) {
         fail_test( "iterators for different containers are not distinct" );
     }

     if( test_case.data() == const_test_case.data() ) {
     //  Value of data is unspecified in TR1, so no requirement this test pass or fail
     //  However, it must compile!
     }


     //  Check can safely use all iterator types with std algorithms
     std::for_each( test_case.begin(), test_case.end(), BadValue< T > );
     std::for_each( test_case.rbegin(), test_case.rend(), BadValue< T > );
     std::for_each( const_test_case.begin(), const_test_case.end(), BadValue< T > );
     std::for_each( const_test_case.rbegin(), const_test_case.rend(), BadValue< T > );

     //  Check swap is well formed
     std::swap( test_case, test_case );

     //  Check assigment operator and overloads are well formed
     test_case   =   const_test_case;

     //  Confirm at() throws the std lib defined exception
     try {
         BadValue( test_case.at( 0 ) );
     } catch ( const std::out_of_range & ) {
     }

     try {
         BadValue( const_test_case.at( 0 ) );
     } catch ( const std::out_of_range & ) {
     }
 }

 }

 int main()
 {
     RunTests< bool >();
     RunTests< void * >();
     RunTests< long double >();
     RunTests< std::string >();
     return failed_tests;
 }
	/* tests for using class array<> specialization for size 0
	* (C) Copyright Alisdair Meredith 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 <string>
	#include <iostream>
	#include <boost/array.hpp>

	namespace {
	unsigned int failed_tests = 0;

	void fail_test( const char * reason ) {
	++failed_tests;
	std::cerr << "Test failure " << failed_tests << ": " << reason << std::endl;
	}

	template< class T >
	void BadValue( const T & )
	{
	fail_test( "Unexpected value" );
	}

	template< class T >
	void RunTests()
	{
	typedef boost::array< T, 0 > test_type;

	// Test value and aggegrate initialization
	test_type test_case = {};
	const boost::array< T, 0 > const_test_case = test_type();

	test_case.fill ( T() );

	// front/back and operator[] must compile, but calling them is undefined
	// Likewise, all tests below should evaluate to false, avoiding undefined behaviour
	if( !test_case.empty() ) {
	BadValue( test_case.front() );
	}

	if( !const_test_case.empty() ) {
	BadValue( const_test_case.back() );
	}

	if( test_case.size() > 0 ) {
	BadValue( test_case[ 0 ] );
	}

	if( const_test_case.max_size() > 0 ) {
	BadValue( const_test_case[ 0 ] );
	}

	// Assert requirements of TR1 6.2.2.4
	if( test_case.begin() != test_case.end() ) {
	fail_test( "Not an empty range" );
	}
	if( const_test_case.begin() != const_test_case.end() ) {
	fail_test( "Not an empty range" );
	}

	if( test_case.begin() == const_test_case.begin() ) {
	fail_test( "iterators for different containers are not distinct" );
	}

	if( test_case.data() == const_test_case.data() ) {
	// Value of data is unspecified in TR1, so no requirement this test pass or fail
	// However, it must compile!
	}


	// Check can safely use all iterator types with std algorithms
	std::for_each( test_case.begin(), test_case.end(), BadValue< T > );
	std::for_each( test_case.rbegin(), test_case.rend(), BadValue< T > );
	std::for_each( const_test_case.begin(), const_test_case.end(), BadValue< T > );
	std::for_each( const_test_case.rbegin(), const_test_case.rend(), BadValue< T > );

	// Check swap is well formed
	std::swap( test_case, test_case );

	// Check assigment operator and overloads are well formed
	test_case = const_test_case;

	// Confirm at() throws the std lib defined exception
	try {
	BadValue( test_case.at( 0 ) );
	} catch ( const std::out_of_range & ) {
	}

	try {
	BadValue( const_test_case.at( 0 ) );
	} catch ( const std::out_of_range & ) {
	}
	}

	}

	int main()
	{
	RunTests< bool >();
	RunTests< void * >();
	RunTests< long double >();
	RunTests< std::string >();
	return failed_tests;
	}