from __future__ import unicode_literals import django from django.core.exceptions import ImproperlyConfigured from django.db import models, transaction, router from django.db.models.signals import post_save, pre_save from django.utils.translation import ugettext_lazy as _ from model_utils.fields import ( AutoCreatedField, AutoLastModifiedField, StatusField, MonitorField, UUIDField, ) from model_utils.managers import ( QueryManager, SoftDeletableManager, ) if django.VERSION >= (1, 9, 0): from django.db.models.functions import Now now = Now() else: from django.utils.timezone import now class TimeStampedModel(models.Model): """ An abstract base class model that provides self-updating ``created`` and ``modified`` fields. """ created = AutoCreatedField(_('created')) modified = AutoLastModifiedField(_('modified')) class Meta: abstract = True class TimeFramedModel(models.Model): """ An abstract base class model that provides ``start`` and ``end`` fields to record a timeframe. """ start = models.DateTimeField(_('start'), null=True, blank=True) end = models.DateTimeField(_('end'), null=True, blank=True) class Meta: abstract = True class StatusModel(models.Model): """ An abstract base class model with a ``status`` field that automatically uses a ``STATUS`` class attribute of choices, a ``status_changed`` date-time field that records when ``status`` was last modified, and an automatically-added manager for each status that returns objects with that status only. """ status = StatusField(_('status')) status_changed = MonitorField(_('status changed'), monitor='status') class Meta: abstract = True def add_status_query_managers(sender, **kwargs): """ Add a Querymanager for each status item dynamically. """ if not issubclass(sender, StatusModel): return if django.VERSION >= (1, 10): # First, get current manager name... default_manager = sender._meta.default_manager for value, display in getattr(sender, 'STATUS', ()): if _field_exists(sender, value): raise ImproperlyConfigured( "StatusModel: Model '%s' has a field named '%s' which " "conflicts with a status of the same name." % (sender.__name__, value) ) sender.add_to_class(value, QueryManager(status=value)) if django.VERSION >= (1, 10): # ...then, put it back, as add_to_class is modifying the default manager! sender._meta.default_manager_name = default_manager.name def add_timeframed_query_manager(sender, **kwargs): """ Add a QueryManager for a specific timeframe. """ if not issubclass(sender, TimeFramedModel): return if _field_exists(sender, 'timeframed'): raise ImproperlyConfigured( "Model '%s' has a field named 'timeframed' " "which conflicts with the TimeFramedModel manager." % sender.__name__ ) sender.add_to_class('timeframed', QueryManager( (models.Q(start__lte=now) | models.Q(start__isnull=True)) & (models.Q(end__gte=now) | models.Q(end__isnull=True)) )) models.signals.class_prepared.connect(add_status_query_managers) models.signals.class_prepared.connect(add_timeframed_query_manager) def _field_exists(model_class, field_name): return field_name in [f.attname for f in model_class._meta.local_fields] class SoftDeletableModel(models.Model): """ An abstract base class model with a ``is_removed`` field that marks entries that are not going to be used anymore, but are kept in db for any reason. Default manager returns only not-removed entries. """ is_removed = models.BooleanField(default=False) class Meta: abstract = True objects = SoftDeletableManager() all_objects = models.Manager() def delete(self, using=None, soft=True, *args, **kwargs): """ Soft delete object (set its ``is_removed`` field to True). Actually delete object if setting ``soft`` to False. """ if soft: self.is_removed = True self.save(using=using) else: return super(SoftDeletableModel, self).delete(using=using, *args, **kwargs) class UUIDModel(models.Model): """ This abstract base class provides id field on any model that inherits from it which will be the primary key. """ id = UUIDField( primary_key=True, version=4, editable=False, ) class Meta: abstract = True class SaveSignalHandlingModel(models.Model): """ An abstract base class model to pass a parameter ``signals_to_disable`` to ``save`` method in order to disable signals """ class Meta: abstract = True def save(self, signals_to_disable=None, *args, **kwargs): """ Add an extra parameters to hold which signals to disable If empty, nothing will change """ self.signals_to_disable = signals_to_disable or [] super(SaveSignalHandlingModel, self).save(*args, **kwargs) def save_base(self, raw=False, force_insert=False, force_update=False, using=None, update_fields=None): """ Copied from base class for a minor change. This is an ugly overwriting but since Django's ``save_base`` method does not differ between versions 1.8 and 1.10, that way of implementing wouldn't harm the flow """ using = using or router.db_for_write(self.__class__, instance=self) assert not (force_insert and (force_update or update_fields)) assert update_fields is None or len(update_fields) > 0 cls = origin = self.__class__ if cls._meta.proxy: cls = cls._meta.concrete_model meta = cls._meta if not meta.auto_created and not 'pre_save' in self.signals_to_disable: pre_save.send( sender=origin, instance=self, raw=raw, using=using, update_fields=update_fields, ) with transaction.atomic(using=using, savepoint=False): if not raw: self._save_parents(cls, using, update_fields) updated = self._save_table(raw, cls, force_insert, force_update, using, update_fields) self._state.db = using self._state.adding = False if not meta.auto_created and not 'post_save' in self.signals_to_disable: post_save.send( sender=origin, instance=self, created=(not updated), update_fields=update_fields, raw=raw, using=using, ) # Empty the signals in case it might be used somewhere else in future self.signals_to_disable = []