# coding: utf-8 # # Copyright 2011 Yesudeep Mangalapilly # Copyright 2012 Google, Inc & contributors. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """ :module: watchdog.utils :synopsis: Utility classes and functions. :author: yesudeep@google.com (Yesudeep Mangalapilly) :author: contact@tiger-222.fr (Mickaël Schoentgen) Classes ------- .. autoclass:: BaseThread :members: :show-inheritance: :inherited-members: """ import sys import threading class UnsupportedLibc(Exception): pass class WatchdogShutdown(Exception): """ Semantic exception used to signal an external shutdown event. """ pass class BaseThread(threading.Thread): """ Convenience class for creating stoppable threads. """ def __init__(self): threading.Thread.__init__(self) if hasattr(self, 'daemon'): self.daemon = True else: self.setDaemon(True) self._stopped_event = threading.Event() if not hasattr(self._stopped_event, 'is_set'): self._stopped_event.is_set = self._stopped_event.isSet @property def stopped_event(self): return self._stopped_event def should_keep_running(self): """Determines whether the thread should continue running.""" return not self._stopped_event.is_set() def on_thread_stop(self): """Override this method instead of :meth:`stop()`. :meth:`stop()` calls this method. This method is called immediately after the thread is signaled to stop. """ pass def stop(self): """Signals the thread to stop.""" self._stopped_event.set() self.on_thread_stop() def on_thread_start(self): """Override this method instead of :meth:`start()`. :meth:`start()` calls this method. This method is called right before this thread is started and this object’s run() method is invoked. """ pass def start(self): self.on_thread_start() threading.Thread.start(self) def load_module(module_name): """Imports a module given its name and returns a handle to it.""" try: __import__(module_name) except ImportError: raise ImportError('No module named %s' % module_name) return sys.modules[module_name] def load_class(dotted_path): """Loads and returns a class definition provided a dotted path specification the last part of the dotted path is the class name and there is at least one module name preceding the class name. Notes: You will need to ensure that the module you are trying to load exists in the Python path. Examples: - module.name.ClassName # Provided module.name is in the Python path. - module.ClassName # Provided module is in the Python path. What won't work: - ClassName - modle.name.ClassName # Typo in module name. - module.name.ClasNam # Typo in classname. """ dotted_path_split = dotted_path.split('.') if len(dotted_path_split) > 1: klass_name = dotted_path_split[-1] module_name = '.'.join(dotted_path_split[:-1]) module = load_module(module_name) if hasattr(module, klass_name): klass = getattr(module, klass_name) return klass # Finally create and return an instance of the class # return klass(*args, **kwargs) else: raise AttributeError('Module %s does not have class attribute %s' % ( module_name, klass_name)) else: raise ValueError( 'Dotted module path %s must contain a module name and a classname' % dotted_path)