django1/tests/migrations/test_state.py

423 lines
15 KiB
Python

from django.apps.registry import Apps
from django.db import models
from django.db.migrations.state import ProjectState, ModelState, InvalidBasesError
from django.test import TestCase
from .models import ModelWithCustomBase
class StateTests(TestCase):
"""
Tests state construction, rendering and modification by operations.
"""
def test_create(self):
"""
Tests making a ProjectState from an Apps
"""
new_apps = Apps(["migrations"])
class Author(models.Model):
name = models.CharField(max_length=255)
bio = models.TextField()
age = models.IntegerField(blank=True, null=True)
class Meta:
app_label = "migrations"
apps = new_apps
unique_together = ["name", "bio"]
index_together = ["bio", "age"]
class AuthorProxy(Author):
class Meta:
app_label = "migrations"
apps = new_apps
proxy = True
ordering = ["name"]
class SubAuthor(Author):
width = models.FloatField(null=True)
class Meta:
app_label = "migrations"
apps = new_apps
class Book(models.Model):
title = models.CharField(max_length=1000)
author = models.ForeignKey(Author)
contributors = models.ManyToManyField(Author)
class Meta:
app_label = "migrations"
apps = new_apps
verbose_name = "tome"
db_table = "test_tome"
project_state = ProjectState.from_apps(new_apps)
author_state = project_state.models['migrations', 'author']
author_proxy_state = project_state.models['migrations', 'authorproxy']
sub_author_state = project_state.models['migrations', 'subauthor']
book_state = project_state.models['migrations', 'book']
self.assertEqual(author_state.app_label, "migrations")
self.assertEqual(author_state.name, "Author")
self.assertEqual([x for x, y in author_state.fields], ["id", "name", "bio", "age"])
self.assertEqual(author_state.fields[1][1].max_length, 255)
self.assertEqual(author_state.fields[2][1].null, False)
self.assertEqual(author_state.fields[3][1].null, True)
self.assertEqual(author_state.options, {"unique_together": set([("name", "bio")]), "index_together": set([("bio", "age")])})
self.assertEqual(author_state.bases, (models.Model, ))
self.assertEqual(book_state.app_label, "migrations")
self.assertEqual(book_state.name, "Book")
self.assertEqual([x for x, y in book_state.fields], ["id", "title", "author", "contributors"])
self.assertEqual(book_state.fields[1][1].max_length, 1000)
self.assertEqual(book_state.fields[2][1].null, False)
self.assertEqual(book_state.fields[3][1].__class__.__name__, "ManyToManyField")
self.assertEqual(book_state.options, {"verbose_name": "tome", "db_table": "test_tome"})
self.assertEqual(book_state.bases, (models.Model, ))
self.assertEqual(author_proxy_state.app_label, "migrations")
self.assertEqual(author_proxy_state.name, "AuthorProxy")
self.assertEqual(author_proxy_state.fields, [])
self.assertEqual(author_proxy_state.options, {"proxy": True, "ordering": ["name"]})
self.assertEqual(author_proxy_state.bases, ("migrations.author", ))
self.assertEqual(sub_author_state.app_label, "migrations")
self.assertEqual(sub_author_state.name, "SubAuthor")
self.assertEqual(len(sub_author_state.fields), 2)
self.assertEqual(sub_author_state.bases, ("migrations.author", ))
def test_render(self):
"""
Tests rendering a ProjectState into an Apps.
"""
project_state = ProjectState()
project_state.add_model_state(ModelState(
"migrations",
"Tag",
[
("id", models.AutoField(primary_key=True)),
("name", models.CharField(max_length=100)),
("hidden", models.BooleanField()),
],
{},
None,
))
project_state.add_model_state(ModelState(
"migrations",
"SubTag",
[
('tag_ptr', models.OneToOneField(
auto_created=True,
primary_key=True,
to_field='id',
serialize=False,
to='migrations.Tag',
)),
("awesome", models.BooleanField()),
],
options={},
bases=("migrations.Tag",),
))
new_apps = project_state.render()
self.assertEqual(new_apps.get_model("migrations", "Tag")._meta.get_field_by_name("name")[0].max_length, 100)
self.assertEqual(new_apps.get_model("migrations", "Tag")._meta.get_field_by_name("hidden")[0].null, False)
self.assertEqual(len(new_apps.get_model("migrations", "SubTag")._meta.local_fields), 2)
def test_render_model_inheritance(self):
class Book(models.Model):
title = models.CharField(max_length=1000)
class Meta:
app_label = "migrations"
apps = Apps()
class Novel(Book):
class Meta:
app_label = "migrations"
apps = Apps()
# First, test rendering individually
apps = Apps(["migrations"])
# We shouldn't be able to render yet
ms = ModelState.from_model(Novel)
with self.assertRaises(InvalidBasesError):
ms.render(apps)
# Once the parent model is in the app registry, it should be fine
ModelState.from_model(Book).render(apps)
ModelState.from_model(Novel).render(apps)
def test_render_model_with_multiple_inheritance(self):
class Foo(models.Model):
class Meta:
app_label = "migrations"
apps = Apps()
class Bar(models.Model):
class Meta:
app_label = "migrations"
apps = Apps()
class FooBar(Foo, Bar):
class Meta:
app_label = "migrations"
apps = Apps()
class AbstractSubFooBar(FooBar):
class Meta:
abstract = True
apps = Apps()
class SubFooBar(AbstractSubFooBar):
class Meta:
app_label = "migrations"
apps = Apps()
apps = Apps(["migrations"])
# We shouldn't be able to render yet
ms = ModelState.from_model(FooBar)
with self.assertRaises(InvalidBasesError):
ms.render(apps)
# Once the parent models are in the app registry, it should be fine
ModelState.from_model(Foo).render(apps)
self.assertSequenceEqual(ModelState.from_model(Foo).bases, [models.Model])
ModelState.from_model(Bar).render(apps)
self.assertSequenceEqual(ModelState.from_model(Bar).bases, [models.Model])
ModelState.from_model(FooBar).render(apps)
self.assertSequenceEqual(ModelState.from_model(FooBar).bases, ['migrations.foo', 'migrations.bar'])
ModelState.from_model(SubFooBar).render(apps)
self.assertSequenceEqual(ModelState.from_model(SubFooBar).bases, ['migrations.foobar'])
def test_render_project_dependencies(self):
"""
Tests that the ProjectState render method correctly renders models
to account for inter-model base dependencies.
"""
new_apps = Apps()
class A(models.Model):
class Meta:
app_label = "migrations"
apps = new_apps
class B(A):
class Meta:
app_label = "migrations"
apps = new_apps
class C(B):
class Meta:
app_label = "migrations"
apps = new_apps
class D(A):
class Meta:
app_label = "migrations"
apps = new_apps
class E(B):
class Meta:
app_label = "migrations"
apps = new_apps
proxy = True
class F(D):
class Meta:
app_label = "migrations"
apps = new_apps
proxy = True
# Make a ProjectState and render it
project_state = ProjectState()
project_state.add_model_state(ModelState.from_model(A))
project_state.add_model_state(ModelState.from_model(B))
project_state.add_model_state(ModelState.from_model(C))
project_state.add_model_state(ModelState.from_model(D))
project_state.add_model_state(ModelState.from_model(E))
project_state.add_model_state(ModelState.from_model(F))
final_apps = project_state.render()
self.assertEqual(len(final_apps.get_models()), 6)
# Now make an invalid ProjectState and make sure it fails
project_state = ProjectState()
project_state.add_model_state(ModelState.from_model(A))
project_state.add_model_state(ModelState.from_model(B))
project_state.add_model_state(ModelState.from_model(C))
project_state.add_model_state(ModelState.from_model(F))
with self.assertRaises(InvalidBasesError):
project_state.render()
def test_equality(self):
"""
Tests that == and != are implemented correctly.
"""
# Test two things that should be equal
project_state = ProjectState()
project_state.add_model_state(ModelState(
"migrations",
"Tag",
[
("id", models.AutoField(primary_key=True)),
("name", models.CharField(max_length=100)),
("hidden", models.BooleanField()),
],
{},
None,
))
other_state = project_state.clone()
self.assertEqual(project_state, project_state)
self.assertEqual(project_state, other_state)
self.assertEqual(project_state != project_state, False)
self.assertEqual(project_state != other_state, False)
# Make a very small change (max_len 99) and see if that affects it
project_state = ProjectState()
project_state.add_model_state(ModelState(
"migrations",
"Tag",
[
("id", models.AutoField(primary_key=True)),
("name", models.CharField(max_length=99)),
("hidden", models.BooleanField()),
],
{},
None,
))
self.assertNotEqual(project_state, other_state)
self.assertEqual(project_state == other_state, False)
def test_dangling_references_throw_error(self):
new_apps = Apps()
class Author(models.Model):
name = models.TextField()
class Meta:
app_label = "migrations"
apps = new_apps
class Book(models.Model):
author = models.ForeignKey(Author)
class Meta:
app_label = "migrations"
apps = new_apps
class Magazine(models.Model):
authors = models.ManyToManyField(Author)
class Meta:
app_label = "migrations"
apps = new_apps
# Make a valid ProjectState and render it
project_state = ProjectState()
project_state.add_model_state(ModelState.from_model(Author))
project_state.add_model_state(ModelState.from_model(Book))
project_state.add_model_state(ModelState.from_model(Magazine))
rendered_state = project_state.render()
self.assertEqual(len(rendered_state.get_models()), 3)
# now make an invalid one with a ForeignKey
project_state = ProjectState()
project_state.add_model_state(ModelState.from_model(Book))
with self.assertRaises(ValueError):
rendered_state = project_state.render()
# and another with ManyToManyField
project_state = ProjectState()
project_state.add_model_state(ModelState.from_model(Magazine))
with self.assertRaises(ValueError):
rendered_state = project_state.render()
def test_real_apps(self):
"""
Tests that including real apps can resolve dangling FK errors.
This test relies on the fact that contenttypes is always loaded.
"""
new_apps = Apps()
class TestModel(models.Model):
ct = models.ForeignKey("contenttypes.ContentType")
class Meta:
app_label = "migrations"
apps = new_apps
# If we just stick it into an empty state it should fail
project_state = ProjectState()
project_state.add_model_state(ModelState.from_model(TestModel))
with self.assertRaises(ValueError):
project_state.render()
# If we include the real app it should succeed
project_state = ProjectState(real_apps=["contenttypes"])
project_state.add_model_state(ModelState.from_model(TestModel))
rendered_state = project_state.render()
self.assertEqual(
len([x for x in rendered_state.get_models() if x._meta.app_label == "migrations"]),
1,
)
def test_ignore_order_wrt(self):
"""
Makes sure ProjectState doesn't include OrderWrt fields when
making from existing models.
"""
new_apps = Apps()
class Author(models.Model):
name = models.TextField()
class Meta:
app_label = "migrations"
apps = new_apps
class Book(models.Model):
author = models.ForeignKey(Author)
class Meta:
app_label = "migrations"
apps = new_apps
order_with_respect_to = "author"
# Make a valid ProjectState and render it
project_state = ProjectState()
project_state.add_model_state(ModelState.from_model(Author))
project_state.add_model_state(ModelState.from_model(Book))
self.assertEqual(
[name for name, field in project_state.models["migrations", "book"].fields],
["id", "author"],
)
class ModelStateTests(TestCase):
def test_custom_model_base(self):
state = ModelState.from_model(ModelWithCustomBase)
self.assertEqual(state.bases, (models.Model,))
def test_bound_field_sanity_check(self):
field = models.CharField(max_length=1)
field.model = models.Model
with self.assertRaisesMessage(ValueError,
'ModelState.fields cannot be bound to a model - "field" is.'):
ModelState('app', 'Model', [('field', field)])
def test_fields_immutability(self):
"""
Tests that rendering a model state doesn't alter its internal fields.
"""
apps = Apps()
field = models.CharField(max_length=1)
state = ModelState('app', 'Model', [('name', field)])
Model = state.render(apps)
self.assertNotEqual(Model._meta.get_field('name'), field)