boost_1_45_0/libs/optional/test/optional_test_common.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 // Copyright (C) 2003, Fernando Luis Cacciola Carballal.
 //
 // Use, modification, and distribution is 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)
 //
 // See http://www.boost.org/lib/optional for documentation.
 //
 // You are welcome to contact the author at:
 //  fernando_cacciola@hotmail.com
 //
 #ifdef ENABLE_TRACE
 #define TRACE(msg) std::cout << msg << std::endl ;
 #else
 #define TRACE(msg)
 #endif

 namespace boost {

 void assertion_failed (char const * expr, char const * func, char const * file, long )
 {
   using std::string ;
   string msg =  string("Boost assertion failure for \"")
                + string(expr)
                + string("\" at file \"")
                + string(file)
                + string("\" function \"")
                + string(func)
                + string("\"") ;

   TRACE(msg);

   throw std::logic_error(msg);
 }

 }

 using boost::optional ;

 template<class T> inline void unused_variable ( T ) {}

 #ifdef BOOST_NO_ARGUMENT_DEPENDENT_LOOKUP
 using boost::swap ;
 using boost::get ;
 using boost::get_pointer ;
 #endif

 // MSVC6.0 does not support comparisons of optional against a literal null pointer value (0)
 // via the safe_bool operator.
 #if BOOST_WORKAROUND(BOOST_MSVC, BOOST_TESTED_AT(1300) ) // 1300 == VC++ 7.1
 #define BOOST_OPTIONAL_NO_NULL_COMPARE
 #endif

 #define ARG(T) (static_cast< T const* >(0))

 //
 // Helper class used to verify the lifetime managment of the values held by optional
 //
 class X
 {
   public :

     X ( int av ) : v(av)
     {
       ++ count ;

       TRACE ( "X::X(" << av << "). this=" << this ) ;
     }

     X ( X const& rhs ) : v(rhs.v)
     {
        pending_copy = false ;

        TRACE ( "X::X( X const& rhs). this=" << this << " rhs.v=" << rhs.v ) ;

        if ( throw_on_copy )
        {
          TRACE ( "throwing exception in X's copy ctor" ) ;
          throw 0 ;
        }

        ++ count ;
     }

     ~X()
     {
       pending_dtor = false ;

       -- count ;

       TRACE ( "X::~X(). v=" << v << "  this=" << this );
     }

     X& operator= ( X const& rhs )
       {
         pending_assign = false ;

         if ( throw_on_assign )
         {
           TRACE ( "throwing exception in X's assignment" ) ;

           v = -1 ;

           throw 0 ;
         }
         else
         {
           v = rhs.v ;

           TRACE ( "X::operator =( X const& rhs). this=" << this << " rhs.v=" << rhs.v ) ;
         }
         return *this ;
       }

     friend bool operator == ( X const& a, X const& b )
       { return a.v == b.v ; }

     friend bool operator != ( X const& a, X const& b )
       { return a.v != b.v ; }

     friend bool operator < ( X const& a, X const& b )
       { return a.v < b.v ; }

     int  V() const { return v ; }
     int& V()       { return v ; }

     static int  count ;
     static bool pending_copy   ;
     static bool pending_dtor   ;
     static bool pending_assign ;
     static bool throw_on_copy ;
     static bool throw_on_assign ;

   private :

     int  v ;

   private :

     X() ;
 } ;


 int  X::count           = 0 ;
 bool X::pending_copy    = false ;
 bool X::pending_dtor    = false ;
 bool X::pending_assign  = false ;
 bool X::throw_on_copy   = false ;
 bool X::throw_on_assign = false ;

 inline void set_pending_copy           ( X const* x ) { X::pending_copy  = true  ; }
 inline void set_pending_dtor           ( X const* x ) { X::pending_dtor  = true  ; }
 inline void set_pending_assign         ( X const* x ) { X::pending_assign = true  ; }
 inline void set_throw_on_copy          ( X const* x ) { X::throw_on_copy = true  ; }
 inline void set_throw_on_assign        ( X const* x ) { X::throw_on_assign = true  ; }
 inline void reset_throw_on_copy        ( X const* x ) { X::throw_on_copy = false ; }
 inline void reset_throw_on_assign      ( X const* x ) { X::throw_on_assign = false ; }
 inline void check_is_pending_copy      ( X const* x ) { BOOST_CHECK( X::pending_copy ) ; }
 inline void check_is_pending_dtor      ( X const* x ) { BOOST_CHECK( X::pending_dtor ) ; }
 inline void check_is_pending_assign    ( X const* x ) { BOOST_CHECK( X::pending_assign ) ; }
 inline void check_is_not_pending_copy  ( X const* x ) { BOOST_CHECK( !X::pending_copy ) ; }
 inline void check_is_not_pending_dtor  ( X const* x ) { BOOST_CHECK( !X::pending_dtor ) ; }
 inline void check_is_not_pending_assign( X const* x ) { BOOST_CHECK( !X::pending_assign ) ; }
 inline void check_instance_count       ( int c, X const* x ) { BOOST_CHECK( X::count == c ) ; }
 inline int  get_instance_count         ( X const* x ) { return X::count ; }

 inline void set_pending_copy           (...) {}
 inline void set_pending_dtor           (...) {}
 inline void set_pending_assign         (...) {}
 inline void set_throw_on_copy          (...) {}
 inline void set_throw_on_assign        (...) {}
 inline void reset_throw_on_copy        (...) {}
 inline void reset_throw_on_assign      (...) {}
 inline void check_is_pending_copy      (...) {}
 inline void check_is_pending_dtor      (...) {}
 inline void check_is_pending_assign    (...) {}
 inline void check_is_not_pending_copy  (...) {}
 inline void check_is_not_pending_dtor  (...) {}
 inline void check_is_not_pending_assign(...) {}
 inline void check_instance_count       (...) {}
 inline int  get_instance_count         (...) { return 0 ; }


 template<class T>
 inline void check_uninitialized_const ( optional<T> const& opt )
 {
 #ifndef BOOST_OPTIONAL_NO_NULL_COMPARE
   BOOST_CHECK( opt == 0 ) ;
 #endif
   BOOST_CHECK( !opt ) ;
   BOOST_CHECK( !get_pointer(opt) ) ;
   BOOST_CHECK( !opt.get_ptr() ) ;
 }
 template<class T>
 inline void check_uninitialized ( optional<T>& opt )
 {
 #ifndef BOOST_OPTIONAL_NO_NULL_COMPARE
   BOOST_CHECK( opt == 0 ) ;
 #endif
   BOOST_CHECK( !opt ) ;
   BOOST_CHECK( !get_pointer(opt) ) ;
   BOOST_CHECK( !opt.get_ptr() ) ;

   check_uninitialized_const(opt);
 }

 template<class T>
 inline void check_initialized_const ( optional<T> const& opt )
 {
   BOOST_CHECK( opt ) ;

 #ifndef BOOST_OPTIONAL_NO_NULL_COMPARE
   BOOST_CHECK( opt != 0 ) ;
 #endif

   BOOST_CHECK ( !!opt ) ;
   BOOST_CHECK ( get_pointer(opt) ) ;
   BOOST_CHECK ( opt.get_ptr() ) ;
 }

 template<class T>
 inline void check_initialized ( optional<T>& opt )
 {
   BOOST_CHECK( opt ) ;

 #ifndef BOOST_OPTIONAL_NO_NULL_COMPARE
   BOOST_CHECK( opt != 0 ) ;
 #endif

   BOOST_CHECK ( !!opt ) ;
   BOOST_CHECK ( get_pointer(opt) ) ;
   BOOST_CHECK ( opt.get_ptr() ) ;

   check_initialized_const(opt);
 }

 template<class T>
 inline void check_value_const ( optional<T> const& opt, T const& v, T const& z )
 {
   BOOST_CHECK( *opt == v ) ;
   BOOST_CHECK( *opt != z ) ;
   BOOST_CHECK( opt.get() == v ) ;
   BOOST_CHECK( opt.get() != z ) ;
   BOOST_CHECK( (*(opt.operator->()) == v) ) ;
   BOOST_CHECK( *get_pointer(opt) == v ) ;
 }

 template<class T>
 inline void check_value ( optional<T>& opt, T const& v, T const& z )
 {
 #if BOOST_WORKAROUND(BOOST_MSVC, <= 1200) // 1200 == VC++ 6.0
   // For some reason, VC6.0 is creating a temporary while evaluating (*opt == v),
   // so we need to turn throw on copy off first.
   reset_throw_on_copy( ARG(T) ) ;
 #endif

   BOOST_CHECK( *opt == v ) ;
   BOOST_CHECK( *opt != z ) ;
   BOOST_CHECK( opt.get() == v ) ;
   BOOST_CHECK( opt.get() != z ) ;
   BOOST_CHECK( (*(opt.operator->()) == v) ) ;
   BOOST_CHECK( *get_pointer(opt) == v ) ;

   check_value_const(opt,v,z);
 }
	// Copyright (C) 2003, Fernando Luis Cacciola Carballal.
	//
	// Use, modification, and distribution is 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)
	//
	// See http://www.boost.org/lib/optional for documentation.
	//
	// You are welcome to contact the author at:
	// fernando_cacciola@hotmail.com
	//
	#ifdef ENABLE_TRACE
	#define TRACE(msg) std::cout << msg << std::endl ;
	#else
	#define TRACE(msg)
	#endif

	namespace boost {

	void assertion_failed (char const * expr, char const * func, char const * file, long )
	{
	using std::string ;
	string msg = string("Boost assertion failure for \"")
	+ string(expr)
	+ string("\" at file \"")
	+ string(file)
	+ string("\" function \"")
	+ string(func)
	+ string("\"") ;

	TRACE(msg);

	throw std::logic_error(msg);
	}

	}

	using boost::optional ;

	template<class T> inline void unused_variable ( T ) {}

	#ifdef BOOST_NO_ARGUMENT_DEPENDENT_LOOKUP
	using boost::swap ;
	using boost::get ;
	using boost::get_pointer ;
	#endif

	// MSVC6.0 does not support comparisons of optional against a literal null pointer value (0)
	// via the safe_bool operator.
	#if BOOST_WORKAROUND(BOOST_MSVC, BOOST_TESTED_AT(1300) ) // 1300 == VC++ 7.1
	#define BOOST_OPTIONAL_NO_NULL_COMPARE
	#endif

	#define ARG(T) (static_cast< T const* >(0))

	//
	// Helper class used to verify the lifetime managment of the values held by optional
	//
	class X
	{
	public :

	X ( int av ) : v(av)
	{
	++ count ;

	TRACE ( "X::X(" << av << "). this=" << this ) ;
	}

	X ( X const& rhs ) : v(rhs.v)
	{
	pending_copy = false ;

	TRACE ( "X::X( X const& rhs). this=" << this << " rhs.v=" << rhs.v ) ;

	if ( throw_on_copy )
	{
	TRACE ( "throwing exception in X's copy ctor" ) ;
	throw 0 ;
	}

	++ count ;
	}

	~X()
	{
	pending_dtor = false ;

	-- count ;

	TRACE ( "X::~X(). v=" << v << " this=" << this );
	}

	X& operator= ( X const& rhs )
	{
	pending_assign = false ;

	if ( throw_on_assign )
	{
	TRACE ( "throwing exception in X's assignment" ) ;

	v = -1 ;

	throw 0 ;
	}
	else
	{
	v = rhs.v ;

	TRACE ( "X::operator =( X const& rhs). this=" << this << " rhs.v=" << rhs.v ) ;
	}
	return *this ;
	}

	friend bool operator == ( X const& a, X const& b )
	{ return a.v == b.v ; }

	friend bool operator != ( X const& a, X const& b )
	{ return a.v != b.v ; }

	friend bool operator < ( X const& a, X const& b )
	{ return a.v < b.v ; }

	int V() const { return v ; }
	int& V() { return v ; }

	static int count ;
	static bool pending_copy ;
	static bool pending_dtor ;
	static bool pending_assign ;
	static bool throw_on_copy ;
	static bool throw_on_assign ;

	private :

	int v ;

	private :

	X() ;
	} ;


	int X::count = 0 ;
	bool X::pending_copy = false ;
	bool X::pending_dtor = false ;
	bool X::pending_assign = false ;
	bool X::throw_on_copy = false ;
	bool X::throw_on_assign = false ;

	inline void set_pending_copy ( X const* x ) { X::pending_copy = true ; }
	inline void set_pending_dtor ( X const* x ) { X::pending_dtor = true ; }
	inline void set_pending_assign ( X const* x ) { X::pending_assign = true ; }
	inline void set_throw_on_copy ( X const* x ) { X::throw_on_copy = true ; }
	inline void set_throw_on_assign ( X const* x ) { X::throw_on_assign = true ; }
	inline void reset_throw_on_copy ( X const* x ) { X::throw_on_copy = false ; }
	inline void reset_throw_on_assign ( X const* x ) { X::throw_on_assign = false ; }
	inline void check_is_pending_copy ( X const* x ) { BOOST_CHECK( X::pending_copy ) ; }
	inline void check_is_pending_dtor ( X const* x ) { BOOST_CHECK( X::pending_dtor ) ; }
	inline void check_is_pending_assign ( X const* x ) { BOOST_CHECK( X::pending_assign ) ; }
	inline void check_is_not_pending_copy ( X const* x ) { BOOST_CHECK( !X::pending_copy ) ; }
	inline void check_is_not_pending_dtor ( X const* x ) { BOOST_CHECK( !X::pending_dtor ) ; }
	inline void check_is_not_pending_assign( X const* x ) { BOOST_CHECK( !X::pending_assign ) ; }
	inline void check_instance_count ( int c, X const* x ) { BOOST_CHECK( X::count == c ) ; }
	inline int get_instance_count ( X const* x ) { return X::count ; }

	inline void set_pending_copy (...) {}
	inline void set_pending_dtor (...) {}
	inline void set_pending_assign (...) {}
	inline void set_throw_on_copy (...) {}
	inline void set_throw_on_assign (...) {}
	inline void reset_throw_on_copy (...) {}
	inline void reset_throw_on_assign (...) {}
	inline void check_is_pending_copy (...) {}
	inline void check_is_pending_dtor (...) {}
	inline void check_is_pending_assign (...) {}
	inline void check_is_not_pending_copy (...) {}
	inline void check_is_not_pending_dtor (...) {}
	inline void check_is_not_pending_assign(...) {}
	inline void check_instance_count (...) {}
	inline int get_instance_count (...) { return 0 ; }


	template<class T>
	inline void check_uninitialized_const ( optional<T> const& opt )
	{
	#ifndef BOOST_OPTIONAL_NO_NULL_COMPARE
	BOOST_CHECK( opt == 0 ) ;
	#endif
	BOOST_CHECK( !opt ) ;
	BOOST_CHECK( !get_pointer(opt) ) ;
	BOOST_CHECK( !opt.get_ptr() ) ;
	}
	template<class T>
	inline void check_uninitialized ( optional<T>& opt )
	{
	#ifndef BOOST_OPTIONAL_NO_NULL_COMPARE
	BOOST_CHECK( opt == 0 ) ;
	#endif
	BOOST_CHECK( !opt ) ;
	BOOST_CHECK( !get_pointer(opt) ) ;
	BOOST_CHECK( !opt.get_ptr() ) ;

	check_uninitialized_const(opt);
	}

	template<class T>
	inline void check_initialized_const ( optional<T> const& opt )
	{
	BOOST_CHECK( opt ) ;

	#ifndef BOOST_OPTIONAL_NO_NULL_COMPARE
	BOOST_CHECK( opt != 0 ) ;
	#endif

	BOOST_CHECK ( !!opt ) ;
	BOOST_CHECK ( get_pointer(opt) ) ;
	BOOST_CHECK ( opt.get_ptr() ) ;
	}

	template<class T>
	inline void check_initialized ( optional<T>& opt )
	{
	BOOST_CHECK( opt ) ;

	#ifndef BOOST_OPTIONAL_NO_NULL_COMPARE
	BOOST_CHECK( opt != 0 ) ;
	#endif

	BOOST_CHECK ( !!opt ) ;
	BOOST_CHECK ( get_pointer(opt) ) ;
	BOOST_CHECK ( opt.get_ptr() ) ;

	check_initialized_const(opt);
	}

	template<class T>
	inline void check_value_const ( optional<T> const& opt, T const& v, T const& z )
	{
	BOOST_CHECK( *opt == v ) ;
	BOOST_CHECK( *opt != z ) ;
	BOOST_CHECK( opt.get() == v ) ;
	BOOST_CHECK( opt.get() != z ) ;
	BOOST_CHECK( (*(opt.operator->()) == v) ) ;
	BOOST_CHECK( *get_pointer(opt) == v ) ;
	}

	template<class T>
	inline void check_value ( optional<T>& opt, T const& v, T const& z )
	{
	#if BOOST_WORKAROUND(BOOST_MSVC, <= 1200) // 1200 == VC++ 6.0
	// For some reason, VC6.0 is creating a temporary while evaluating (*opt == v),
	// so we need to turn throw on copy off first.
	reset_throw_on_copy( ARG(T) ) ;
	#endif

	BOOST_CHECK( *opt == v ) ;
	BOOST_CHECK( *opt != z ) ;
	BOOST_CHECK( opt.get() == v ) ;
	BOOST_CHECK( opt.get() != z ) ;
	BOOST_CHECK( (*(opt.operator->()) == v) ) ;
	BOOST_CHECK( *get_pointer(opt) == v ) ;

	check_value_const(opt,v,z);
	}