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value_init_test now uses lightweight_test by Peter Dimov; see #4246. Fernando Cacciola mailed me he agreed as well.
[SVN r62158]
This commit is contained in:
Niels Dekker
parent
e601fcb9c9
commit
6239e685a2
@ -22,7 +22,7 @@
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#pragma hdrstop
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#endif
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#include "boost/test/minimal.hpp"
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#include <boost/detail/lightweight_test.hpp>
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//
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// Sample POD type
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@ -215,7 +215,7 @@ template<class T>
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void check_initialized_value ( T const& y )
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{
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T initializedValue = boost::initialized_value ;
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BOOST_CHECK ( y == initializedValue ) ;
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BOOST_TEST ( y == initializedValue ) ;
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}
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#ifdef __BORLANDC__
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@ -245,128 +245,125 @@ void check_initialized_value( NonPOD const& )
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template<class T>
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bool test ( T const& y, T const& z )
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{
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const boost::unit_test::counter_t counter_before_test = boost::minimal_test::errors_counter();
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const int errors_before_test = boost::detail::test_errors();
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check_initialized_value(y);
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boost::value_initialized<T> x ;
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BOOST_CHECK ( y == x ) ;
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BOOST_CHECK ( y == boost::get(x) ) ;
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BOOST_TEST ( y == x ) ;
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BOOST_TEST ( y == boost::get(x) ) ;
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static_cast<T&>(x) = z ;
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boost::get(x) = z ;
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BOOST_CHECK ( x == z ) ;
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BOOST_TEST ( x == z ) ;
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boost::value_initialized<T> const x_c ;
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BOOST_CHECK ( y == x_c ) ;
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BOOST_CHECK ( y == boost::get(x_c) ) ;
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BOOST_TEST ( y == x_c ) ;
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BOOST_TEST ( y == boost::get(x_c) ) ;
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T& x_c_ref = const_cast<T&>( boost::get(x_c) ) ;
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x_c_ref = z ;
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BOOST_CHECK ( x_c == z ) ;
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BOOST_TEST ( x_c == z ) ;
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boost::value_initialized<T> const copy1 = x;
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BOOST_CHECK ( boost::get(copy1) == boost::get(x) ) ;
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BOOST_TEST ( boost::get(copy1) == boost::get(x) ) ;
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boost::value_initialized<T> copy2;
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copy2 = x;
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BOOST_CHECK ( boost::get(copy2) == boost::get(x) ) ;
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BOOST_TEST ( boost::get(copy2) == boost::get(x) ) ;
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boost::shared_ptr<boost::value_initialized<T> > ptr( new boost::value_initialized<T> );
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BOOST_CHECK ( y == *ptr ) ;
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BOOST_TEST ( y == *ptr ) ;
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#if !BOOST_WORKAROUND(BOOST_MSVC, < 1300)
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boost::value_initialized<T const> cx ;
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BOOST_CHECK ( y == cx ) ;
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BOOST_CHECK ( y == boost::get(cx) ) ;
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BOOST_TEST ( y == cx ) ;
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BOOST_TEST ( y == boost::get(cx) ) ;
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boost::value_initialized<T const> const cx_c ;
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BOOST_CHECK ( y == cx_c ) ;
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BOOST_CHECK ( y == boost::get(cx_c) ) ;
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BOOST_TEST ( y == cx_c ) ;
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BOOST_TEST ( y == boost::get(cx_c) ) ;
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#endif
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return boost::minimal_test::errors_counter() == counter_before_test ;
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return boost::detail::test_errors() == errors_before_test ;
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}
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int test_main(int, char **)
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int main(int, char **)
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{
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BOOST_CHECK ( test( 0,1234 ) ) ;
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BOOST_CHECK ( test( 0.0,12.34 ) ) ;
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BOOST_CHECK ( test( POD(0,0,0.0), POD('a',1234,56.78f) ) ) ;
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BOOST_CHECK ( test( NonPOD( std::string() ), NonPOD( std::string("something") ) ) ) ;
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BOOST_TEST ( test( 0,1234 ) ) ;
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BOOST_TEST ( test( 0.0,12.34 ) ) ;
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BOOST_TEST ( test( POD(0,0,0.0), POD('a',1234,56.78f) ) ) ;
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BOOST_TEST ( test( NonPOD( std::string() ), NonPOD( std::string("something") ) ) ) ;
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NonPOD NonPOD_object( std::string("NonPOD_object") );
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BOOST_CHECK ( test<NonPOD *>( 0, &NonPOD_object ) ) ;
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BOOST_TEST ( test<NonPOD *>( 0, &NonPOD_object ) ) ;
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AggregatePODStruct zeroInitializedAggregatePODStruct = { 0.0f, '\0', 0 };
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AggregatePODStruct nonZeroInitializedAggregatePODStruct = { 1.25f, 'a', -1 };
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BOOST_CHECK ( test(zeroInitializedAggregatePODStruct, nonZeroInitializedAggregatePODStruct) );
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BOOST_TEST ( test(zeroInitializedAggregatePODStruct, nonZeroInitializedAggregatePODStruct) );
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StringAndInt stringAndInt0;
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StringAndInt stringAndInt1;
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stringAndInt0.i = 0;
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stringAndInt1.i = 1;
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stringAndInt1.s = std::string("1");
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BOOST_CHECK ( test(stringAndInt0, stringAndInt1) );
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BOOST_TEST ( test(stringAndInt0, stringAndInt1) );
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StructWithDestructor structWithDestructor0;
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StructWithDestructor structWithDestructor1;
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structWithDestructor0.i = 0;
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structWithDestructor1.i = 1;
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BOOST_CHECK ( test(structWithDestructor0, structWithDestructor1) );
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BOOST_TEST ( test(structWithDestructor0, structWithDestructor1) );
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StructWithVirtualFunction structWithVirtualFunction0;
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StructWithVirtualFunction structWithVirtualFunction1;
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structWithVirtualFunction0.i = 0;
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structWithVirtualFunction1.i = 1;
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BOOST_CHECK ( test(structWithVirtualFunction0, structWithVirtualFunction1) );
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BOOST_TEST ( test(structWithVirtualFunction0, structWithVirtualFunction1) );
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DerivedFromAggregatePODStruct derivedFromAggregatePODStruct0;
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DerivedFromAggregatePODStruct derivedFromAggregatePODStruct1;
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static_cast<AggregatePODStruct &>(derivedFromAggregatePODStruct0) = zeroInitializedAggregatePODStruct;
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static_cast<AggregatePODStruct &>(derivedFromAggregatePODStruct1) = nonZeroInitializedAggregatePODStruct;
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BOOST_CHECK ( test(derivedFromAggregatePODStruct0, derivedFromAggregatePODStruct1) );
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BOOST_TEST ( test(derivedFromAggregatePODStruct0, derivedFromAggregatePODStruct1) );
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AggregatePODStructWrapper aggregatePODStructWrapper0;
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AggregatePODStructWrapper aggregatePODStructWrapper1;
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aggregatePODStructWrapper0.dataMember = zeroInitializedAggregatePODStruct;
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aggregatePODStructWrapper1.dataMember = nonZeroInitializedAggregatePODStruct;
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BOOST_CHECK ( test(aggregatePODStructWrapper0, aggregatePODStructWrapper1) );
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BOOST_TEST ( test(aggregatePODStructWrapper0, aggregatePODStructWrapper1) );
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ArrayOfBytes zeroInitializedArrayOfBytes = { 0 };
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boost::value_initialized<ArrayOfBytes> valueInitializedArrayOfBytes;
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BOOST_CHECK (std::memcmp(get(valueInitializedArrayOfBytes), zeroInitializedArrayOfBytes, sizeof(ArrayOfBytes)) == 0);
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BOOST_TEST (std::memcmp(get(valueInitializedArrayOfBytes), zeroInitializedArrayOfBytes, sizeof(ArrayOfBytes)) == 0);
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boost::value_initialized<ArrayOfBytes> valueInitializedArrayOfBytes2;
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valueInitializedArrayOfBytes2 = valueInitializedArrayOfBytes;
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BOOST_CHECK (std::memcmp(get(valueInitializedArrayOfBytes), get(valueInitializedArrayOfBytes2), sizeof(ArrayOfBytes)) == 0);
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BOOST_TEST (std::memcmp(get(valueInitializedArrayOfBytes), get(valueInitializedArrayOfBytes2), sizeof(ArrayOfBytes)) == 0);
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boost::value_initialized<CopyFunctionCallTester> copyFunctionCallTester1;
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BOOST_CHECK ( ! get(copyFunctionCallTester1).is_copy_constructed);
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BOOST_CHECK ( ! get(copyFunctionCallTester1).is_assignment_called);
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BOOST_TEST ( ! get(copyFunctionCallTester1).is_copy_constructed);
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BOOST_TEST ( ! get(copyFunctionCallTester1).is_assignment_called);
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boost::value_initialized<CopyFunctionCallTester> copyFunctionCallTester2 = boost::value_initialized<CopyFunctionCallTester>(copyFunctionCallTester1);
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BOOST_CHECK ( get(copyFunctionCallTester2).is_copy_constructed);
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BOOST_CHECK ( ! get(copyFunctionCallTester2).is_assignment_called);
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BOOST_TEST ( get(copyFunctionCallTester2).is_copy_constructed);
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BOOST_TEST ( ! get(copyFunctionCallTester2).is_assignment_called);
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boost::value_initialized<CopyFunctionCallTester> copyFunctionCallTester3;
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copyFunctionCallTester3 = boost::value_initialized<CopyFunctionCallTester>(copyFunctionCallTester1);
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BOOST_CHECK ( ! get(copyFunctionCallTester3).is_copy_constructed);
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BOOST_CHECK ( get(copyFunctionCallTester3).is_assignment_called);
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BOOST_TEST ( ! get(copyFunctionCallTester3).is_copy_constructed);
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BOOST_TEST ( get(copyFunctionCallTester3).is_assignment_called);
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boost::value_initialized<SwapFunctionCallTester> swapFunctionCallTester1;
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boost::value_initialized<SwapFunctionCallTester> swapFunctionCallTester2;
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get(swapFunctionCallTester1).data = 1;
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get(swapFunctionCallTester2).data = 2;
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boost::swap(swapFunctionCallTester1, swapFunctionCallTester2);
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BOOST_CHECK( get(swapFunctionCallTester1).data == 2 );
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BOOST_CHECK( get(swapFunctionCallTester2).data == 1 );
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BOOST_CHECK( get(swapFunctionCallTester1).is_custom_swap_called );
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BOOST_CHECK( get(swapFunctionCallTester2).is_custom_swap_called );
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BOOST_TEST( get(swapFunctionCallTester1).data == 2 );
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BOOST_TEST( get(swapFunctionCallTester2).data == 1 );
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BOOST_TEST( get(swapFunctionCallTester1).is_custom_swap_called );
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BOOST_TEST( get(swapFunctionCallTester2).is_custom_swap_called );
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return 0;
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return boost::report_errors();
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}
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unsigned int expected_failures = 0;
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