# -*- coding: utf-8 -*- from django.test import TestCase, override_settings from django.db.migrations.autodetector import MigrationAutodetector from django.db.migrations.questioner import MigrationQuestioner from django.db.migrations.state import ProjectState, ModelState from django.db.migrations.graph import MigrationGraph from django.db import models class DeconstructableObject(object): """ A custom deconstructable object. """ def deconstruct(self): return self.__module__ + '.' + self.__class__.__name__, [], {} class AutodetectorTests(TestCase): """ Tests the migration autodetector. """ author_empty = ModelState("testapp", "Author", [("id", models.AutoField(primary_key=True))]) author_name = ModelState("testapp", "Author", [("id", models.AutoField(primary_key=True)), ("name", models.CharField(max_length=200))]) author_name_longer = ModelState("testapp", "Author", [("id", models.AutoField(primary_key=True)), ("name", models.CharField(max_length=400))]) author_name_renamed = ModelState("testapp", "Author", [("id", models.AutoField(primary_key=True)), ("names", models.CharField(max_length=200))]) author_name_default = ModelState("testapp", "Author", [("id", models.AutoField(primary_key=True)), ("name", models.CharField(max_length=200, default='Ada Lovelace'))]) author_name_deconstructable_1 = ModelState("testapp", "Author", [("id", models.AutoField(primary_key=True)), ("name", models.CharField(max_length=200, default=DeconstructableObject()))]) author_name_deconstructable_2 = ModelState("testapp", "Author", [("id", models.AutoField(primary_key=True)), ("name", models.CharField(max_length=200, default=DeconstructableObject()))]) author_name_deconstructable_3 = ModelState("testapp", "Author", [("id", models.AutoField(primary_key=True)), ("name", models.CharField(max_length=200, default=models.IntegerField()))]) author_name_deconstructable_4 = ModelState("testapp", "Author", [("id", models.AutoField(primary_key=True)), ("name", models.CharField(max_length=200, default=models.IntegerField()))]) author_with_book = ModelState("testapp", "Author", [("id", models.AutoField(primary_key=True)), ("name", models.CharField(max_length=200)), ("book", models.ForeignKey("otherapp.Book"))]) author_renamed_with_book = ModelState("testapp", "Writer", [("id", models.AutoField(primary_key=True)), ("name", models.CharField(max_length=200)), ("book", models.ForeignKey("otherapp.Book"))]) author_with_publisher_string = ModelState("testapp", "Author", [("id", models.AutoField(primary_key=True)), ("name", models.CharField(max_length=200)), ("publisher_name", models.CharField(max_length=200))]) author_with_publisher = ModelState("testapp", "Author", [("id", models.AutoField(primary_key=True)), ("name", models.CharField(max_length=200)), ("publisher", models.ForeignKey("testapp.Publisher"))]) author_with_custom_user = ModelState("testapp", "Author", [("id", models.AutoField(primary_key=True)), ("name", models.CharField(max_length=200)), ("user", models.ForeignKey("thirdapp.CustomUser"))]) author_proxy = ModelState("testapp", "AuthorProxy", [], {"proxy": True}, ("testapp.author", )) author_proxy_notproxy = ModelState("testapp", "AuthorProxy", [], {}, ("testapp.author", )) author_unmanaged = ModelState("testapp", "AuthorUnmanaged", [], {"managed": False}, ("testapp.author", )) author_unmanaged_managed = ModelState("testapp", "AuthorUnmanaged", [], {}, ("testapp.author", )) author_with_m2m = ModelState("testapp", "Author", [ ("id", models.AutoField(primary_key=True)), ("publishers", models.ManyToManyField("testapp.Publisher")), ]) author_with_m2m_through = ModelState("testapp", "Author", [("id", models.AutoField(primary_key=True)), ("publishers", models.ManyToManyField("testapp.Publisher", through="testapp.Contract"))]) contract = ModelState("testapp", "Contract", [("id", models.AutoField(primary_key=True)), ("author", models.ForeignKey("testapp.Author")), ("publisher", models.ForeignKey("testapp.Publisher"))]) publisher = ModelState("testapp", "Publisher", [("id", models.AutoField(primary_key=True)), ("name", models.CharField(max_length=100))]) publisher_with_author = ModelState("testapp", "Publisher", [("id", models.AutoField(primary_key=True)), ("author", models.ForeignKey("testapp.Author")), ("name", models.CharField(max_length=100))]) publisher_with_book = ModelState("testapp", "Publisher", [("id", models.AutoField(primary_key=True)), ("author", models.ForeignKey("otherapp.Book")), ("name", models.CharField(max_length=100))]) other_pony = ModelState("otherapp", "Pony", [("id", models.AutoField(primary_key=True))]) other_stable = ModelState("otherapp", "Stable", [("id", models.AutoField(primary_key=True))]) third_thing = ModelState("thirdapp", "Thing", [("id", models.AutoField(primary_key=True))]) book = ModelState("otherapp", "Book", [("id", models.AutoField(primary_key=True)), ("author", models.ForeignKey("testapp.Author")), ("title", models.CharField(max_length=200))]) book_with_no_author = ModelState("otherapp", "Book", [("id", models.AutoField(primary_key=True)), ("title", models.CharField(max_length=200))]) book_with_author_renamed = ModelState("otherapp", "Book", [("id", models.AutoField(primary_key=True)), ("author", models.ForeignKey("testapp.Writer")), ("title", models.CharField(max_length=200))]) book_with_field_and_author_renamed = ModelState("otherapp", "Book", [("id", models.AutoField(primary_key=True)), ("writer", models.ForeignKey("testapp.Writer")), ("title", models.CharField(max_length=200))]) book_with_multiple_authors = ModelState("otherapp", "Book", [("id", models.AutoField(primary_key=True)), ("authors", models.ManyToManyField("testapp.Author")), ("title", models.CharField(max_length=200))]) book_with_multiple_authors_through_attribution = ModelState("otherapp", "Book", [("id", models.AutoField(primary_key=True)), ("authors", models.ManyToManyField("testapp.Author", through="otherapp.Attribution")), ("title", models.CharField(max_length=200))]) book_unique = ModelState("otherapp", "Book", [("id", models.AutoField(primary_key=True)), ("author", models.ForeignKey("testapp.Author")), ("title", models.CharField(max_length=200))], {"unique_together": [("author", "title")]}) book_unique_2 = ModelState("otherapp", "Book", [("id", models.AutoField(primary_key=True)), ("author", models.ForeignKey("testapp.Author")), ("title", models.CharField(max_length=200))], {"unique_together": [("title", "author")]}) book_unique_3 = ModelState("otherapp", "Book", [("id", models.AutoField(primary_key=True)), ("newfield", models.IntegerField()), ("author", models.ForeignKey("testapp.Author")), ("title", models.CharField(max_length=200))], {"unique_together": [("title", "newfield")]}) attribution = ModelState("otherapp", "Attribution", [("id", models.AutoField(primary_key=True)), ("author", models.ForeignKey("testapp.Author")), ("book", models.ForeignKey("otherapp.Book"))]) edition = ModelState("thirdapp", "Edition", [("id", models.AutoField(primary_key=True)), ("book", models.ForeignKey("otherapp.Book"))]) custom_user = ModelState("thirdapp", "CustomUser", [("id", models.AutoField(primary_key=True)), ("username", models.CharField(max_length=255))]) knight = ModelState("eggs", "Knight", [("id", models.AutoField(primary_key=True))]) rabbit = ModelState("eggs", "Rabbit", [("id", models.AutoField(primary_key=True)), ("knight", models.ForeignKey("eggs.Knight")), ("parent", models.ForeignKey("eggs.Rabbit"))], {"unique_together": [("parent", "knight")]}) def repr_changes(self, changes): output = "" for app_label, migrations in sorted(changes.items()): output += " %s:\n" % app_label for migration in migrations: output += " %s\n" % migration.name for operation in migration.operations: output += " %s\n" % operation return output def assertNumberMigrations(self, changes, app_label, number): if len(changes.get(app_label, [])) != number: self.fail("Incorrect number of migrations (%s) for %s (expected %s)\n%s" % ( len(changes[app_label]), app_label, number, self.repr_changes(changes), )) def assertOperationTypes(self, changes, app_label, index, types): if not changes.get(app_label, None): self.fail("No migrations found for %s\n%s" % (app_label, self.repr_changes(changes))) if len(changes[app_label]) < index + 1: self.fail("No migration at index %s for %s\n%s" % (index, app_label, self.repr_changes(changes))) migration = changes[app_label][index] real_types = [operation.__class__.__name__ for operation in migration.operations] if types != real_types: self.fail("Operation type mismatch for %s.%s (expected %s):\n%s" % ( app_label, migration.name, types, self.repr_changes(changes), )) def assertOperationAttributes(self, changes, app_label, index, operation_index, **attrs): if not changes.get(app_label, None): self.fail("No migrations found for %s\n%s" % (app_label, self.repr_changes(changes))) if len(changes[app_label]) < index + 1: self.fail("No migration at index %s for %s\n%s" % (index, app_label, self.repr_changes(changes))) migration = changes[app_label][index] if len(changes[app_label]) < index + 1: self.fail("No operation at index %s for %s.%s\n%s" % ( operation_index, app_label, migration.name, self.repr_changes(changes), )) operation = migration.operations[operation_index] for attr, value in attrs.items(): if getattr(operation, attr, None) != value: self.fail("Attribute mismatch for %s.%s op #%s, %s (expected %r):\n%s" % ( app_label, migration.name, operation_index + 1, attr, value, self.repr_changes(changes), )) def make_project_state(self, model_states): "Shortcut to make ProjectStates from lists of predefined models" project_state = ProjectState() for model_state in model_states: project_state.add_model_state(model_state.clone()) return project_state def test_arrange_for_graph(self): "Tests auto-naming of migrations for graph matching." # Make a fake graph graph = MigrationGraph() graph.add_node(("testapp", "0001_initial"), None) graph.add_node(("testapp", "0002_foobar"), None) graph.add_node(("otherapp", "0001_initial"), None) graph.add_dependency(("testapp", "0002_foobar"), ("testapp", "0001_initial")) graph.add_dependency(("testapp", "0002_foobar"), ("otherapp", "0001_initial")) # Use project state to make a new migration change set before = self.make_project_state([]) after = self.make_project_state([self.author_empty, self.other_pony, self.other_stable]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Run through arrange_for_graph changes = autodetector.arrange_for_graph(changes, graph) # Make sure there's a new name, deps match, etc. self.assertEqual(changes["testapp"][0].name, "0003_author") self.assertEqual(changes["testapp"][0].dependencies, [("testapp", "0002_foobar")]) self.assertEqual(changes["otherapp"][0].name, "0002_pony_stable") self.assertEqual(changes["otherapp"][0].dependencies, [("otherapp", "0001_initial")]) def test_trim_apps(self): "Tests that trim does not remove dependencies but does remove unwanted apps" # Use project state to make a new migration change set before = self.make_project_state([]) after = self.make_project_state([self.author_empty, self.other_pony, self.other_stable, self.third_thing]) autodetector = MigrationAutodetector(before, after, MigrationQuestioner(defaults={"ask_initial": True})) changes = autodetector._detect_changes() # Run through arrange_for_graph graph = MigrationGraph() changes = autodetector.arrange_for_graph(changes, graph) changes["testapp"][0].dependencies.append(("otherapp", "0001_initial")) changes = autodetector._trim_to_apps(changes, set(["testapp"])) # Make sure there's the right set of migrations self.assertEqual(changes["testapp"][0].name, "0001_initial") self.assertEqual(changes["otherapp"][0].name, "0001_initial") self.assertNotIn("thirdapp", changes) def test_new_model(self): "Tests autodetection of new models" # Make state before = self.make_project_state([]) after = self.make_project_state([self.author_empty]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes['testapp']), 1) # Right number of actions? migration = changes['testapp'][0] self.assertEqual(len(migration.operations), 1) # Right action? action = migration.operations[0] self.assertEqual(action.__class__.__name__, "CreateModel") self.assertEqual(action.name, "Author") def test_old_model(self): "Tests deletion of old models" # Make state before = self.make_project_state([self.author_empty]) after = self.make_project_state([]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes['testapp']), 1) # Right number of actions? migration = changes['testapp'][0] self.assertEqual(len(migration.operations), 1) # Right action? action = migration.operations[0] self.assertEqual(action.__class__.__name__, "DeleteModel") self.assertEqual(action.name, "Author") def test_add_field(self): "Tests autodetection of new fields" # Make state before = self.make_project_state([self.author_empty]) after = self.make_project_state([self.author_name]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes['testapp']), 1) # Right number of actions? migration = changes['testapp'][0] self.assertEqual(len(migration.operations), 1) # Right action? action = migration.operations[0] self.assertEqual(action.__class__.__name__, "AddField") self.assertEqual(action.name, "name") def test_remove_field(self): "Tests autodetection of removed fields" # Make state before = self.make_project_state([self.author_name]) after = self.make_project_state([self.author_empty]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes['testapp']), 1) # Right number of actions? migration = changes['testapp'][0] self.assertEqual(len(migration.operations), 1) # Right action? action = migration.operations[0] self.assertEqual(action.__class__.__name__, "RemoveField") self.assertEqual(action.name, "name") def test_alter_field(self): "Tests autodetection of new fields" # Make state before = self.make_project_state([self.author_name]) after = self.make_project_state([self.author_name_longer]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes['testapp']), 1) # Right number of actions? migration = changes['testapp'][0] self.assertEqual(len(migration.operations), 1) # Right action? action = migration.operations[0] self.assertEqual(action.__class__.__name__, "AlterField") self.assertEqual(action.name, "name") def test_rename_field(self): "Tests autodetection of renamed fields" # Make state before = self.make_project_state([self.author_name]) after = self.make_project_state([self.author_name_renamed]) autodetector = MigrationAutodetector(before, after, MigrationQuestioner({"ask_rename": True})) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes['testapp']), 1) # Right number of actions? migration = changes['testapp'][0] self.assertEqual(len(migration.operations), 1) # Right action? action = migration.operations[0] self.assertEqual(action.__class__.__name__, "RenameField") self.assertEqual(action.old_name, "name") self.assertEqual(action.new_name, "names") def test_rename_model(self): "Tests autodetection of renamed models" # Make state before = self.make_project_state([self.author_with_book, self.book]) after = self.make_project_state([self.author_renamed_with_book, self.book_with_author_renamed]) autodetector = MigrationAutodetector(before, after, MigrationQuestioner({"ask_rename_model": True})) changes = autodetector._detect_changes() # Right number of migrations for model rename? self.assertNumberMigrations(changes, 'testapp', 1) # Right number of actions? migration = changes['testapp'][0] self.assertEqual(len(migration.operations), 1) # Right action? action = migration.operations[0] self.assertEqual(action.__class__.__name__, "RenameModel") self.assertEqual(action.old_name, "Author") self.assertEqual(action.new_name, "Writer") # Now that RenameModel handles related fields too, there should be # no AlterField for the related field. self.assertNumberMigrations(changes, 'otherapp', 0) def test_rename_model_with_renamed_rel_field(self): """ Tests autodetection of renamed models while simultaneously renaming one of the fields that relate to the renamed model. """ # Make state before = self.make_project_state([self.author_with_book, self.book]) after = self.make_project_state([self.author_renamed_with_book, self.book_with_field_and_author_renamed]) autodetector = MigrationAutodetector(before, after, MigrationQuestioner({"ask_rename_model": True, "ask_rename": True})) changes = autodetector._detect_changes() # Right number of migrations for model rename? self.assertNumberMigrations(changes, 'testapp', 1) # Right number of actions? migration = changes['testapp'][0] self.assertEqual(len(migration.operations), 1) # Right actions? action = migration.operations[0] self.assertEqual(action.__class__.__name__, "RenameModel") self.assertEqual(action.old_name, "Author") self.assertEqual(action.new_name, "Writer") # Right number of migrations for related field rename? # Alter is already taken care of. self.assertNumberMigrations(changes, 'otherapp', 1) # Right number of actions? migration = changes['otherapp'][0] self.assertEqual(len(migration.operations), 1) # Right actions? action = migration.operations[0] self.assertEqual(action.__class__.__name__, "RenameField") self.assertEqual(action.old_name, "author") self.assertEqual(action.new_name, "writer") def test_fk_dependency(self): "Tests that having a ForeignKey automatically adds a dependency" # Make state # Note that testapp (author) has no dependencies, # otherapp (book) depends on testapp (author), # thirdapp (edition) depends on otherapp (book) before = self.make_project_state([]) after = self.make_project_state([self.author_name, self.book, self.edition]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes['testapp']), 1) self.assertEqual(len(changes['otherapp']), 1) self.assertEqual(len(changes['thirdapp']), 1) # Right number of actions? migration1 = changes['testapp'][0] self.assertEqual(len(migration1.operations), 1) migration2 = changes['otherapp'][0] self.assertEqual(len(migration2.operations), 1) migration3 = changes['thirdapp'][0] self.assertEqual(len(migration3.operations), 1) # Right actions? action = migration1.operations[0] self.assertEqual(action.__class__.__name__, "CreateModel") action = migration2.operations[0] self.assertEqual(action.__class__.__name__, "CreateModel") action = migration3.operations[0] self.assertEqual(action.__class__.__name__, "CreateModel") # Right dependencies? self.assertEqual(migration1.dependencies, []) self.assertEqual(migration2.dependencies, [("testapp", "auto_1")]) self.assertEqual(migration3.dependencies, [("otherapp", "auto_1")]) def test_same_app_no_fk_dependency(self): """ Tests that a migration with a FK between two models of the same app does not have a dependency to itself. """ # Make state before = self.make_project_state([]) after = self.make_project_state([self.author_with_publisher, self.publisher]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes['testapp']), 1) # Right number of actions? migration = changes['testapp'][0] self.assertEqual(len(migration.operations), 3) # Right actions? action = migration.operations[0] self.assertEqual(action.__class__.__name__, "CreateModel") action = migration.operations[1] self.assertEqual(action.__class__.__name__, "CreateModel") # Third action might vanish one day if the optimizer improves. action = migration.operations[2] self.assertEqual(action.__class__.__name__, "AddField") # Right dependencies? self.assertEqual(migration.dependencies, []) def test_circular_fk_dependency(self): """ Tests that having a circular ForeignKey dependency automatically resolves the situation into 2 migrations on one side and 1 on the other. """ # Make state before = self.make_project_state([]) after = self.make_project_state([self.author_with_book, self.book, self.publisher_with_book]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes['testapp']), 1) self.assertEqual(len(changes['otherapp']), 2) # Right number of actions? migration1 = changes['testapp'][0] self.assertEqual(len(migration1.operations), 2) migration2 = changes['otherapp'][0] self.assertEqual(len(migration2.operations), 1) migration3 = changes['otherapp'][1] self.assertEqual(len(migration3.operations), 1) # Right actions? action = migration1.operations[0] self.assertEqual(action.__class__.__name__, "CreateModel") self.assertEqual(action.name, "Author") self.assertEqual(len(action.fields), 3) action = migration2.operations[0] self.assertEqual(action.__class__.__name__, "CreateModel") self.assertEqual(len(action.fields), 2) action = migration3.operations[0] self.assertEqual(action.__class__.__name__, "AddField") self.assertEqual(action.name, "author") # Right dependencies? self.assertEqual(migration1.dependencies, [("otherapp", "auto_1")]) self.assertEqual(migration2.dependencies, []) self.assertEqual(set(migration3.dependencies), set([("testapp", "auto_1"), ("otherapp", "auto_1")])) def test_same_app_circular_fk_dependency(self): """ Tests that a migration with a FK between two models of the same app does not have a dependency to itself. """ # Make state before = self.make_project_state([]) after = self.make_project_state([self.author_with_publisher, self.publisher_with_author]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes['testapp']), 1) # Right number of actions? migration1 = changes['testapp'][0] self.assertEqual(len(migration1.operations), 4) # Right actions? action = migration1.operations[0] self.assertEqual(action.__class__.__name__, "CreateModel") action = migration1.operations[1] self.assertEqual(action.__class__.__name__, "CreateModel") action = migration1.operations[2] self.assertEqual(action.__class__.__name__, "AddField") self.assertEqual(action.name, "publisher") action = migration1.operations[3] self.assertEqual(action.__class__.__name__, "AddField") self.assertEqual(action.name, "author") # Right dependencies? self.assertEqual(migration1.dependencies, []) def test_same_app_circular_fk_dependency_and_unique_together(self): """ Tests that a migration with circular FK dependency does not try to create unique together constraint before creating all required fields first. See ticket #22275. """ # Make state before = self.make_project_state([]) after = self.make_project_state([self.knight, self.rabbit]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes['eggs']), 1) # Right number of actions? migration1 = changes['eggs'][0] self.assertEqual(len(migration1.operations), 3) # Right actions? action = migration1.operations[0] self.assertEqual(action.__class__.__name__, "CreateModel") action = migration1.operations[1] self.assertEqual(action.__class__.__name__, "CreateModel") self.assertEqual(action.name, "Rabbit") self.assertFalse("unique_together" in action.options) action = migration1.operations[2] self.assertEqual(action.__class__.__name__, "AlterUniqueTogether") self.assertEqual(action.name, "rabbit") # Right dependencies? self.assertEqual(migration1.dependencies, []) def test_unique_together(self): "Tests unique_together detection" # Make state before = self.make_project_state([self.author_empty, self.book]) after = self.make_project_state([self.author_empty, self.book_unique]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes['otherapp']), 1) # Right number of actions? migration = changes['otherapp'][0] self.assertEqual(len(migration.operations), 1) # Right action? action = migration.operations[0] self.assertEqual(action.__class__.__name__, "AlterUniqueTogether") self.assertEqual(action.name, "book") self.assertEqual(action.unique_together, set([("author", "title")])) def test_unique_together_ordering(self): "Tests that unique_together also triggers on ordering changes" # Make state before = self.make_project_state([self.author_empty, self.book_unique]) after = self.make_project_state([self.author_empty, self.book_unique_2]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes['otherapp']), 1) # Right number of actions? migration = changes['otherapp'][0] self.assertEqual(len(migration.operations), 1) # Right action? action = migration.operations[0] self.assertEqual(action.__class__.__name__, "AlterUniqueTogether") self.assertEqual(action.name, "book") self.assertEqual(action.unique_together, set([("title", "author")])) def test_add_field_and_unique_together(self): "Tests that added fields will be created before using them in unique together" before = self.make_project_state([self.author_empty, self.book]) after = self.make_project_state([self.author_empty, self.book_unique_3]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes['otherapp']), 1) # Right number of actions? migration = changes['otherapp'][0] self.assertEqual(len(migration.operations), 2) # Right actions order? action1 = migration.operations[0] action2 = migration.operations[1] self.assertEqual(action1.__class__.__name__, "AddField") self.assertEqual(action2.__class__.__name__, "AlterUniqueTogether") self.assertEqual(action2.unique_together, set([("title", "newfield")])) def test_proxy_ignorance(self): "Tests that the autodetector correctly ignores proxy models" # First, we test adding a proxy model before = self.make_project_state([self.author_empty]) after = self.make_project_state([self.author_empty, self.author_proxy]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes), 0) # Now, we test turning a proxy model into a non-proxy model before = self.make_project_state([self.author_empty, self.author_proxy]) after = self.make_project_state([self.author_empty, self.author_proxy_notproxy]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes['testapp']), 1) # Right number of actions? migration = changes['testapp'][0] self.assertEqual(len(migration.operations), 1) # Right action? action = migration.operations[0] self.assertEqual(action.__class__.__name__, "CreateModel") self.assertEqual(action.name, "AuthorProxy") def test_unmanaged_ignorance(self): "Tests that the autodetector correctly ignores managed models" # First, we test adding an unmanaged model before = self.make_project_state([self.author_empty]) after = self.make_project_state([self.author_empty, self.author_unmanaged]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes), 0) # Now, we test turning an unmanaged model into a managed model before = self.make_project_state([self.author_empty, self.author_unmanaged]) after = self.make_project_state([self.author_empty, self.author_unmanaged_managed]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes['testapp']), 1) # Right number of actions? migration = changes['testapp'][0] self.assertEqual(len(migration.operations), 1) # Right action? action = migration.operations[0] self.assertEqual(action.__class__.__name__, "CreateModel") self.assertEqual(action.name, "AuthorUnmanaged") @override_settings(AUTH_USER_MODEL="thirdapp.CustomUser") def test_swappable(self): before = self.make_project_state([self.custom_user]) after = self.make_project_state([self.custom_user, self.author_with_custom_user]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes), 1) # Check the dependency is correct migration = changes['testapp'][0] self.assertEqual(migration.dependencies, [("__setting__", "AUTH_USER_MODEL")]) def test_add_field_with_default(self): """ Adding a field with a default should work (#22030). """ # Make state before = self.make_project_state([self.author_empty]) after = self.make_project_state([self.author_name_default]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes['testapp']), 1) # Right number of actions? migration = changes['testapp'][0] self.assertEqual(len(migration.operations), 1) # Right action? action = migration.operations[0] self.assertEqual(action.__class__.__name__, "AddField") self.assertEqual(action.name, "name") def test_custom_deconstructable(self): """ Two instances which deconstruct to the same value aren't considered a change. """ before = self.make_project_state([self.author_name_deconstructable_1]) after = self.make_project_state([self.author_name_deconstructable_2]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() self.assertEqual(changes, {}) def test_deconstruct_field_kwarg(self): """ Field instances are handled correctly by nested deconstruction. """ before = self.make_project_state([self.author_name_deconstructable_3]) after = self.make_project_state([self.author_name_deconstructable_4]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() self.assertEqual(changes, {}) def test_replace_string_with_foreignkey(self): """ Adding an FK in the same "spot" as a deleted CharField should work. (#22300). """ # Make state before = self.make_project_state([self.author_with_publisher_string]) after = self.make_project_state([self.author_with_publisher, self.publisher]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes['testapp']), 1) # Right number of actions? migration = changes['testapp'][0] self.assertEqual(len(migration.operations), 3) # Right actions? action = migration.operations[0] self.assertEqual(action.__class__.__name__, "CreateModel") self.assertEqual(action.name, "Publisher") action = migration.operations[1] self.assertEqual(action.__class__.__name__, "AddField") self.assertEqual(action.name, "publisher") action = migration.operations[2] self.assertEqual(action.__class__.__name__, "RemoveField") self.assertEqual(action.name, "publisher_name") def test_foreign_key_removed_before_target_model(self): """ Removing an FK and the model it targets in the same change must remove the FK field before the model to maintain consistency. """ before = self.make_project_state([self.author_with_publisher, self.publisher]) after = self.make_project_state([self.author_name]) # removes both the model and FK autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes['testapp']), 1) # Right number of actions? migration = changes['testapp'][0] self.assertEqual(len(migration.operations), 2) # Right actions in right order? action = migration.operations[0] self.assertEqual(action.__class__.__name__, "RemoveField") self.assertEqual(action.name, "publisher") action = migration.operations[1] self.assertEqual(action.__class__.__name__, "DeleteModel") self.assertEqual(action.name, "Publisher") def test_add_many_to_many(self): """ Adding a ManyToManyField should not prompt for a default (#22435). """ class CustomQuestioner(MigrationQuestioner): def ask_not_null_addition(self, field_name, model_name): raise Exception("Should not have prompted for not null addition") before = self.make_project_state([self.author_empty, self.publisher]) # Add ManyToManyField to author model after = self.make_project_state([self.author_with_m2m, self.publisher]) autodetector = MigrationAutodetector(before, after, CustomQuestioner()) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes['testapp']), 1) migration = changes['testapp'][0] # Right actions in right order? self.assertEqual(len(migration.operations), 1) action = migration.operations[0] self.assertEqual(action.__class__.__name__, "AddField") self.assertEqual(action.name, "publishers") def test_many_to_many_removed_before_through_model(self): """ Removing a ManyToManyField and the "through" model in the same change must remove the field before the model to maintain consistency. """ before = self.make_project_state([self.book_with_multiple_authors_through_attribution, self.author_name, self.attribution]) after = self.make_project_state([self.book_with_no_author, self.author_name]) # removes both the through model and ManyToMany autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertEqual(len(changes['otherapp']), 1) # Right number of actions? migration = changes['otherapp'][0] self.assertEqual(len(migration.operations), 4) # Right actions in right order? # The first two are because we can't optimise RemoveField # into DeleteModel reliably. action = migration.operations[0] self.assertEqual(action.__class__.__name__, "RemoveField") self.assertEqual(action.name, "author") action = migration.operations[1] self.assertEqual(action.__class__.__name__, "RemoveField") self.assertEqual(action.name, "book") action = migration.operations[2] self.assertEqual(action.__class__.__name__, "RemoveField") self.assertEqual(action.name, "authors") action = migration.operations[3] self.assertEqual(action.__class__.__name__, "DeleteModel") self.assertEqual(action.name, "Attribution") def test_m2m_w_through_multistep_remove(self): """ A model with a m2m field that specifies a "through" model cannot be removed in the same migration as that through model as the schema will pass through an inconsistent state. The autodetector should produce two migrations to avoid this issue. """ before = self.make_project_state([self.author_with_m2m_through, self.publisher, self.contract]) after = self.make_project_state([self.publisher]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertNumberMigrations(changes, "testapp", 1) # Right actions in right order? self.assertOperationTypes(changes, "testapp", 0, ["RemoveField", "RemoveField", "DeleteModel", "RemoveField", "DeleteModel"]) # Actions touching the right stuff? self.assertOperationAttributes(changes, "testapp", 0, 0, name="publishers") self.assertOperationAttributes(changes, "testapp", 0, 1, name="author") self.assertOperationAttributes(changes, "testapp", 0, 2, name="Author") self.assertOperationAttributes(changes, "testapp", 0, 3, name="publisher") self.assertOperationAttributes(changes, "testapp", 0, 4, name="Contract") def test_non_circular_foreignkey_dependency_removal(self): """ If two models with a ForeignKey from one to the other are removed at the same time, the autodetector should remove them in the correct order. """ before = self.make_project_state([self.author_with_publisher, self.publisher_with_author]) after = self.make_project_state([]) autodetector = MigrationAutodetector(before, after) changes = autodetector._detect_changes() # Right number of migrations? self.assertNumberMigrations(changes, "testapp", 1) # Right actions in right order? self.assertOperationTypes(changes, "testapp", 0, ["RemoveField", "RemoveField", "DeleteModel", "DeleteModel"])