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django/tests/model_forms_regress/tests.py
Claude Paroz 8a9c8bb907 Fixed #21568 -- Added missing ModelMultipleChoiceField to_python method
Thanks dibrovsd at gmail.com for the report and Simon Charette
for the review.
2013-12-07 10:14:22 +01:00

604 lines
23 KiB
Python

from __future__ import unicode_literals
from datetime import date
import unittest
import warnings
from django import forms
from django.core.exceptions import FieldError, ValidationError
from django.core.files.uploadedfile import SimpleUploadedFile
from django.forms.models import (modelform_factory, ModelChoiceField,
fields_for_model, construct_instance, ModelFormMetaclass)
from django.utils import six
from django.test import TestCase
from .models import (Person, RealPerson, Triple, FilePathModel, Article,
Publication, CustomFF, Author, Author1, Homepage, Document, Edition)
class ModelMultipleChoiceFieldTests(TestCase):
def test_model_multiple_choice_number_of_queries(self):
"""
Test that ModelMultipleChoiceField does O(1) queries instead of
O(n) (#10156).
"""
persons = [Person.objects.create(name="Person %s" % i) for i in range(30)]
f = forms.ModelMultipleChoiceField(queryset=Person.objects.all())
self.assertNumQueries(1, f.clean, [p.pk for p in persons[1:11:2]])
def test_model_multiple_choice_run_validators(self):
"""
Test that ModelMultipleChoiceField run given validators (#14144).
"""
for i in range(30):
Person.objects.create(name="Person %s" % i)
self._validator_run = False
def my_validator(value):
self._validator_run = True
f = forms.ModelMultipleChoiceField(queryset=Person.objects.all(),
validators=[my_validator])
f.clean([p.pk for p in Person.objects.all()[8:9]])
self.assertTrue(self._validator_run)
def test_model_multiple_choice_show_hidden_initial(self):
"""
Test support of show_hidden_initial by ModelMultipleChoiceField.
"""
class PersonForm(forms.Form):
persons = forms.ModelMultipleChoiceField(show_hidden_initial=True,
queryset=Person.objects.all())
person1 = Person.objects.create(name="Person 1")
person2 = Person.objects.create(name="Person 2")
form = PersonForm(initial={'persons': [person1, person2]},
data={'initial-persons': [str(person1.pk), str(person2.pk)],
'persons': [str(person1.pk), str(person2.pk)]})
self.assertTrue(form.is_valid())
self.assertFalse(form.has_changed())
form = PersonForm(initial={'persons': [person1, person2]},
data={'initial-persons': [str(person1.pk), str(person2.pk)],
'persons': [str(person2.pk)]})
self.assertTrue(form.is_valid())
self.assertTrue(form.has_changed())
class TripleForm(forms.ModelForm):
class Meta:
model = Triple
fields = '__all__'
class UniqueTogetherTests(TestCase):
def test_multiple_field_unique_together(self):
"""
When the same field is involved in multiple unique_together
constraints, we need to make sure we don't remove the data for it
before doing all the validation checking (not just failing after
the first one).
"""
Triple.objects.create(left=1, middle=2, right=3)
form = TripleForm({'left': '1', 'middle': '2', 'right': '3'})
self.assertFalse(form.is_valid())
form = TripleForm({'left': '1', 'middle': '3', 'right': '1'})
self.assertTrue(form.is_valid())
class TripleFormWithCleanOverride(forms.ModelForm):
class Meta:
model = Triple
fields = '__all__'
def clean(self):
if not self.cleaned_data['left'] == self.cleaned_data['right']:
raise forms.ValidationError('Left and right should be equal')
return self.cleaned_data
class OverrideCleanTests(TestCase):
def test_override_clean(self):
"""
Regression for #12596: Calling super from ModelForm.clean() should be
optional.
"""
form = TripleFormWithCleanOverride({'left': 1, 'middle': 2, 'right': 1})
self.assertTrue(form.is_valid())
# form.instance.left will be None if the instance was not constructed
# by form.full_clean().
self.assertEqual(form.instance.left, 1)
class PartiallyLocalizedTripleForm(forms.ModelForm):
class Meta:
model = Triple
localized_fields = ('left', 'right',)
fields = '__all__'
class FullyLocalizedTripleForm(forms.ModelForm):
class Meta:
model = Triple
localized_fields = '__all__'
fields = '__all__'
class LocalizedModelFormTest(TestCase):
def test_model_form_applies_localize_to_some_fields(self):
f = PartiallyLocalizedTripleForm({'left': 10, 'middle': 10, 'right': 10})
self.assertTrue(f.is_valid())
self.assertTrue(f.fields['left'].localize)
self.assertFalse(f.fields['middle'].localize)
self.assertTrue(f.fields['right'].localize)
def test_model_form_applies_localize_to_all_fields(self):
f = FullyLocalizedTripleForm({'left': 10, 'middle': 10, 'right': 10})
self.assertTrue(f.is_valid())
self.assertTrue(f.fields['left'].localize)
self.assertTrue(f.fields['middle'].localize)
self.assertTrue(f.fields['right'].localize)
def test_model_form_refuses_arbitrary_string(self):
with self.assertRaises(TypeError):
class BrokenLocalizedTripleForm(forms.ModelForm):
class Meta:
model = Triple
localized_fields = "foo"
# Regression test for #12960.
# Make sure the cleaned_data returned from ModelForm.clean() is applied to the
# model instance.
class PublicationForm(forms.ModelForm):
def clean(self):
self.cleaned_data['title'] = self.cleaned_data['title'].upper()
return self.cleaned_data
class Meta:
model = Publication
fields = '__all__'
class ModelFormCleanTest(TestCase):
def test_model_form_clean_applies_to_model(self):
data = {'title': 'test', 'date_published': '2010-2-25'}
form = PublicationForm(data)
publication = form.save()
self.assertEqual(publication.title, 'TEST')
class FPForm(forms.ModelForm):
class Meta:
model = FilePathModel
fields = '__all__'
class FilePathFieldTests(TestCase):
def test_file_path_field_blank(self):
"""
Regression test for #8842: FilePathField(blank=True)
"""
form = FPForm()
names = [p[1] for p in form['path'].field.choices]
names.sort()
self.assertEqual(names, ['---------', '__init__.py', 'models.py', 'tests.py'])
class ManyToManyCallableInitialTests(TestCase):
def test_callable(self):
"Regression for #10349: A callable can be provided as the initial value for an m2m field"
# Set up a callable initial value
def formfield_for_dbfield(db_field, **kwargs):
if db_field.name == 'publications':
kwargs['initial'] = lambda: Publication.objects.all().order_by('date_published')[:2]
return db_field.formfield(**kwargs)
# Set up some Publications to use as data
book1 = Publication.objects.create(title="First Book", date_published=date(2007, 1, 1))
book2 = Publication.objects.create(title="Second Book", date_published=date(2008, 1, 1))
book3 = Publication.objects.create(title="Third Book", date_published=date(2009, 1, 1))
# Create a ModelForm, instantiate it, and check that the output is as expected
ModelForm = modelform_factory(Article, fields="__all__",
formfield_callback=formfield_for_dbfield)
form = ModelForm()
self.assertHTMLEqual(form.as_ul(), """<li><label for="id_headline">Headline:</label> <input id="id_headline" type="text" name="headline" maxlength="100" /></li>
<li><label for="id_publications">Publications:</label> <select multiple="multiple" name="publications" id="id_publications">
<option value="%d" selected="selected">First Book</option>
<option value="%d" selected="selected">Second Book</option>
<option value="%d">Third Book</option>
</select> <span class="helptext"> Hold down "Control", or "Command" on a Mac, to select more than one.</span></li>"""
% (book1.pk, book2.pk, book3.pk))
class CFFForm(forms.ModelForm):
class Meta:
model = CustomFF
fields = '__all__'
class CustomFieldSaveTests(TestCase):
def test_save(self):
"Regression for #11149: save_form_data should be called only once"
# It's enough that the form saves without error -- the custom save routine will
# generate an AssertionError if it is called more than once during save.
form = CFFForm(data={'f': None})
form.save()
class ModelChoiceIteratorTests(TestCase):
def test_len(self):
class Form(forms.ModelForm):
class Meta:
model = Article
fields = ["publications"]
Publication.objects.create(title="Pravda",
date_published=date(1991, 8, 22))
f = Form()
self.assertEqual(len(f.fields["publications"].choices), 1)
class RealPersonForm(forms.ModelForm):
class Meta:
model = RealPerson
fields = '__all__'
class CustomModelFormSaveMethod(TestCase):
def test_string_message(self):
data = {'name': 'anonymous'}
form = RealPersonForm(data)
self.assertEqual(form.is_valid(), False)
self.assertEqual(form.errors['__all__'], ['Please specify a real name.'])
class ModelClassTests(TestCase):
def test_no_model_class(self):
class NoModelModelForm(forms.ModelForm):
pass
self.assertRaises(ValueError, NoModelModelForm)
class OneToOneFieldTests(TestCase):
def test_assignment_of_none(self):
class AuthorForm(forms.ModelForm):
class Meta:
model = Author
fields = ['publication', 'full_name']
publication = Publication.objects.create(title="Pravda",
date_published=date(1991, 8, 22))
author = Author.objects.create(publication=publication, full_name='John Doe')
form = AuthorForm({'publication': '', 'full_name': 'John Doe'}, instance=author)
self.assertTrue(form.is_valid())
self.assertEqual(form.cleaned_data['publication'], None)
author = form.save()
# author object returned from form still retains original publication object
# that's why we need to retreive it from database again
new_author = Author.objects.get(pk=author.pk)
self.assertEqual(new_author.publication, None)
def test_assignment_of_none_null_false(self):
class AuthorForm(forms.ModelForm):
class Meta:
model = Author1
fields = ['publication', 'full_name']
publication = Publication.objects.create(title="Pravda",
date_published=date(1991, 8, 22))
author = Author1.objects.create(publication=publication, full_name='John Doe')
form = AuthorForm({'publication': '', 'full_name': 'John Doe'}, instance=author)
self.assertTrue(not form.is_valid())
class ModelChoiceForm(forms.Form):
person = ModelChoiceField(Person.objects.all())
class TestTicket11183(TestCase):
def test_11183(self):
form1 = ModelChoiceForm()
field1 = form1.fields['person']
# To allow the widget to change the queryset of field1.widget.choices correctly,
# without affecting other forms, the following must hold:
self.assertTrue(field1 is not ModelChoiceForm.base_fields['person'])
self.assertTrue(field1.widget.choices.field is field1)
class HomepageForm(forms.ModelForm):
class Meta:
model = Homepage
fields = '__all__'
class URLFieldTests(TestCase):
def test_url_on_modelform(self):
"Check basic URL field validation on model forms"
self.assertFalse(HomepageForm({'url': 'foo'}).is_valid())
self.assertFalse(HomepageForm({'url': 'http://'}).is_valid())
self.assertFalse(HomepageForm({'url': 'http://example'}).is_valid())
self.assertFalse(HomepageForm({'url': 'http://example.'}).is_valid())
self.assertFalse(HomepageForm({'url': 'http://com.'}).is_valid())
self.assertTrue(HomepageForm({'url': 'http://localhost'}).is_valid())
self.assertTrue(HomepageForm({'url': 'http://example.com'}).is_valid())
self.assertTrue(HomepageForm({'url': 'http://www.example.com'}).is_valid())
self.assertTrue(HomepageForm({'url': 'http://www.example.com:8000'}).is_valid())
self.assertTrue(HomepageForm({'url': 'http://www.example.com/test'}).is_valid())
self.assertTrue(HomepageForm({'url': 'http://www.example.com:8000/test'}).is_valid())
self.assertTrue(HomepageForm({'url': 'http://example.com/foo/bar'}).is_valid())
def test_http_prefixing(self):
"If the http:// prefix is omitted on form input, the field adds it again. (Refs #13613)"
form = HomepageForm({'url': 'example.com'})
form.is_valid()
# self.assertTrue(form.is_valid())
# self.assertEqual(form.cleaned_data['url'], 'http://example.com/')
form = HomepageForm({'url': 'example.com/test'})
form.is_valid()
# self.assertTrue(form.is_valid())
# self.assertEqual(form.cleaned_data['url'], 'http://example.com/test')
class FormFieldCallbackTests(TestCase):
def test_baseform_with_widgets_in_meta(self):
"""Regression for #13095: Using base forms with widgets defined in Meta should not raise errors."""
widget = forms.Textarea()
class BaseForm(forms.ModelForm):
class Meta:
model = Person
widgets = {'name': widget}
fields = "__all__"
Form = modelform_factory(Person, form=BaseForm)
self.assertTrue(Form.base_fields['name'].widget is widget)
def test_factory_with_widget_argument(self):
""" Regression for #15315: modelform_factory should accept widgets
argument
"""
widget = forms.Textarea()
# Without a widget should not set the widget to textarea
Form = modelform_factory(Person, fields="__all__")
self.assertNotEqual(Form.base_fields['name'].widget.__class__, forms.Textarea)
# With a widget should not set the widget to textarea
Form = modelform_factory(Person, fields="__all__", widgets={'name': widget})
self.assertEqual(Form.base_fields['name'].widget.__class__, forms.Textarea)
def test_custom_callback(self):
"""Test that a custom formfield_callback is used if provided"""
callback_args = []
def callback(db_field, **kwargs):
callback_args.append((db_field, kwargs))
return db_field.formfield(**kwargs)
widget = forms.Textarea()
class BaseForm(forms.ModelForm):
class Meta:
model = Person
widgets = {'name': widget}
fields = "__all__"
modelform_factory(Person, form=BaseForm, formfield_callback=callback)
id_field, name_field = Person._meta.fields
self.assertEqual(callback_args,
[(id_field, {}), (name_field, {'widget': widget})])
def test_bad_callback(self):
# A bad callback provided by user still gives an error
self.assertRaises(TypeError, modelform_factory, Person, fields="__all__",
formfield_callback='not a function or callable')
class InvalidFieldAndFactory(TestCase):
""" Tests for #11905 """
def test_extra_field_model_form(self):
try:
class ExtraPersonForm(forms.ModelForm):
""" ModelForm with an extra field """
age = forms.IntegerField()
class Meta:
model = Person
fields = ('name', 'no-field')
except FieldError as e:
# Make sure the exception contains some reference to the
# field responsible for the problem.
self.assertTrue('no-field' in e.args[0])
else:
self.fail('Invalid "no-field" field not caught')
def test_extra_declared_field_model_form(self):
try:
class ExtraPersonForm(forms.ModelForm):
""" ModelForm with an extra field """
age = forms.IntegerField()
class Meta:
model = Person
fields = ('name', 'age')
except FieldError:
self.fail('Declarative field raised FieldError incorrectly')
def test_extra_field_modelform_factory(self):
self.assertRaises(FieldError, modelform_factory,
Person, fields=['no-field', 'name'])
class DocumentForm(forms.ModelForm):
class Meta:
model = Document
fields = '__all__'
class FileFieldTests(unittest.TestCase):
def test_clean_false(self):
"""
If the ``clean`` method on a non-required FileField receives False as
the data (meaning clear the field value), it returns False, regardless
of the value of ``initial``.
"""
f = forms.FileField(required=False)
self.assertEqual(f.clean(False), False)
self.assertEqual(f.clean(False, 'initial'), False)
def test_clean_false_required(self):
"""
If the ``clean`` method on a required FileField receives False as the
data, it has the same effect as None: initial is returned if non-empty,
otherwise the validation catches the lack of a required value.
"""
f = forms.FileField(required=True)
self.assertEqual(f.clean(False, 'initial'), 'initial')
self.assertRaises(ValidationError, f.clean, False)
def test_full_clear(self):
"""
Integration happy-path test that a model FileField can actually be set
and cleared via a ModelForm.
"""
form = DocumentForm()
self.assertTrue('name="myfile"' in six.text_type(form))
self.assertTrue('myfile-clear' not in six.text_type(form))
form = DocumentForm(files={'myfile': SimpleUploadedFile('something.txt', b'content')})
self.assertTrue(form.is_valid())
doc = form.save(commit=False)
self.assertEqual(doc.myfile.name, 'something.txt')
form = DocumentForm(instance=doc)
self.assertTrue('myfile-clear' in six.text_type(form))
form = DocumentForm(instance=doc, data={'myfile-clear': 'true'})
doc = form.save(commit=False)
self.assertEqual(bool(doc.myfile), False)
def test_clear_and_file_contradiction(self):
"""
If the user submits a new file upload AND checks the clear checkbox,
they get a validation error, and the bound redisplay of the form still
includes the current file and the clear checkbox.
"""
form = DocumentForm(files={'myfile': SimpleUploadedFile('something.txt', b'content')})
self.assertTrue(form.is_valid())
doc = form.save(commit=False)
form = DocumentForm(instance=doc,
files={'myfile': SimpleUploadedFile('something.txt', b'content')},
data={'myfile-clear': 'true'})
self.assertTrue(not form.is_valid())
self.assertEqual(form.errors['myfile'],
['Please either submit a file or check the clear checkbox, not both.'])
rendered = six.text_type(form)
self.assertTrue('something.txt' in rendered)
self.assertTrue('myfile-clear' in rendered)
class EditionForm(forms.ModelForm):
author = forms.ModelChoiceField(queryset=Person.objects.all())
publication = forms.ModelChoiceField(queryset=Publication.objects.all())
edition = forms.IntegerField()
isbn = forms.CharField(max_length=13)
class Meta:
model = Edition
fields = '__all__'
class UniqueErrorsTests(TestCase):
def setUp(self):
self.author1 = Person.objects.create(name='Author #1')
self.author2 = Person.objects.create(name='Author #2')
self.pub1 = Publication.objects.create(title='Pub #1', date_published=date(2000, 10, 31))
self.pub2 = Publication.objects.create(title='Pub #2', date_published=date(2004, 1, 5))
form = EditionForm(data={'author': self.author1.pk, 'publication': self.pub1.pk, 'edition': 1, 'isbn': '9783161484100'})
form.save()
def test_unique_error_message(self):
form = EditionForm(data={'author': self.author1.pk, 'publication': self.pub2.pk, 'edition': 1, 'isbn': '9783161484100'})
self.assertEqual(form.errors, {'isbn': ['Edition with this Isbn already exists.']})
def test_unique_together_error_message(self):
form = EditionForm(data={'author': self.author1.pk, 'publication': self.pub1.pk, 'edition': 2, 'isbn': '9783161489999'})
self.assertEqual(form.errors, {'__all__': ['Edition with this Author and Publication already exists.']})
form = EditionForm(data={'author': self.author2.pk, 'publication': self.pub1.pk, 'edition': 1, 'isbn': '9783161487777'})
self.assertEqual(form.errors, {'__all__': ['Edition with this Publication and Edition already exists.']})
class EmptyFieldsTestCase(TestCase):
"Tests for fields=() cases as reported in #14119"
class EmptyPersonForm(forms.ModelForm):
class Meta:
model = Person
fields = ()
def test_empty_fields_to_fields_for_model(self):
"An argument of fields=() to fields_for_model should return an empty dictionary"
field_dict = fields_for_model(Person, fields=())
self.assertEqual(len(field_dict), 0)
def test_empty_fields_on_modelform(self):
"No fields on a ModelForm should actually result in no fields"
form = self.EmptyPersonForm()
self.assertEqual(len(form.fields), 0)
def test_empty_fields_to_construct_instance(self):
"No fields should be set on a model instance if construct_instance receives fields=()"
form = modelform_factory(Person, fields="__all__")({'name': 'John Doe'})
self.assertTrue(form.is_valid())
instance = construct_instance(form, Person(), fields=())
self.assertEqual(instance.name, '')
class CustomMetaclass(ModelFormMetaclass):
def __new__(cls, name, bases, attrs):
new = super(CustomMetaclass, cls).__new__(cls, name, bases, attrs)
new.base_fields = {}
return new
class CustomMetaclassForm(six.with_metaclass(CustomMetaclass, forms.ModelForm)):
pass
class CustomMetaclassTestCase(TestCase):
def test_modelform_factory_metaclass(self):
new_cls = modelform_factory(Person, fields="__all__", form=CustomMetaclassForm)
self.assertEqual(new_cls.base_fields, {})
class TestTicket19733(TestCase):
def test_modelform_factory_without_fields(self):
with warnings.catch_warnings(record=True) as w:
warnings.simplefilter("always", DeprecationWarning)
# This should become an error once deprecation cycle is complete.
modelform_factory(Person)
self.assertEqual(w[0].category, DeprecationWarning)
def test_modelform_factory_with_all_fields(self):
form = modelform_factory(Person, fields="__all__")
self.assertEqual(list(form.base_fields), ["name"])