"Utilities for loading models and the modules that contain them." from django.conf import settings from django.core.exceptions import ImproperlyConfigured from django.utils.datastructures import SortedDict from django.utils.importlib import import_module import sys import os import threading __all__ = ('get_apps', 'get_app', 'get_models', 'get_model', 'register_models', 'load_app', 'app_cache_ready') class AppCache(object): """ A cache that stores installed applications and their models. Used to provide reverse-relations and for app introspection (e.g. admin). """ # Use the Borg pattern to share state between all instances. Details at # http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/66531. __shared_state = dict( # Keys of app_store are the model modules for each application. app_store = SortedDict(), # Mapping of app_labels to a dictionary of model names to model code. app_models = SortedDict(), # Mapping of app_labels to errors raised when trying to import the app. app_errors = {}, # -- Everything below here is only used when populating the cache -- loaded = False, handled = {}, postponed = [], nesting_level = 0, write_lock = threading.RLock(), ) def __init__(self): self.__dict__ = self.__shared_state def _populate(self): """ Fill in all the cache information. This method is threadsafe, in the sense that every caller will see the same state upon return, and if the cache is already initialised, it does no work. """ if self.loaded: return self.write_lock.acquire() try: if self.loaded: return for app_name in settings.INSTALLED_APPS: if app_name in self.handled: continue self.load_app(app_name, True) if not self.nesting_level: for app_name in self.postponed: self.load_app(app_name) self.loaded = True finally: self.write_lock.release() def load_app(self, app_name, can_postpone=False): """ Loads the app with the provided fully qualified name, and returns the model module. """ self.handled[app_name] = None self.nesting_level += 1 try: models = import_module('.models', app_name) except ImportError: self.nesting_level -= 1 if can_postpone: # Either the app has no models, or the package is still being # imported by Python and the model module isn't available yet. # We will check again once all the recursion has finished (in # populate). self.postponed.append(app_name) return None self.nesting_level -= 1 if models not in self.app_store: self.app_store[models] = len(self.app_store) return models def app_cache_ready(self): """ Returns true if the model cache is fully populated. Useful for code that wants to cache the results of get_models() for themselves once it is safe to do so. """ return self.loaded def get_apps(self): "Returns a list of all installed modules that contain models." self._populate() # Ensure the returned list is always in the same order (with new apps # added at the end). This avoids unstable ordering on the admin app # list page, for example. apps = [(v, k) for k, v in self.app_store.items()] apps.sort() return [elt[1] for elt in apps] def get_app(self, app_label, emptyOK=False): """ Returns the module containing the models for the given app_label. If the app has no models in it and 'emptyOK' is True, returns None. """ self._populate() self.write_lock.acquire() try: for app_name in settings.INSTALLED_APPS: if app_label == app_name.split('.')[-1]: mod = self.load_app(app_name, False) if mod is None: if emptyOK: return None else: return mod raise ImproperlyConfigured, "App with label %s could not be found" % app_label finally: self.write_lock.release() def get_app_errors(self): "Returns the map of known problems with the INSTALLED_APPS." self._populate() return self.app_errors def get_models(self, app_mod=None, include_auto_created=False): """ Given a module containing models, returns a list of the models. Otherwise returns a list of all installed models. By default, auto-created models (i.e., m2m models without an explicit intermediate table) are not included. However, if you specify include_auto_created=True, they will be. """ self._populate() if app_mod: model_list = self.app_models.get(app_mod.__name__.split('.')[-2], SortedDict()).values() else: model_list = [] for app_entry in self.app_models.itervalues(): model_list.extend(app_entry.values()) if not include_auto_created: return filter(lambda o: not o._meta.auto_created, model_list) return model_list def get_model(self, app_label, model_name, seed_cache=True): """ Returns the model matching the given app_label and case-insensitive model_name. Returns None if no model is found. """ if seed_cache: self._populate() return self.app_models.get(app_label, SortedDict()).get(model_name.lower()) def register_models(self, app_label, *models): """ Register a set of models as belonging to an app. """ for model in models: # Store as 'name: model' pair in a dictionary # in the app_models dictionary model_name = model._meta.object_name.lower() model_dict = self.app_models.setdefault(app_label, SortedDict()) if model_name in model_dict: # The same model may be imported via different paths (e.g. # appname.models and project.appname.models). We use the source # filename as a means to detect identity. fname1 = os.path.abspath(sys.modules[model.__module__].__file__) fname2 = os.path.abspath(sys.modules[model_dict[model_name].__module__].__file__) # Since the filename extension could be .py the first time and # .pyc or .pyo the second time, ignore the extension when # comparing. if os.path.splitext(fname1)[0] == os.path.splitext(fname2)[0]: continue model_dict[model_name] = model cache = AppCache() # These methods were always module level, so are kept that way for backwards # compatibility. get_apps = cache.get_apps get_app = cache.get_app get_app_errors = cache.get_app_errors get_models = cache.get_models get_model = cache.get_model register_models = cache.register_models load_app = cache.load_app app_cache_ready = cache.app_cache_ready