import copy import inspect from importlib import import_module from django.db import router from django.db.models.query import QuerySet from django.utils import six from django.utils.encoding import python_2_unicode_compatible def ensure_default_manager(cls): """ Ensures that a Model subclass contains a default manager and sets the _default_manager attribute on the class. Also sets up the _base_manager points to a plain Manager instance (which could be the same as _default_manager if it's not a subclass of Manager). """ if cls._meta.abstract: setattr(cls, 'objects', AbstractManagerDescriptor(cls)) return elif cls._meta.swapped: setattr(cls, 'objects', SwappedManagerDescriptor(cls)) return if not getattr(cls, '_default_manager', None): if any(f.name == 'objects' for f in cls._meta.fields): raise ValueError( "Model %s must specify a custom Manager, because it has a " "field named 'objects'" % cls.__name__ ) # Create the default manager, if needed. cls.add_to_class('objects', Manager()) cls._base_manager = cls.objects elif not getattr(cls, '_base_manager', None): default_mgr = cls._default_manager.__class__ if (default_mgr is Manager or getattr(default_mgr, "use_for_related_fields", False)): cls._base_manager = cls._default_manager else: # Default manager isn't a plain Manager class, or a suitable # replacement, so we walk up the base class hierarchy until we hit # something appropriate. for base_class in default_mgr.mro()[1:]: if (base_class is Manager or getattr(base_class, "use_for_related_fields", False)): cls.add_to_class('_base_manager', base_class()) return raise AssertionError( "Should never get here. Please report a bug, including your " "model and model manager setup." ) @python_2_unicode_compatible class BaseManager(object): # Tracks each time a Manager instance is created. Used to retain order. creation_counter = 0 #: If set to True the manager will be serialized into migrations and will #: thus be available in e.g. RunPython operations use_in_migrations = False def __new__(cls, *args, **kwargs): # We capture the arguments to make returning them trivial obj = super(BaseManager, cls).__new__(cls) obj._constructor_args = (args, kwargs) return obj def __init__(self): super(BaseManager, self).__init__() self._set_creation_counter() self.model = None self.name = None self._inherited = False self._db = None self._hints = {} def __str__(self): """ Return "app_label.model_label.manager_name". """ return '%s.%s' % (self.model._meta.label, self.name) def deconstruct(self): """ Returns a 5-tuple of the form (as_manager (True), manager_class, queryset_class, args, kwargs). Raises a ValueError if the manager is dynamically generated. """ qs_class = self._queryset_class if getattr(self, '_built_with_as_manager', False): # using MyQuerySet.as_manager() return ( True, # as_manager None, # manager_class '%s.%s' % (qs_class.__module__, qs_class.__name__), # qs_class None, # args None, # kwargs ) else: module_name = self.__module__ name = self.__class__.__name__ # Make sure it's actually there and not an inner class module = import_module(module_name) if not hasattr(module, name): raise ValueError( "Could not find manager %s in %s.\n" "Please note that you need to inherit from managers you " "dynamically generated with 'from_queryset()'." % (name, module_name) ) return ( False, # as_manager '%s.%s' % (module_name, name), # manager_class None, # qs_class self._constructor_args[0], # args self._constructor_args[1], # kwargs ) def check(self, **kwargs): return [] @classmethod def _get_queryset_methods(cls, queryset_class): def create_method(name, method): def manager_method(self, *args, **kwargs): return getattr(self.get_queryset(), name)(*args, **kwargs) manager_method.__name__ = method.__name__ manager_method.__doc__ = method.__doc__ return manager_method new_methods = {} # Refs http://bugs.python.org/issue1785. predicate = inspect.isfunction if six.PY3 else inspect.ismethod for name, method in inspect.getmembers(queryset_class, predicate=predicate): # Only copy missing methods. if hasattr(cls, name): continue # Only copy public methods or methods with the attribute `queryset_only=False`. queryset_only = getattr(method, 'queryset_only', None) if queryset_only or (queryset_only is None and name.startswith('_')): continue # Copy the method onto the manager. new_methods[name] = create_method(name, method) return new_methods @classmethod def from_queryset(cls, queryset_class, class_name=None): if class_name is None: class_name = '%sFrom%s' % (cls.__name__, queryset_class.__name__) class_dict = { '_queryset_class': queryset_class, } class_dict.update(cls._get_queryset_methods(queryset_class)) return type(class_name, (cls,), class_dict) def contribute_to_class(self, model, name): # TODO: Use weakref because of possible memory leak / circular reference. self.model = model if not self.name: self.name = name # Only contribute the manager if the model is concrete if model._meta.abstract: setattr(model, name, AbstractManagerDescriptor(model)) elif model._meta.swapped: setattr(model, name, SwappedManagerDescriptor(model)) else: # if not model._meta.abstract and not model._meta.swapped: setattr(model, name, ManagerDescriptor(self)) if (not getattr(model, '_default_manager', None) or self.creation_counter < model._default_manager.creation_counter): model._default_manager = self abstract = False if model._meta.abstract or (self._inherited and not self.model._meta.proxy): abstract = True model._meta.managers.append((self.creation_counter, self, abstract)) def _set_creation_counter(self): """ Sets the creation counter value for this instance and increments the class-level copy. """ self.creation_counter = BaseManager.creation_counter BaseManager.creation_counter += 1 def _copy_to_model(self, model): """ Makes a copy of the manager and assigns it to 'model', which should be a child of the existing model (used when inheriting a manager from an abstract base class). """ assert issubclass(model, self.model) mgr = copy.copy(self) mgr._set_creation_counter() mgr.model = model mgr._inherited = True return mgr def db_manager(self, using=None, hints=None): obj = copy.copy(self) obj._db = using or self._db obj._hints = hints or self._hints return obj @property def db(self): return self._db or router.db_for_read(self.model, **self._hints) ####################### # PROXIES TO QUERYSET # ####################### def get_queryset(self): """ Returns a new QuerySet object. Subclasses can override this method to easily customize the behavior of the Manager. """ return self._queryset_class(self.model, using=self._db, hints=self._hints) def all(self): # We can't proxy this method through the `QuerySet` like we do for the # rest of the `QuerySet` methods. This is because `QuerySet.all()` # works by creating a "copy" of the current queryset and in making said # copy, all the cached `prefetch_related` lookups are lost. See the # implementation of `RelatedManager.get_queryset()` for a better # understanding of how this comes into play. return self.get_queryset() def __eq__(self, other): return ( isinstance(other, self.__class__) and self._constructor_args == other._constructor_args ) def __ne__(self, other): return not (self == other) def __hash__(self): return id(self) class Manager(BaseManager.from_queryset(QuerySet)): pass class ManagerDescriptor(object): # This class ensures managers aren't accessible via model instances. # For example, Poll.objects works, but poll_obj.objects raises AttributeError. def __init__(self, manager): self.manager = manager def __get__(self, instance, type=None): if instance is not None: raise AttributeError("Manager isn't accessible via %s instances" % type.__name__) return self.manager class AbstractManagerDescriptor(object): # This class provides a better error message when you try to access a # manager on an abstract model. def __init__(self, model): self.model = model def __get__(self, instance, type=None): raise AttributeError("Manager isn't available; %s is abstract" % ( self.model._meta.object_name, )) class SwappedManagerDescriptor(object): # This class provides a better error message when you try to access a # manager on a swapped model. def __init__(self, model): self.model = model def __get__(self, instance, type=None): raise AttributeError("Manager isn't available; %s has been swapped for '%s'" % ( self.model._meta.object_name, self.model._meta.swapped )) class EmptyManager(Manager): def __init__(self, model): super(EmptyManager, self).__init__() self.model = model def get_queryset(self): return super(EmptyManager, self).get_queryset().none()