third_party/boost/include/boost/test/impl/results_collector.ipp - webm/webmlive - Git at Google

 //  (C) Copyright Gennadiy Rozental 2005-2008.
 //  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)

 //  See http://www.boost.org/libs/test for the library home page.
 //
 //  File        : $RCSfile$
 //
 //  Version     : $Revision: 57992 $
 //
 //  Description : implements Unit Test results collecting facility.
 // ***************************************************************************

 #ifndef BOOST_TEST_RESULTS_COLLECTOR_IPP_021105GER
 #define BOOST_TEST_RESULTS_COLLECTOR_IPP_021105GER

 // Boost.Test
 #include <boost/test/unit_test_suite_impl.hpp>
 #include <boost/test/unit_test_log.hpp>
 #include <boost/test/results_collector.hpp>
 #include <boost/test/framework.hpp>

 // Boost
 #include <boost/cstdlib.hpp>

 // STL
 #include <map>

 #include <boost/test/detail/suppress_warnings.hpp>

 //____________________________________________________________________________//

 namespace boost {

 namespace unit_test {

 // ************************************************************************** //
 // **************                 test_results                 ************** //
 // ************************************************************************** //

 test_results::test_results()
 {
     clear();
 }

 //____________________________________________________________________________//

 bool
 test_results::passed() const
 {
     return  !p_skipped                                  &&
             p_test_cases_failed == 0                    &&
             p_assertions_failed <= p_expected_failures  &&
             !p_aborted;
 }

 //____________________________________________________________________________//

 int
 test_results::result_code() const
 {
     return passed() ? exit_success
            : ( (p_assertions_failed > p_expected_failures || p_skipped )
                     ? exit_test_failure
                     : exit_exception_failure );
 }

 //____________________________________________________________________________//

 void
 test_results::operator+=( test_results const& tr )
 {
     p_assertions_passed.value   += tr.p_assertions_passed;
     p_assertions_failed.value   += tr.p_assertions_failed;
     p_test_cases_passed.value   += tr.p_test_cases_passed;
     p_test_cases_failed.value   += tr.p_test_cases_failed;
     p_test_cases_skipped.value  += tr.p_test_cases_skipped;
     p_test_cases_aborted.value  += tr.p_test_cases_aborted;
 }

 //____________________________________________________________________________//

 void
 test_results::clear()
 {
     p_assertions_passed.value    = 0;
     p_assertions_failed.value    = 0;
     p_expected_failures.value    = 0;
     p_test_cases_passed.value    = 0;
     p_test_cases_failed.value    = 0;
     p_test_cases_skipped.value   = 0;
     p_test_cases_aborted.value   = 0;
     p_aborted.value              = false;
     p_skipped.value              = true;
 }

 //____________________________________________________________________________//

 // ************************************************************************** //
 // **************               results_collector              ************** //
 // ************************************************************************** //

 #if !BOOST_WORKAROUND(BOOST_MSVC, <1300)

 namespace {

 struct results_collector_impl {
     std::map<test_unit_id,test_results> m_results_store;
 };

 results_collector_impl& s_rc_impl() { static results_collector_impl the_inst; return the_inst; }

 } // local namespace

 #else

 struct results_collector_impl {
     std::map<test_unit_id,test_results> m_results_store;
 };

 static results_collector_impl& s_rc_impl() { static results_collector_impl the_inst; return the_inst; }

 #endif

 //____________________________________________________________________________//

 void
 results_collector_t::test_start( counter_t )
 {
     s_rc_impl().m_results_store.clear();
 }

 //____________________________________________________________________________//

 void
 results_collector_t::test_finish()
 {
     // do nothing
 }

 //____________________________________________________________________________//

 void
 results_collector_t::test_aborted()
 {
     // do nothing
 }

 //____________________________________________________________________________//

 void
 results_collector_t::test_unit_start( test_unit const& tu )
 {
     // init test_results entry
     test_results& tr = s_rc_impl().m_results_store[tu.p_id];

     tr.clear();

     tr.p_expected_failures.value    = tu.p_expected_failures;
     tr.p_skipped.value              = false;
 }

 //____________________________________________________________________________//

 class results_collect_helper : public test_tree_visitor {
 public:
     explicit results_collect_helper( test_results& tr, test_unit const& ts ) : m_tr( tr ), m_ts( ts ) {}

     void    visit( test_case const& tc )
     {
         test_results const& tr = results_collector.results( tc.p_id );
         m_tr += tr;

         if( tr.passed() )
             m_tr.p_test_cases_passed.value++;
         else if( tr.p_skipped )
             m_tr.p_test_cases_skipped.value++;
         else {
             if( tr.p_aborted )
                 m_tr.p_test_cases_aborted.value++;
             m_tr.p_test_cases_failed.value++;
         }
     }
     bool    test_suite_start( test_suite const& ts )
     {
         if( m_ts.p_id == ts.p_id )
             return true;
         else {
             m_tr += results_collector.results( ts.p_id );
             return false;
         }
     }

 private:
     // Data members
     test_results&       m_tr;
     test_unit const&    m_ts;
 };

 //____________________________________________________________________________//

 void
 results_collector_t::test_unit_finish( test_unit const& tu, unsigned long )
 {
     if( tu.p_type == tut_suite ) {
         results_collect_helper ch( s_rc_impl().m_results_store[tu.p_id], tu );

         traverse_test_tree( tu, ch );
     }
     else {
         test_results const& tr = s_rc_impl().m_results_store[tu.p_id];

         bool num_failures_match = tr.p_aborted || tr.p_assertions_failed >= tr.p_expected_failures;
         if( !num_failures_match )
             BOOST_TEST_MESSAGE( "Test case " << tu.p_name << " has fewer failures than expected" );

         bool check_any_assertions = tr.p_aborted || (tr.p_assertions_failed != 0) || (tr.p_assertions_passed != 0);
         if( !check_any_assertions )
             BOOST_TEST_MESSAGE( "Test case " << tu.p_name << " did not check any assertions" );
     }
 }

 //____________________________________________________________________________//

 void
 results_collector_t::test_unit_skipped( test_unit const& tu )
 {
     if( tu.p_type == tut_suite ) {
         test_case_counter tcc;
         traverse_test_tree( tu, tcc );

         test_results& tr = s_rc_impl().m_results_store[tu.p_id];

         tr.clear();

         tr.p_skipped.value              = true;
         tr.p_test_cases_skipped.value   = tcc.p_count;
     }
 }

 //____________________________________________________________________________//

 void
 results_collector_t::assertion_result( bool passed )
 {
     test_results& tr = s_rc_impl().m_results_store[framework::current_test_case().p_id];

     if( passed )
         tr.p_assertions_passed.value++;
     else
         tr.p_assertions_failed.value++;

     if( tr.p_assertions_failed == 1 )
         first_failed_assertion();
 }

 //____________________________________________________________________________//

 void
 results_collector_t::exception_caught( execution_exception const& )
 {
     test_results& tr = s_rc_impl().m_results_store[framework::current_test_case().p_id];

     tr.p_assertions_failed.value++;
 }

 //____________________________________________________________________________//

 void
 results_collector_t::test_unit_aborted( test_unit const& tu )
 {
     s_rc_impl().m_results_store[tu.p_id].p_aborted.value = true;
 }

 //____________________________________________________________________________//

 test_results const&
 results_collector_t::results( test_unit_id id ) const
 {
     return s_rc_impl().m_results_store[id];
 }

 //____________________________________________________________________________//

 } // namespace unit_test

 } // namespace boost

 //____________________________________________________________________________//

 #include <boost/test/detail/enable_warnings.hpp>

 #endif // BOOST_TEST_RESULTS_COLLECTOR_IPP_021105GER
	// (C) Copyright Gennadiy Rozental 2005-2008.
	// 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)

	// See http://www.boost.org/libs/test for the library home page.
	//
	// File : $RCSfile$
	//
	// Version : $Revision: 57992 $
	//
	// Description : implements Unit Test results collecting facility.
	// ***************************************************************************

	#ifndef BOOST_TEST_RESULTS_COLLECTOR_IPP_021105GER
	#define BOOST_TEST_RESULTS_COLLECTOR_IPP_021105GER

	// Boost.Test
	#include <boost/test/unit_test_suite_impl.hpp>
	#include <boost/test/unit_test_log.hpp>
	#include <boost/test/results_collector.hpp>
	#include <boost/test/framework.hpp>

	// Boost
	#include <boost/cstdlib.hpp>

	// STL
	#include <map>

	#include <boost/test/detail/suppress_warnings.hpp>

	//____________________________________________________________________________//

	namespace boost {

	namespace unit_test {

	// ************************************************************************** //
	// ************ test_results ************ //
	// ************************************************************************** //

	test_results::test_results()
	{
	clear();
	}

	//____________________________________________________________________________//

	bool
	test_results::passed() const
	{
	return !p_skipped &&
	p_test_cases_failed == 0 &&
	p_assertions_failed <= p_expected_failures &&
	!p_aborted;
	}

	//____________________________________________________________________________//

	int
	test_results::result_code() const
	{
	return passed() ? exit_success
	: ( (p_assertions_failed > p_expected_failures \|\| p_skipped )
	? exit_test_failure
	: exit_exception_failure );
	}

	//____________________________________________________________________________//

	void
	test_results::operator+=( test_results const& tr )
	{
	p_assertions_passed.value += tr.p_assertions_passed;
	p_assertions_failed.value += tr.p_assertions_failed;
	p_test_cases_passed.value += tr.p_test_cases_passed;
	p_test_cases_failed.value += tr.p_test_cases_failed;
	p_test_cases_skipped.value += tr.p_test_cases_skipped;
	p_test_cases_aborted.value += tr.p_test_cases_aborted;
	}

	//____________________________________________________________________________//

	void
	test_results::clear()
	{
	p_assertions_passed.value = 0;
	p_assertions_failed.value = 0;
	p_expected_failures.value = 0;
	p_test_cases_passed.value = 0;
	p_test_cases_failed.value = 0;
	p_test_cases_skipped.value = 0;
	p_test_cases_aborted.value = 0;
	p_aborted.value = false;
	p_skipped.value = true;
	}

	//____________________________________________________________________________//

	// ************************************************************************** //
	// ************ results_collector ************ //
	// ************************************************************************** //

	#if !BOOST_WORKAROUND(BOOST_MSVC, <1300)

	namespace {

	struct results_collector_impl {
	std::map<test_unit_id,test_results> m_results_store;
	};

	results_collector_impl& s_rc_impl() { static results_collector_impl the_inst; return the_inst; }

	} // local namespace

	#else

	struct results_collector_impl {
	std::map<test_unit_id,test_results> m_results_store;
	};

	static results_collector_impl& s_rc_impl() { static results_collector_impl the_inst; return the_inst; }

	#endif

	//____________________________________________________________________________//

	void
	results_collector_t::test_start( counter_t )
	{
	s_rc_impl().m_results_store.clear();
	}

	//____________________________________________________________________________//

	void
	results_collector_t::test_finish()
	{
	// do nothing
	}

	//____________________________________________________________________________//

	void
	results_collector_t::test_aborted()
	{
	// do nothing
	}

	//____________________________________________________________________________//

	void
	results_collector_t::test_unit_start( test_unit const& tu )
	{
	// init test_results entry
	test_results& tr = s_rc_impl().m_results_store[tu.p_id];

	tr.clear();

	tr.p_expected_failures.value = tu.p_expected_failures;
	tr.p_skipped.value = false;
	}

	//____________________________________________________________________________//

	class results_collect_helper : public test_tree_visitor {
	public:
	explicit results_collect_helper( test_results& tr, test_unit const& ts ) : m_tr( tr ), m_ts( ts ) {}

	void visit( test_case const& tc )
	{
	test_results const& tr = results_collector.results( tc.p_id );
	m_tr += tr;

	if( tr.passed() )
	m_tr.p_test_cases_passed.value++;
	else if( tr.p_skipped )
	m_tr.p_test_cases_skipped.value++;
	else {
	if( tr.p_aborted )
	m_tr.p_test_cases_aborted.value++;
	m_tr.p_test_cases_failed.value++;
	}
	}
	bool test_suite_start( test_suite const& ts )
	{
	if( m_ts.p_id == ts.p_id )
	return true;
	else {
	m_tr += results_collector.results( ts.p_id );
	return false;
	}
	}

	private:
	// Data members
	test_results& m_tr;
	test_unit const& m_ts;
	};

	//____________________________________________________________________________//

	void
	results_collector_t::test_unit_finish( test_unit const& tu, unsigned long )
	{
	if( tu.p_type == tut_suite ) {
	results_collect_helper ch( s_rc_impl().m_results_store[tu.p_id], tu );

	traverse_test_tree( tu, ch );
	}
	else {
	test_results const& tr = s_rc_impl().m_results_store[tu.p_id];

	bool num_failures_match = tr.p_aborted \|\| tr.p_assertions_failed >= tr.p_expected_failures;
	if( !num_failures_match )
	BOOST_TEST_MESSAGE( "Test case " << tu.p_name << " has fewer failures than expected" );

	bool check_any_assertions = tr.p_aborted \|\| (tr.p_assertions_failed != 0) \|\| (tr.p_assertions_passed != 0);
	if( !check_any_assertions )
	BOOST_TEST_MESSAGE( "Test case " << tu.p_name << " did not check any assertions" );
	}
	}

	//____________________________________________________________________________//

	void
	results_collector_t::test_unit_skipped( test_unit const& tu )
	{
	if( tu.p_type == tut_suite ) {
	test_case_counter tcc;
	traverse_test_tree( tu, tcc );

	test_results& tr = s_rc_impl().m_results_store[tu.p_id];

	tr.clear();

	tr.p_skipped.value = true;
	tr.p_test_cases_skipped.value = tcc.p_count;
	}
	}

	//____________________________________________________________________________//

	void
	results_collector_t::assertion_result( bool passed )
	{
	test_results& tr = s_rc_impl().m_results_store[framework::current_test_case().p_id];

	if( passed )
	tr.p_assertions_passed.value++;
	else
	tr.p_assertions_failed.value++;

	if( tr.p_assertions_failed == 1 )
	first_failed_assertion();
	}

	//____________________________________________________________________________//

	void
	results_collector_t::exception_caught( execution_exception const& )
	{
	test_results& tr = s_rc_impl().m_results_store[framework::current_test_case().p_id];

	tr.p_assertions_failed.value++;
	}

	//____________________________________________________________________________//

	void
	results_collector_t::test_unit_aborted( test_unit const& tu )
	{
	s_rc_impl().m_results_store[tu.p_id].p_aborted.value = true;
	}

	//____________________________________________________________________________//

	test_results const&
	results_collector_t::results( test_unit_id id ) const
	{
	return s_rc_impl().m_results_store[id];
	}

	//____________________________________________________________________________//

	} // namespace unit_test

	} // namespace boost

	//____________________________________________________________________________//

	#include <boost/test/detail/enable_warnings.hpp>

	#endif // BOOST_TEST_RESULTS_COLLECTOR_IPP_021105GER