boost_1_45_0/libs/optional/test/optional_test_ref.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
 //
 #include<iostream>
 #include<stdexcept>
 #include<string>

 #define BOOST_ENABLE_ASSERT_HANDLER

 #include "boost/optional.hpp"

 #ifdef __BORLANDC__
 #pragma hdrstop
 #endif

 #include "boost/none.hpp"

 #include "boost/test/minimal.hpp"

 #include "optional_test_common.cpp"

 template<class T>
 inline void check_ref_uninitialized_const ( optional<T&> const& opt )
 {
 #ifndef BOOST_OPTIONAL_NO_NULL_COMPARE
   BOOST_CHECK( opt == 0 ) ;
 #endif
   BOOST_CHECK( !opt ) ;
 }
 template<class T>
 inline void check_ref_uninitialized ( optional<T&>& opt )
 {
 #ifndef BOOST_OPTIONAL_NO_NULL_COMPARE
   BOOST_CHECK( opt == 0 ) ;
 #endif
   BOOST_CHECK( !opt ) ;

   check_ref_uninitialized_const(opt);
 }

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

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

   BOOST_CHECK ( !!opt ) ;
 }

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

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

   BOOST_CHECK ( !!opt ) ;

   check_ref_initialized_const(opt);
 }

 template<class T>
 inline void check_ref_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 ) ;
 }

 template<class T>
 inline void check_ref_value ( optional<T&>& 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 ) ;

   check_ref_value_const(opt,v,z);
 }

 //
 // Basic test.
 // Check ordinary functionality:
 //   Initialization, assignment, comparison and value-accessing.
 //
 template<class T>
 void test_basics( T const* )
 {
   TRACE( std::endl << BOOST_CURRENT_FUNCTION  );

   T z(0);

   T original_a(1);

   T a(1);

   T b(2);

   T c(10);

   T& aref = a ;
   T& bref = b ;

   // Default construction.
   // 'def' state is Uninitialized.
   // T::T() is not called
   optional<T&> def ;
   check_ref_uninitialized(def);

   // Direct initialization.
   // 'oa' state is Initialized and binds to 'a'
   // T::T( T const& x ) is NOT used becasue the optional holds a reference.
   set_pending_copy( ARG(T) ) ;
   optional<T&> oa ( aref ) ;
   check_is_pending_copy( ARG(T) );
   check_ref_initialized(oa);
   check_ref_value(oa,a,z);
   *oa = b ; // changes the value of 'a' through the reference
   BOOST_CHECK( a == b ) ;


   // Copy initialization.
   // T::T ( T const& x ) is NOT used becasue the optional holds a reference.
   set_pending_copy( ARG(T) ) ;
   optional<T&>  const oa2 ( oa ) ;
   check_is_pending_copy( ARG(T) ) ;
   check_ref_initialized_const(oa2);
   check_ref_value_const(oa2,a,z);
   *oa2 = original_a ; // restores the value of 'a' through the reference
   BOOST_CHECK( a == original_a ) ;

   optional<T&> ob ;

   // Value-Assignment upon Uninitialized optional.
   // T::T ( T const& x ) is NOT used becasue the optional holds a reference.
   set_pending_copy( ARG(T) ) ;
   ob = a ; // Binds ob to a temporary non-const refererence to 'a'
   check_is_pending_copy( ARG(T) ) ;
   check_ref_initialized(ob);
   check_ref_value(ob,a,z);
   a = c;
   check_ref_value(ob,a,z);

   // Value-Assignment upon Initialized optional.
   // T::operator= ( T const& x ) is used.
   set_pending_assign( ARG(T) ) ;
   ob = b ; // Rebinds 'ob' to 'b' (without changing 'a')
   check_is_pending_assign( ARG(T) ) ;
   check_ref_initialized(ob);
   check_ref_value(ob,b,z);
   BOOST_CHECK(a == c); // From a=c in previous test
   b = c;
   check_ref_value(ob,b,z);


   // Assignment initialization.
   // T::T ( T const& x ) is NOT used becasue the optional holds a reference.
   set_pending_copy( ARG(T) ) ;
   optional<T&> const oa3 = b ;
   check_is_pending_copy( ARG(T) ) ;
   check_ref_initialized_const(oa3);
   check_ref_value_const(oa3,b,z);


   // Assignment
   // T::operator=( T const& x ) is used.
   set_pending_assign( ARG(T) ) ;
   oa = ob ; // Rebinds 'a' to 'b'
   check_is_pending_assign( ARG(T) ) ;
   check_ref_initialized(oa);
   a = original_a ;
   check_ref_value(oa,b,z);

   // Uninitializing Assignment upon Initialized Optional
   // T::~T() is NOT used becasue the optional holds a reference.
   set_pending_dtor( ARG(T) ) ;
   set_pending_copy( ARG(T) ) ;
   oa = def ;
   check_is_pending_dtor( ARG(T) ) ;
   check_is_pending_copy( ARG(T) ) ;
   check_ref_uninitialized(oa);

   // Uninitializing Assignment upon Uninitialized Optional
   // (Dtor is not called this time)
   set_pending_dtor( ARG(T) ) ;
   set_pending_copy( ARG(T) ) ;
   oa = def ;
   check_is_pending_dtor( ARG(T) ) ;
   check_is_pending_copy( ARG(T) ) ;
   check_ref_uninitialized(oa);


   // Deinitialization of Initialized Optional
   // T::~T() is NOT used becasue the optional holds a reference.
   set_pending_dtor( ARG(T) ) ;
   ob.reset();
   check_is_pending_dtor( ARG(T) ) ;
   check_ref_uninitialized(ob);

   // Deinitialization of Uninitialized Optional
   // T::~T() is not called this time
   set_pending_dtor( ARG(T) ) ;
   ob.reset();
   check_is_pending_dtor( ARG(T) ) ;
   check_ref_uninitialized(ob);
 }

 //
 // This verifies relational operators.
 //
 template<class T>
 void test_relops( T const* )
 {
   TRACE( std::endl << BOOST_CURRENT_FUNCTION   );

   reset_throw_on_copy( ARG(T) ) ;

   T v0(18);
   T v1(19);
   T v2(19);

   optional<T&> def0 ;
   optional<T&> def1 ;
   optional<T&> opt0(v0);
   optional<T&> opt1(v1);
   optional<T&> opt2(v2);

   // Check identity
   BOOST_CHECK ( def0 == def0 ) ;
   BOOST_CHECK ( opt0 == opt0 ) ;
   BOOST_CHECK ( !(def0 != def0) ) ;
   BOOST_CHECK ( !(opt0 != opt0) ) ;

   // Check when both are uininitalized.
   BOOST_CHECK (   def0 == def1  ) ; // both uninitialized compare equal
   BOOST_CHECK ( !(def0 <  def1) ) ; // uninitialized is never less    than uninitialized
   BOOST_CHECK ( !(def0 >  def1) ) ; // uninitialized is never greater than uninitialized
   BOOST_CHECK ( !(def0 != def1) ) ;
   BOOST_CHECK (   def0 <= def1  ) ;
   BOOST_CHECK (   def0 >= def1  ) ;

   // Check when only lhs is uninitialized.
   BOOST_CHECK (   def0 != opt0  ) ; // uninitialized is never equal to initialized
   BOOST_CHECK ( !(def0 == opt0) ) ;
   BOOST_CHECK (   def0 <  opt0  ) ; // uninitialized is always less than initialized
   BOOST_CHECK ( !(def0 >  opt0) ) ;
   BOOST_CHECK (   def0 <= opt0  ) ;
   BOOST_CHECK ( !(def0 >= opt0) ) ;

   // Check when only rhs is uninitialized.
   BOOST_CHECK (   opt0 != def0  ) ; // initialized is never equal to uninitialized
   BOOST_CHECK ( !(opt0 == def0) ) ;
   BOOST_CHECK ( !(opt0 <  def0) ) ; // initialized is never less than uninitialized
   BOOST_CHECK (   opt0 >  def0  ) ;
   BOOST_CHECK ( !(opt0 <= def0) ) ;
   BOOST_CHECK (   opt0 >= opt0  ) ;

   // If both are initialized, values are compared
   BOOST_CHECK ( opt0 != opt1 ) ;
   BOOST_CHECK ( opt1 == opt2 ) ;
   BOOST_CHECK ( opt0 <  opt1 ) ;
   BOOST_CHECK ( opt1 >  opt0 ) ;
   BOOST_CHECK ( opt1 <= opt2 ) ;
   BOOST_CHECK ( opt1 >= opt0 ) ;
 }

 template<class T>
 void test_none( T const* )
 {
   TRACE( std::endl << BOOST_CURRENT_FUNCTION   );

   using boost::none ;

   T a(1234);

   optional<T&> def0 ;
   optional<T&> def1(none) ;
   optional<T&> non_def(a) ;

   BOOST_CHECK ( def0    == none ) ;
   BOOST_CHECK ( non_def != none ) ;
   BOOST_CHECK ( !def1           ) ;

   non_def = none ;
   BOOST_CHECK ( !non_def ) ;
 }

 template<class T>
 void test_arrow( T const* )
 {
   TRACE( std::endl << BOOST_CURRENT_FUNCTION   );

   T a(1234);

   optional<T&>        oa(a) ;
   optional<T&> const coa(a) ;

   BOOST_CHECK ( coa->V() == 1234 ) ;

   oa->V() = 4321 ;

   BOOST_CHECK ( a.V() = 4321 ) ;
 }

 void test_with_builtin_types()
 {
   TRACE( std::endl << BOOST_CURRENT_FUNCTION   );

   test_basics( ARG(double) );
   test_relops( ARG(double) ) ;
   test_none  ( ARG(double) ) ;
 }

 void test_with_class_type()
 {
   TRACE( std::endl << BOOST_CURRENT_FUNCTION   );

   test_basics( ARG(X) );
   test_relops( ARG(X) ) ;
   test_none  ( ARG(X) ) ;
   test_arrow ( ARG(X) ) ;

   BOOST_CHECK ( X::count == 0 ) ;
 }

 void test_binding()
 {
   int i = 0 ;
   optional<int&> ori1 = i ;
   BOOST_CHECK(  &(*ori1) == &i ) ;

   optional<int&> ori2(i) ;
   BOOST_CHECK(  &(*ori2) == &i ) ;

   int const ci = 0 ;
   optional<int const&> orci1 = ci ;
   BOOST_CHECK(  &(*orci1) == &ci ) ;

   optional<int const&> orci2(ci) ;
   BOOST_CHECK(  &(*orci2) == &ci ) ;
 }

 int test_main( int, char* [] )
 {
   try
   {
     test_with_class_type();
     test_with_builtin_types();
     test_binding();
   }
   catch ( ... )
   {
     BOOST_ERROR("Unexpected Exception caught!");
   }

   return 0;
 }
	// 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
	//
	#include<iostream>
	#include<stdexcept>
	#include<string>

	#define BOOST_ENABLE_ASSERT_HANDLER

	#include "boost/optional.hpp"

	#ifdef __BORLANDC__
	#pragma hdrstop
	#endif

	#include "boost/none.hpp"

	#include "boost/test/minimal.hpp"

	#include "optional_test_common.cpp"

	template<class T>
	inline void check_ref_uninitialized_const ( optional<T&> const& opt )
	{
	#ifndef BOOST_OPTIONAL_NO_NULL_COMPARE
	BOOST_CHECK( opt == 0 ) ;
	#endif
	BOOST_CHECK( !opt ) ;
	}
	template<class T>
	inline void check_ref_uninitialized ( optional<T&>& opt )
	{
	#ifndef BOOST_OPTIONAL_NO_NULL_COMPARE
	BOOST_CHECK( opt == 0 ) ;
	#endif
	BOOST_CHECK( !opt ) ;

	check_ref_uninitialized_const(opt);
	}

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

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

	BOOST_CHECK ( !!opt ) ;
	}

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

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

	BOOST_CHECK ( !!opt ) ;

	check_ref_initialized_const(opt);
	}

	template<class T>
	inline void check_ref_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 ) ;
	}

	template<class T>
	inline void check_ref_value ( optional<T&>& 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 ) ;

	check_ref_value_const(opt,v,z);
	}

	//
	// Basic test.
	// Check ordinary functionality:
	// Initialization, assignment, comparison and value-accessing.
	//
	template<class T>
	void test_basics( T const* )
	{
	TRACE( std::endl << BOOST_CURRENT_FUNCTION );

	T z(0);

	T original_a(1);

	T a(1);

	T b(2);

	T c(10);

	T& aref = a ;
	T& bref = b ;

	// Default construction.
	// 'def' state is Uninitialized.
	// T::T() is not called
	optional<T&> def ;
	check_ref_uninitialized(def);

	// Direct initialization.
	// 'oa' state is Initialized and binds to 'a'
	// T::T( T const& x ) is NOT used becasue the optional holds a reference.
	set_pending_copy( ARG(T) ) ;
	optional<T&> oa ( aref ) ;
	check_is_pending_copy( ARG(T) );
	check_ref_initialized(oa);
	check_ref_value(oa,a,z);
	*oa = b ; // changes the value of 'a' through the reference
	BOOST_CHECK( a == b ) ;


	// Copy initialization.
	// T::T ( T const& x ) is NOT used becasue the optional holds a reference.
	set_pending_copy( ARG(T) ) ;
	optional<T&> const oa2 ( oa ) ;
	check_is_pending_copy( ARG(T) ) ;
	check_ref_initialized_const(oa2);
	check_ref_value_const(oa2,a,z);
	*oa2 = original_a ; // restores the value of 'a' through the reference
	BOOST_CHECK( a == original_a ) ;

	optional<T&> ob ;

	// Value-Assignment upon Uninitialized optional.
	// T::T ( T const& x ) is NOT used becasue the optional holds a reference.
	set_pending_copy( ARG(T) ) ;
	ob = a ; // Binds ob to a temporary non-const refererence to 'a'
	check_is_pending_copy( ARG(T) ) ;
	check_ref_initialized(ob);
	check_ref_value(ob,a,z);
	a = c;
	check_ref_value(ob,a,z);

	// Value-Assignment upon Initialized optional.
	// T::operator= ( T const& x ) is used.
	set_pending_assign( ARG(T) ) ;
	ob = b ; // Rebinds 'ob' to 'b' (without changing 'a')
	check_is_pending_assign( ARG(T) ) ;
	check_ref_initialized(ob);
	check_ref_value(ob,b,z);
	BOOST_CHECK(a == c); // From a=c in previous test
	b = c;
	check_ref_value(ob,b,z);


	// Assignment initialization.
	// T::T ( T const& x ) is NOT used becasue the optional holds a reference.
	set_pending_copy( ARG(T) ) ;
	optional<T&> const oa3 = b ;
	check_is_pending_copy( ARG(T) ) ;
	check_ref_initialized_const(oa3);
	check_ref_value_const(oa3,b,z);


	// Assignment
	// T::operator=( T const& x ) is used.
	set_pending_assign( ARG(T) ) ;
	oa = ob ; // Rebinds 'a' to 'b'
	check_is_pending_assign( ARG(T) ) ;
	check_ref_initialized(oa);
	a = original_a ;
	check_ref_value(oa,b,z);

	// Uninitializing Assignment upon Initialized Optional
	// T::~T() is NOT used becasue the optional holds a reference.
	set_pending_dtor( ARG(T) ) ;
	set_pending_copy( ARG(T) ) ;
	oa = def ;
	check_is_pending_dtor( ARG(T) ) ;
	check_is_pending_copy( ARG(T) ) ;
	check_ref_uninitialized(oa);

	// Uninitializing Assignment upon Uninitialized Optional
	// (Dtor is not called this time)
	set_pending_dtor( ARG(T) ) ;
	set_pending_copy( ARG(T) ) ;
	oa = def ;
	check_is_pending_dtor( ARG(T) ) ;
	check_is_pending_copy( ARG(T) ) ;
	check_ref_uninitialized(oa);


	// Deinitialization of Initialized Optional
	// T::~T() is NOT used becasue the optional holds a reference.
	set_pending_dtor( ARG(T) ) ;
	ob.reset();
	check_is_pending_dtor( ARG(T) ) ;
	check_ref_uninitialized(ob);

	// Deinitialization of Uninitialized Optional
	// T::~T() is not called this time
	set_pending_dtor( ARG(T) ) ;
	ob.reset();
	check_is_pending_dtor( ARG(T) ) ;
	check_ref_uninitialized(ob);
	}

	//
	// This verifies relational operators.
	//
	template<class T>
	void test_relops( T const* )
	{
	TRACE( std::endl << BOOST_CURRENT_FUNCTION );

	reset_throw_on_copy( ARG(T) ) ;

	T v0(18);
	T v1(19);
	T v2(19);

	optional<T&> def0 ;
	optional<T&> def1 ;
	optional<T&> opt0(v0);
	optional<T&> opt1(v1);
	optional<T&> opt2(v2);

	// Check identity
	BOOST_CHECK ( def0 == def0 ) ;
	BOOST_CHECK ( opt0 == opt0 ) ;
	BOOST_CHECK ( !(def0 != def0) ) ;
	BOOST_CHECK ( !(opt0 != opt0) ) ;

	// Check when both are uininitalized.
	BOOST_CHECK ( def0 == def1 ) ; // both uninitialized compare equal
	BOOST_CHECK ( !(def0 < def1) ) ; // uninitialized is never less than uninitialized
	BOOST_CHECK ( !(def0 > def1) ) ; // uninitialized is never greater than uninitialized
	BOOST_CHECK ( !(def0 != def1) ) ;
	BOOST_CHECK ( def0 <= def1 ) ;
	BOOST_CHECK ( def0 >= def1 ) ;

	// Check when only lhs is uninitialized.
	BOOST_CHECK ( def0 != opt0 ) ; // uninitialized is never equal to initialized
	BOOST_CHECK ( !(def0 == opt0) ) ;
	BOOST_CHECK ( def0 < opt0 ) ; // uninitialized is always less than initialized
	BOOST_CHECK ( !(def0 > opt0) ) ;
	BOOST_CHECK ( def0 <= opt0 ) ;
	BOOST_CHECK ( !(def0 >= opt0) ) ;

	// Check when only rhs is uninitialized.
	BOOST_CHECK ( opt0 != def0 ) ; // initialized is never equal to uninitialized
	BOOST_CHECK ( !(opt0 == def0) ) ;
	BOOST_CHECK ( !(opt0 < def0) ) ; // initialized is never less than uninitialized
	BOOST_CHECK ( opt0 > def0 ) ;
	BOOST_CHECK ( !(opt0 <= def0) ) ;
	BOOST_CHECK ( opt0 >= opt0 ) ;

	// If both are initialized, values are compared
	BOOST_CHECK ( opt0 != opt1 ) ;
	BOOST_CHECK ( opt1 == opt2 ) ;
	BOOST_CHECK ( opt0 < opt1 ) ;
	BOOST_CHECK ( opt1 > opt0 ) ;
	BOOST_CHECK ( opt1 <= opt2 ) ;
	BOOST_CHECK ( opt1 >= opt0 ) ;
	}

	template<class T>
	void test_none( T const* )
	{
	TRACE( std::endl << BOOST_CURRENT_FUNCTION );

	using boost::none ;

	T a(1234);

	optional<T&> def0 ;
	optional<T&> def1(none) ;
	optional<T&> non_def(a) ;

	BOOST_CHECK ( def0 == none ) ;
	BOOST_CHECK ( non_def != none ) ;
	BOOST_CHECK ( !def1 ) ;

	non_def = none ;
	BOOST_CHECK ( !non_def ) ;
	}

	template<class T>
	void test_arrow( T const* )
	{
	TRACE( std::endl << BOOST_CURRENT_FUNCTION );

	T a(1234);

	optional<T&> oa(a) ;
	optional<T&> const coa(a) ;

	BOOST_CHECK ( coa->V() == 1234 ) ;

	oa->V() = 4321 ;

	BOOST_CHECK ( a.V() = 4321 ) ;
	}

	void test_with_builtin_types()
	{
	TRACE( std::endl << BOOST_CURRENT_FUNCTION );

	test_basics( ARG(double) );
	test_relops( ARG(double) ) ;
	test_none ( ARG(double) ) ;
	}

	void test_with_class_type()
	{
	TRACE( std::endl << BOOST_CURRENT_FUNCTION );

	test_basics( ARG(X) );
	test_relops( ARG(X) ) ;
	test_none ( ARG(X) ) ;
	test_arrow ( ARG(X) ) ;

	BOOST_CHECK ( X::count == 0 ) ;
	}

	void test_binding()
	{
	int i = 0 ;
	optional<int&> ori1 = i ;
	BOOST_CHECK( &(*ori1) == &i ) ;

	optional<int&> ori2(i) ;
	BOOST_CHECK( &(*ori2) == &i ) ;

	int const ci = 0 ;
	optional<int const&> orci1 = ci ;
	BOOST_CHECK( &(*orci1) == &ci ) ;

	optional<int const&> orci2(ci) ;
	BOOST_CHECK( &(*orci2) == &ci ) ;
	}

	int test_main( int, char* [] )
	{
	try
	{
	test_with_class_type();
	test_with_builtin_types();
	test_binding();
	}
	catch ( ... )
	{
	BOOST_ERROR("Unexpected Exception caught!");
	}

	return 0;
	}