// (C) Copyright Gennadiy Rozental 2001. // 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 //!@brief Defines Unit Test Framework mono-state interfaces. //! The framework interfaces are based on Monostate design pattern. // *************************************************************************** #ifndef BOOST_TEST_FRAMEWORK_HPP_020805GER #define BOOST_TEST_FRAMEWORK_HPP_020805GER // Boost.Test #include #include #include #include #include // STL #include //____________________________________________________________________________// namespace boost { /// Main namespace for the Unit Test Framework interfaces and implementation namespace unit_test { // ************************************************************************** // // ************** init_unit_test_func ************** // // ************************************************************************** // /// Test module initialization routine signature /// Different depending on whether BOOST_TEST_ALTERNATIVE_INIT_API is defined or not #ifdef BOOST_TEST_ALTERNATIVE_INIT_API typedef bool (*init_unit_test_func)(); #else typedef test_suite* (*init_unit_test_func)( int, char* [] ); #endif // ************************************************************************** // // ************** framework ************** // // ************************************************************************** // /// Namespace of the Unit Test Framework mono-state namespace framework { /// @name Unit Test Framework initialization and shutdown /// @{ /// @brief This function performs initialization of the framework mono-state. /// /// It needs to be called every time before the test is started. /// @param[in] init_func test module initialization routine /// @param[in] argc command line arguments collection /// @param[in] argv command line arguments collection BOOST_TEST_DECL void init( init_unit_test_func init_func, int argc, char* argv[] ); /// This function applies all the decorators and figures out default run status. This argument facilitates an /// ability of the test cases to prepare some other test units (primarily used internally for self testing). /// @param[in] tu Optional id of the test unit representing root of test tree. If absent, master test suite is used BOOST_TEST_DECL void finalize_setup_phase( test_unit_id tu = INV_TEST_UNIT_ID); /// This function returns true when testing is in progress (setup is finished). BOOST_TEST_DECL bool test_in_progress(); /// This function shuts down the framework and clears up its mono-state. /// /// It needs to be at the very end of test module execution BOOST_TEST_DECL void shutdown(); /// @} /// @name Test unit registration /// @{ /// Provides both read and write access to current "leaf" auto test suite during the test unit registration phase. /// /// During auto-registration phase the framework maintain a FIFO queue of test units being registered. New test units become children /// of the current "leaf" test suite and if this is test suite it is pushed back into queue and becomes a new leaf. /// When test suite registration is completed, a test suite is popped from the back of the queue. Only automatically registered test suites /// should be added to this queue. Master test suite is always a zero element in this queue, so if no other test suites are registered /// all test cases are added to master test suite. /// This function facilitates all three possible actions: /// - if no argument are provided it returns the current queue leaf test suite /// - if test suite is provided and no second argument are set, test suite is added to the queue /// - if no test suite are provided and last argument is false, the semantic of this function is similar to queue pop: last element is popped from the queue /// @param[in] ts test suite to push back to the queue /// @param[in] push_or_pop should we push ts to the queue or pop leaf test suite instead /// @returns a reference to the currently active/"leaf" test suite BOOST_TEST_DECL test_suite& current_auto_test_suite( test_suite* ts = 0, bool push_or_pop = true ); /// This function add new test case into the global collection of test units the framework aware of. /// This function also assignes unique test unit id for every test case. Later on one can use this id to locate /// the test case if necessary. This is the way for the framework to maintain weak references between test units. /// @param[in] tc test case to register BOOST_TEST_DECL void register_test_unit( test_case* tc ); /// This function add new test suite into the global collection of test units the framework aware of. /// This function also assignes unique test unit id for every test suite. Later on one can use this id to locate /// the test case if necessary. This is the way for the framework to maintain weak references between test units. /// @param[in] ts test suite to register BOOST_TEST_DECL void register_test_unit( test_suite* ts ); /// This function removes the test unit from the collection of known test units and destroys the test unit object. /// This function also assigns unique test unit id for every test case. Later on one can use this id to located /// the test case if necessary. This is the way for the framework to maintain weak references between test units. /// @param[in] tu test unit to deregister BOOST_TEST_DECL void deregister_test_unit( test_unit* tu ); // This function clears up the framework mono-state. /// After this call the framework can be reinitialized to perform a second test run during the same program lifetime. BOOST_TEST_DECL void clear(); /// @} /// @name Test observer registration /// @{ /// Adds new test execution observer object into the framework's list of test observers. /// Observer lifetime should exceed the the testing execution timeframe /// @param[in] to test observer object to add BOOST_TEST_DECL void register_observer( test_observer& to ); /// Excldes the observer object form the framework's list of test observers /// @param[in] to test observer object to exclude BOOST_TEST_DECL void deregister_observer( test_observer& to ); /// @} /// @name Assertion/uncaught exception context support /// @{ /// Context accessor struct BOOST_TEST_DECL context_generator { context_generator() : m_curr_frame( 0 ) {} /// Is there any context? bool is_empty() const; /// Give me next frame; empty - last frame const_string next() const; private: // Data members mutable unsigned m_curr_frame; }; /// Records context frame message. /// Some context frames are sticky - they can only explicitly cleared by specifying context id. Other (non sticky) context frames cleared after every assertion. /// @param[in] context_descr context frame message /// @param[in] sticky is this sticky frame or not /// @returns id of the newly created frame BOOST_TEST_DECL int add_context( lazy_ostream const& context_descr, bool sticky ); /// Erases context frame (when test exits context scope) /// If context_id is passed clears that specific context frame identified by this id, otherwise clears all non sticky contexts. BOOST_TEST_DECL void clear_context( int context_id = -1 ); /// Produces an instance of small "delegate" object, which facilitates access to collected context. BOOST_TEST_DECL context_generator get_context(); /// @} /// @name Access to registered test units. /// @{ /// This function provides access to the master test suite. /// There is only only master test suite per test module. /// @returns a reference the master test suite instance BOOST_TEST_DECL master_test_suite_t& master_test_suite(); /// This function provides an access to the test case currently being executed. /// This function is only valid during test execution phase. /// @see current_test_case_id BOOST_TEST_DECL test_case const& current_test_case(); /// This function provides an access to an id of the test case currently being executed. /// This function safer than current_test_case, cause if wont throw if no test case is being executed. /// @see current_test_case BOOST_TEST_DECL test_unit_id current_test_case_id(); /* safe version of above */ /// This function provides access to a test unit by id and type combination. It will throw if no test unit located. /// @param[in] tu_id id of a test unit to locate /// @param[in] tu_type type of a test unit to locate /// @returns located test unit BOOST_TEST_DECL test_unit& get( test_unit_id tu_id, test_unit_type tu_type ); /// This function template provides access to a typed test unit by id /// It will throw if you specify incorrect test unit type /// @tparam UnitType compile time type of test unit to get (test_suite or test_case) /// @param id id of test unit to get template inline UnitType& get( test_unit_id id ) { return static_cast( get( id, static_cast(UnitType::type) ) ); } ///@} /// @name Test initiation interface /// @{ /// Initiates test execution /// This function is used to start the test execution from a specific "root" test unit. /// If no root provided, test is started from master test suite. This second argument facilitates an ability of the test cases to /// start some other test units (primarily used internally for self testing). /// @param[in] tu Optional id of the test unit or test unit itself from which the test is started. If absent, master test suite is used /// @param[in] continue_test true == continue test if it was already started, false == restart the test from scratch regardless BOOST_TEST_DECL void run( test_unit_id tu = INV_TEST_UNIT_ID, bool continue_test = true ); /// Initiates test execution. Same as other overload BOOST_TEST_DECL void run( test_unit const* tu, bool continue_test = true ); /// @} /// @name Test events dispatchers /// @{ /// Reports results of assertion to all test observers BOOST_TEST_DECL void assertion_result( unit_test::assertion_result ar ); /// Reports uncaught exception to all test observers BOOST_TEST_DECL void exception_caught( execution_exception const& ); /// Reports aborted test unit to all test observers BOOST_TEST_DECL void test_unit_aborted( test_unit const& ); /// @} namespace impl { // exclusively for self test BOOST_TEST_DECL void setup_for_execution( test_unit const& ); BOOST_TEST_DECL void setup_loggers( ); } // namespace impl // ************************************************************************** // // ************** framework errors ************** // // ************************************************************************** // /// This exception type is used to report internal Boost.Test framework errors. struct BOOST_TEST_DECL internal_error : public std::runtime_error { internal_error( const_string m ) : std::runtime_error( std::string( m.begin(), m.size() ) ) {} }; //____________________________________________________________________________// /// This exception type is used to report test module setup errors. struct BOOST_TEST_DECL setup_error : public std::runtime_error { setup_error( const_string m ) : std::runtime_error( std::string( m.begin(), m.size() ) ) {} }; #define BOOST_TEST_SETUP_ASSERT( cond, msg ) BOOST_TEST_I_ASSRT( cond, unit_test::framework::setup_error( msg ) ) //____________________________________________________________________________// struct nothing_to_test { explicit nothing_to_test( int rc ) : m_result_code( rc ) {} int m_result_code; }; //____________________________________________________________________________// } // namespace framework } // unit_test } // namespace boost #include #endif // BOOST_TEST_FRAMEWORK_HPP_020805GER