from django.test import TestCase from django.db import models from regressiontests.signals_regress.models import Author, Book signal_output = [] def pre_save_test(signal, sender, instance, **kwargs): signal_output.append('pre_save signal, %s' % instance) if kwargs.get('raw'): signal_output.append('Is raw') def post_save_test(signal, sender, instance, **kwargs): signal_output.append('post_save signal, %s' % instance) if 'created' in kwargs: if kwargs['created']: signal_output.append('Is created') else: signal_output.append('Is updated') if kwargs.get('raw'): signal_output.append('Is raw') def pre_delete_test(signal, sender, instance, **kwargs): signal_output.append('pre_save signal, %s' % instance) signal_output.append('instance.id is not None: %s' % (instance.id != None)) def post_delete_test(signal, sender, instance, **kwargs): signal_output.append('post_delete signal, %s' % instance) signal_output.append('instance.id is not None: %s' % (instance.id != None)) class SignalsRegressTests(TestCase): """ Testing signals before/after saving and deleting. """ def get_signal_output(self, fn, *args, **kwargs): # Flush any existing signal output global signal_output signal_output = [] fn(*args, **kwargs) return signal_output def setUp(self): # Save up the number of connected signals so that we can check at the end # that all the signals we register get properly unregistered (#9989) self.pre_signals = (len(models.signals.pre_save.receivers), len(models.signals.post_save.receivers), len(models.signals.pre_delete.receivers), len(models.signals.post_delete.receivers)) models.signals.pre_save.connect(pre_save_test) models.signals.post_save.connect(post_save_test) models.signals.pre_delete.connect(pre_delete_test) models.signals.post_delete.connect(post_delete_test) def tearDown(self): models.signals.post_delete.disconnect(post_delete_test) models.signals.pre_delete.disconnect(pre_delete_test) models.signals.post_save.disconnect(post_save_test) models.signals.pre_save.disconnect(pre_save_test) # Check that all our signals got disconnected properly. post_signals = (len(models.signals.pre_save.receivers), len(models.signals.post_save.receivers), len(models.signals.pre_delete.receivers), len(models.signals.post_delete.receivers)) self.assertEqual(self.pre_signals, post_signals) def test_model_signals(self): """ Model saves should throw some signals. """ a1 = Author(name='Neal Stephenson') self.assertEqual(self.get_signal_output(a1.save), [ "pre_save signal, Neal Stephenson", "post_save signal, Neal Stephenson", "Is created" ]) b1 = Book(name='Snow Crash') self.assertEqual(self.get_signal_output(b1.save), [ "pre_save signal, Snow Crash", "post_save signal, Snow Crash", "Is created" ]) def test_m2m_signals(self): """ Assigning and removing to/from m2m shouldn't generate an m2m signal """ b1 = Book(name='Snow Crash') self.get_signal_output(b1.save) a1 = Author(name='Neal Stephenson') self.get_signal_output(a1.save) self.assertEqual(self.get_signal_output(setattr, b1, 'authors', [a1]), []) self.assertEqual(self.get_signal_output(setattr, b1, 'authors', []), [])