// (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: 57991 $ // // Description : implements framework API - main driver for the test // *************************************************************************** #ifndef BOOST_TEST_FRAMEWORK_IPP_021005GER #define BOOST_TEST_FRAMEWORK_IPP_021005GER // Boost.Test #include #include #include #include #include #include #include #include #include #include #include #include #include #include // Boost #include // STL #include #include #include #include #ifdef BOOST_NO_STDC_NAMESPACE namespace std { using ::time; using ::srand; } #endif #include //____________________________________________________________________________// namespace boost { namespace unit_test { // ************************************************************************** // // ************** test_start calls wrapper ************** // // ************************************************************************** // namespace ut_detail { struct test_start_caller { test_start_caller( test_observer* to, counter_t tc_amount ) : m_to( to ) , m_tc_amount( tc_amount ) {} int operator()() { m_to->test_start( m_tc_amount ); return 0; } private: // Data members test_observer* m_to; counter_t m_tc_amount; }; //____________________________________________________________________________// struct test_init_caller { explicit test_init_caller( init_unit_test_func init_func ) : m_init_func( init_func ) {} int operator()() { #ifdef BOOST_TEST_ALTERNATIVE_INIT_API if( !(*m_init_func)() ) throw std::runtime_error( "test module initialization failed" ); #else test_suite* manual_test_units = (*m_init_func)( framework::master_test_suite().argc, framework::master_test_suite().argv ); if( manual_test_units ) framework::master_test_suite().add( manual_test_units ); #endif return 0; } // Data members init_unit_test_func m_init_func; }; } // ************************************************************************** // // ************** framework ************** // // ************************************************************************** // class framework_impl : public test_tree_visitor { public: framework_impl() : m_master_test_suite( 0 ) , m_curr_test_case( INV_TEST_UNIT_ID ) , m_next_test_case_id( MIN_TEST_CASE_ID ) , m_next_test_suite_id( MIN_TEST_SUITE_ID ) , m_is_initialized( false ) , m_test_in_progress( false ) {} ~framework_impl() { clear(); } void clear() { while( !m_test_units.empty() ) { test_unit_store::value_type const& tu = *m_test_units.begin(); test_unit* tu_ptr = tu.second; // the delete will erase this element from map if( ut_detail::test_id_2_unit_type( tu.second->p_id ) == tut_suite ) delete (test_suite const*)tu_ptr; else delete (test_case const*)tu_ptr; } } void set_tu_id( test_unit& tu, test_unit_id id ) { tu.p_id.value = id; } // test_tree_visitor interface implementation void visit( test_case const& tc ) { if( !tc.check_dependencies() ) { BOOST_TEST_FOREACH( test_observer*, to, m_observers ) to->test_unit_skipped( tc ); return; } BOOST_TEST_FOREACH( test_observer*, to, m_observers ) to->test_unit_start( tc ); boost::timer tc_timer; test_unit_id bkup = m_curr_test_case; m_curr_test_case = tc.p_id; unit_test_monitor_t::error_level run_result = unit_test_monitor.execute_and_translate( tc ); unsigned long elapsed = static_cast( tc_timer.elapsed() * 1e6 ); if( unit_test_monitor.is_critical_error( run_result ) ) { BOOST_TEST_FOREACH( test_observer*, to, m_observers ) to->test_aborted(); } BOOST_TEST_FOREACH( test_observer*, to, m_observers ) to->test_unit_finish( tc, elapsed ); m_curr_test_case = bkup; if( unit_test_monitor.is_critical_error( run_result ) ) throw test_being_aborted(); } bool test_suite_start( test_suite const& ts ) { if( !ts.check_dependencies() ) { BOOST_TEST_FOREACH( test_observer*, to, m_observers ) to->test_unit_skipped( ts ); return false; } BOOST_TEST_FOREACH( test_observer*, to, m_observers ) to->test_unit_start( ts ); return true; } void test_suite_finish( test_suite const& ts ) { BOOST_TEST_FOREACH( test_observer*, to, m_observers ) to->test_unit_finish( ts, 0 ); } ////////////////////////////////////////////////////////////////// struct priority_order { bool operator()( test_observer* lhs, test_observer* rhs ) const { return (lhs->priority() < rhs->priority()) || ((lhs->priority() == rhs->priority()) && (lhs < rhs)); } }; typedef std::map test_unit_store; typedef std::set observer_store; master_test_suite_t* m_master_test_suite; test_unit_id m_curr_test_case; test_unit_store m_test_units; test_unit_id m_next_test_case_id; test_unit_id m_next_test_suite_id; bool m_is_initialized; bool m_test_in_progress; observer_store m_observers; }; //____________________________________________________________________________// namespace { #if defined(__CYGWIN__) framework_impl& s_frk_impl() { static framework_impl* the_inst = 0; if(!the_inst) the_inst = new framework_impl; return *the_inst; } #else framework_impl& s_frk_impl() { static framework_impl the_inst; return the_inst; } #endif } // local namespace //____________________________________________________________________________// namespace framework { void init( init_unit_test_func init_func, int argc, char* argv[] ) { runtime_config::init( argc, argv ); // set the log level and format unit_test_log.set_threshold_level( runtime_config::log_level() ); unit_test_log.set_format( runtime_config::log_format() ); // set the report level and format results_reporter::set_level( runtime_config::report_level() ); results_reporter::set_format( runtime_config::report_format() ); register_observer( results_collector ); register_observer( unit_test_log ); if( runtime_config::show_progress() ) register_observer( progress_monitor ); if( runtime_config::detect_memory_leaks() > 0 ) { debug::detect_memory_leaks( true ); debug::break_memory_alloc( runtime_config::detect_memory_leaks() ); } // init master unit test suite master_test_suite().argc = argc; master_test_suite().argv = argv; try { boost::execution_monitor em; ut_detail::test_init_caller tic( init_func ); em.execute( tic ); } catch( execution_exception const& ex ) { throw setup_error( ex.what() ); } s_frk_impl().m_is_initialized = true; } //____________________________________________________________________________// bool is_initialized() { return s_frk_impl().m_is_initialized; } //____________________________________________________________________________// void register_test_unit( test_case* tc ) { BOOST_TEST_SETUP_ASSERT( tc->p_id == INV_TEST_UNIT_ID, BOOST_TEST_L( "test case already registered" ) ); test_unit_id new_id = s_frk_impl().m_next_test_case_id; BOOST_TEST_SETUP_ASSERT( new_id != MAX_TEST_CASE_ID, BOOST_TEST_L( "too many test cases" ) ); typedef framework_impl::test_unit_store::value_type map_value_type; s_frk_impl().m_test_units.insert( map_value_type( new_id, tc ) ); s_frk_impl().m_next_test_case_id++; s_frk_impl().set_tu_id( *tc, new_id ); } //____________________________________________________________________________// void register_test_unit( test_suite* ts ) { BOOST_TEST_SETUP_ASSERT( ts->p_id == INV_TEST_UNIT_ID, BOOST_TEST_L( "test suite already registered" ) ); test_unit_id new_id = s_frk_impl().m_next_test_suite_id; BOOST_TEST_SETUP_ASSERT( new_id != MAX_TEST_SUITE_ID, BOOST_TEST_L( "too many test suites" ) ); typedef framework_impl::test_unit_store::value_type map_value_type; s_frk_impl().m_test_units.insert( map_value_type( new_id, ts ) ); s_frk_impl().m_next_test_suite_id++; s_frk_impl().set_tu_id( *ts, new_id ); } //____________________________________________________________________________// void deregister_test_unit( test_unit* tu ) { s_frk_impl().m_test_units.erase( tu->p_id ); } //____________________________________________________________________________// void clear() { s_frk_impl().clear(); } //____________________________________________________________________________// void register_observer( test_observer& to ) { s_frk_impl().m_observers.insert( &to ); } //____________________________________________________________________________// void deregister_observer( test_observer& to ) { s_frk_impl().m_observers.erase( &to ); } //____________________________________________________________________________// void reset_observers() { s_frk_impl().m_observers.clear(); } //____________________________________________________________________________// master_test_suite_t& master_test_suite() { if( !s_frk_impl().m_master_test_suite ) s_frk_impl().m_master_test_suite = new master_test_suite_t; return *s_frk_impl().m_master_test_suite; } //____________________________________________________________________________// test_case const& current_test_case() { return get( s_frk_impl().m_curr_test_case ); } //____________________________________________________________________________// test_unit& get( test_unit_id id, test_unit_type t ) { test_unit* res = s_frk_impl().m_test_units[id]; if( (res->p_type & t) == 0 ) throw internal_error( "Invalid test unit type" ); return *res; } //____________________________________________________________________________// void run( test_unit_id id, bool continue_test ) { if( id == INV_TEST_UNIT_ID ) id = master_test_suite().p_id; test_case_counter tcc; traverse_test_tree( id, tcc ); BOOST_TEST_SETUP_ASSERT( tcc.p_count != 0 , runtime_config::test_to_run().is_empty() ? BOOST_TEST_L( "test tree is empty" ) : BOOST_TEST_L( "no test cases matching filter" ) ); bool call_start_finish = !continue_test || !s_frk_impl().m_test_in_progress; bool was_in_progress = s_frk_impl().m_test_in_progress; s_frk_impl().m_test_in_progress = true; if( call_start_finish ) { BOOST_TEST_FOREACH( test_observer*, to, s_frk_impl().m_observers ) { boost::execution_monitor em; try { em.execute( ut_detail::test_start_caller( to, tcc.p_count ) ); } catch( execution_exception const& ex ) { throw setup_error( ex.what() ); } } } switch( runtime_config::random_seed() ) { case 0: break; case 1: { unsigned int seed = static_cast( std::time( 0 ) ); BOOST_TEST_MESSAGE( "Test cases order is shuffled using seed: " << seed ); std::srand( seed ); break; } default: BOOST_TEST_MESSAGE( "Test cases order is shuffled using seed: " << runtime_config::random_seed() ); std::srand( runtime_config::random_seed() ); } try { traverse_test_tree( id, s_frk_impl() ); } catch( test_being_aborted const& ) { // abort already reported } if( call_start_finish ) { BOOST_TEST_FOREACH( test_observer*, to, s_frk_impl().m_observers ) to->test_finish(); } s_frk_impl().m_test_in_progress = was_in_progress; } //____________________________________________________________________________// void run( test_unit const* tu, bool continue_test ) { run( tu->p_id, continue_test ); } //____________________________________________________________________________// void assertion_result( bool passed ) { BOOST_TEST_FOREACH( test_observer*, to, s_frk_impl().m_observers ) to->assertion_result( passed ); } //____________________________________________________________________________// void exception_caught( execution_exception const& ex ) { BOOST_TEST_FOREACH( test_observer*, to, s_frk_impl().m_observers ) to->exception_caught( ex ); } //____________________________________________________________________________// void test_unit_aborted( test_unit const& tu ) { BOOST_TEST_FOREACH( test_observer*, to, s_frk_impl().m_observers ) to->test_unit_aborted( tu ); } //____________________________________________________________________________// } // namespace framework } // namespace unit_test } // namespace boost //____________________________________________________________________________// #include #endif // BOOST_TEST_FRAMEWORK_IPP_021005GER