def tearDown(self): # Check that the NullEngine is still the mlab engine if not mlab.get_engine() is self.e: raise AssertionError, \ "The NullEngine has been overridden" engine_manager.current_engine = None # Unregistering the engine, to avoid side-effects between tests self.e.stop() registry.unregister_engine(self.e)
def tearDown(self): # Check that the NullEngine is still the mlab engine if not mlab.get_engine() is self.e: raise AssertionError, \ "The NullEngine has been overridden" engine_manager.current_engine = None # Unregistering the engine, to avoid side-effects between tests self.e.stop() registry.unregister_engine(self.e)
def tearDown(self): # Check that the NullEngine was not set as the default mlab engine. if not mlab.get_engine() is self._non_null_engine: raise AssertionError, \ "The NullEngine has overridden the default one" engine_manager.current_engine = None # Unregistering all unused engines. registry.unregister_engine(self._non_null_engine) for engine in registry.engines.keys(): registry.unregister_engine(engine)
def tearDown(self): engine_manager.current_engine = None # Unregistering the engine, to avoid side-effects between tests self.e.stop() registry.unregister_engine(self.e)
def stop(self): registry.unregister_engine(self) self.running = False
def tearDown(self): mlab.options.backend = self.backend for engine in registry.engines.keys(): registry.unregister_engine(engine)
def stop(self): registry.unregister_engine(self) self.running = False
def tearDown(self): engine_manager.current_engine = None # Unregistering the engine, to avoid side-effects between tests self.e.stop() registry.unregister_engine(self.e)