""" XX. Generating HTML forms from models This is mostly just a reworking of the ``form_for_model``/``form_for_instance`` tests to use ``ModelForm``. As such, the text may not make sense in all cases, and the examples are probably a poor fit for the ``ModelForm`` syntax. In other words, most of these tests should be rewritten. """ import os import tempfile from django.db import models from django.core.files.storage import FileSystemStorage # Python 2.3 doesn't have sorted() try: sorted except NameError: from django.utils.itercompat import sorted temp_storage_dir = tempfile.mkdtemp() temp_storage = FileSystemStorage(temp_storage_dir) ARTICLE_STATUS = ( (1, 'Draft'), (2, 'Pending'), (3, 'Live'), ) ARTICLE_STATUS_CHAR = ( ('d', 'Draft'), ('p', 'Pending'), ('l', 'Live'), ) class Category(models.Model): name = models.CharField(max_length=20) slug = models.SlugField(max_length=20) url = models.CharField('The URL', max_length=40) def __unicode__(self): return self.name class Writer(models.Model): name = models.CharField(max_length=50, help_text='Use both first and last names.') def __unicode__(self): return self.name class Article(models.Model): headline = models.CharField(max_length=50) slug = models.SlugField() pub_date = models.DateField() created = models.DateField(editable=False) writer = models.ForeignKey(Writer) article = models.TextField() categories = models.ManyToManyField(Category, blank=True) status = models.PositiveIntegerField(choices=ARTICLE_STATUS, blank=True, null=True) def save(self): import datetime if not self.id: self.created = datetime.date.today() return super(Article, self).save() def __unicode__(self): return self.headline class ImprovedArticle(models.Model): article = models.OneToOneField(Article) class ImprovedArticleWithParentLink(models.Model): article = models.OneToOneField(Article, parent_link=True) class BetterWriter(Writer): pass class WriterProfile(models.Model): writer = models.OneToOneField(Writer, primary_key=True) age = models.PositiveIntegerField() def __unicode__(self): return "%s is %s" % (self.writer, self.age) from django.contrib.localflavor.us.models import PhoneNumberField class PhoneNumber(models.Model): phone = PhoneNumberField() description = models.CharField(max_length=20) def __unicode__(self): return self.phone class TextFile(models.Model): description = models.CharField(max_length=20) file = models.FileField(storage=temp_storage, upload_to='tests') def __unicode__(self): return self.description class ImageFile(models.Model): def custom_upload_path(self, filename): path = self.path or 'tests' return '%s/%s' % (path, filename) description = models.CharField(max_length=20) try: # If PIL is available, try testing PIL. # Checking for the existence of Image is enough for CPython, but # for PyPy, you need to check for the underlying modules # If PIL is not available, this test is equivalent to TextFile above. from PIL import Image, _imaging image = models.ImageField(storage=temp_storage, upload_to=custom_upload_path) except ImportError: image = models.FileField(storage=temp_storage, upload_to=custom_upload_path) path = models.CharField(max_length=16, blank=True, default='') def __unicode__(self): return self.description class CommaSeparatedInteger(models.Model): field = models.CommaSeparatedIntegerField(max_length=20) def __unicode__(self): return self.field class Product(models.Model): slug = models.SlugField(unique=True) def __unicode__(self): return self.slug class Price(models.Model): price = models.DecimalField(max_digits=10, decimal_places=2) quantity = models.PositiveIntegerField() def __unicode__(self): return u"%s for %s" % (self.quantity, self.price) class Meta: unique_together = (('price', 'quantity'),) class ArticleStatus(models.Model): status = models.CharField(max_length=2, choices=ARTICLE_STATUS_CHAR, blank=True, null=True) class Inventory(models.Model): barcode = models.PositiveIntegerField(unique=True) parent = models.ForeignKey('self', to_field='barcode', blank=True, null=True) name = models.CharField(blank=False, max_length=20) def __unicode__(self): return self.name class Book(models.Model): title = models.CharField(max_length=40) author = models.ForeignKey(Writer, blank=True, null=True) special_id = models.IntegerField(blank=True, null=True, unique=True) class Meta: unique_together = ('title', 'author') class ExplicitPK(models.Model): key = models.CharField(max_length=20, primary_key=True) desc = models.CharField(max_length=20, blank=True, unique=True) class Meta: unique_together = ('key', 'desc') def __unicode__(self): return self.key __test__ = {'API_TESTS': """ >>> from django import forms >>> from django.forms.models import ModelForm, model_to_dict >>> from django.core.files.uploadedfile import SimpleUploadedFile The bare bones, absolutely nothing custom, basic case. >>> class CategoryForm(ModelForm): ... class Meta: ... model = Category >>> CategoryForm.base_fields.keys() ['name', 'slug', 'url'] Extra fields. >>> class CategoryForm(ModelForm): ... some_extra_field = forms.BooleanField() ... ... class Meta: ... model = Category >>> CategoryForm.base_fields.keys() ['name', 'slug', 'url', 'some_extra_field'] Extra field that has a name collision with a related object accessor. >>> class WriterForm(ModelForm): ... book = forms.CharField(required=False) ... ... class Meta: ... model = Writer >>> wf = WriterForm({'name': 'Richard Lockridge'}) >>> wf.is_valid() True Replacing a field. >>> class CategoryForm(ModelForm): ... url = forms.BooleanField() ... ... class Meta: ... model = Category >>> CategoryForm.base_fields['url'].__class__ Using 'fields'. >>> class CategoryForm(ModelForm): ... ... class Meta: ... model = Category ... fields = ['url'] >>> CategoryForm.base_fields.keys() ['url'] Using 'exclude' >>> class CategoryForm(ModelForm): ... ... class Meta: ... model = Category ... exclude = ['url'] >>> CategoryForm.base_fields.keys() ['name', 'slug'] Using 'fields' *and* 'exclude'. Not sure why you'd want to do this, but uh, "be liberal in what you accept" and all. >>> class CategoryForm(ModelForm): ... ... class Meta: ... model = Category ... fields = ['name', 'url'] ... exclude = ['url'] >>> CategoryForm.base_fields.keys() ['name'] Don't allow more than one 'model' definition in the inheritance hierarchy. Technically, it would generate a valid form, but the fact that the resulting save method won't deal with multiple objects is likely to trip up people not familiar with the mechanics. >>> class CategoryForm(ModelForm): ... class Meta: ... model = Category >>> class OddForm(CategoryForm): ... class Meta: ... model = Article OddForm is now an Article-related thing, because BadForm.Meta overrides CategoryForm.Meta. >>> OddForm.base_fields.keys() ['headline', 'slug', 'pub_date', 'writer', 'article', 'status', 'categories'] >>> class ArticleForm(ModelForm): ... class Meta: ... model = Article First class with a Meta class wins. >>> class BadForm(ArticleForm, CategoryForm): ... pass >>> OddForm.base_fields.keys() ['headline', 'slug', 'pub_date', 'writer', 'article', 'status', 'categories'] Subclassing without specifying a Meta on the class will use the parent's Meta (or the first parent in the MRO if there are multiple parent classes). >>> class CategoryForm(ModelForm): ... class Meta: ... model = Category >>> class SubCategoryForm(CategoryForm): ... pass >>> SubCategoryForm.base_fields.keys() ['name', 'slug', 'url'] We can also subclass the Meta inner class to change the fields list. >>> class CategoryForm(ModelForm): ... checkbox = forms.BooleanField() ... ... class Meta: ... model = Category >>> class SubCategoryForm(CategoryForm): ... class Meta(CategoryForm.Meta): ... exclude = ['url'] >>> print SubCategoryForm() # Old form_for_x tests ####################################################### >>> from django.forms import ModelForm, CharField >>> import datetime >>> Category.objects.all() [] >>> class CategoryForm(ModelForm): ... class Meta: ... model = Category >>> f = CategoryForm() >>> print f >>> print f.as_ul()
  • >>> print f['name'] >>> f = CategoryForm(auto_id=False) >>> print f.as_ul()
  • Name:
  • Slug:
  • The URL:
  • >>> f = CategoryForm({'name': 'Entertainment', 'slug': 'entertainment', 'url': 'entertainment'}) >>> f.is_valid() True >>> f.cleaned_data['url'] u'entertainment' >>> f.cleaned_data['name'] u'Entertainment' >>> f.cleaned_data['slug'] u'entertainment' >>> obj = f.save() >>> obj >>> Category.objects.all() [] >>> f = CategoryForm({'name': "It's a test", 'slug': 'its-test', 'url': 'test'}) >>> f.is_valid() True >>> f.cleaned_data['url'] u'test' >>> f.cleaned_data['name'] u"It's a test" >>> f.cleaned_data['slug'] u'its-test' >>> obj = f.save() >>> obj >>> Category.objects.order_by('name') [, ] If you call save() with commit=False, then it will return an object that hasn't yet been saved to the database. In this case, it's up to you to call save() on the resulting model instance. >>> f = CategoryForm({'name': 'Third test', 'slug': 'third-test', 'url': 'third'}) >>> f.is_valid() True >>> f.cleaned_data['url'] u'third' >>> f.cleaned_data['name'] u'Third test' >>> f.cleaned_data['slug'] u'third-test' >>> obj = f.save(commit=False) >>> obj >>> Category.objects.order_by('name') [, ] >>> obj.save() >>> Category.objects.order_by('name') [, , ] If you call save() with invalid data, you'll get a ValueError. >>> f = CategoryForm({'name': '', 'slug': 'not a slug!', 'url': 'foo'}) >>> f.errors['name'] [u'This field is required.'] >>> f.errors['slug'] [u"Enter a valid 'slug' consisting of letters, numbers, underscores or hyphens."] >>> f.cleaned_data Traceback (most recent call last): ... AttributeError: 'CategoryForm' object has no attribute 'cleaned_data' >>> f.save() Traceback (most recent call last): ... ValueError: The Category could not be created because the data didn't validate. >>> f = CategoryForm({'name': '', 'slug': '', 'url': 'foo'}) >>> f.save() Traceback (most recent call last): ... ValueError: The Category could not be created because the data didn't validate. Create a couple of Writers. >>> w = Writer(name='Mike Royko') >>> w.save() >>> w = Writer(name='Bob Woodward') >>> w.save() ManyToManyFields are represented by a MultipleChoiceField, ForeignKeys and any fields with the 'choices' attribute are represented by a ChoiceField. >>> class ArticleForm(ModelForm): ... class Meta: ... model = Article >>> f = ArticleForm(auto_id=False) >>> print f Headline: Slug: Pub date: Writer: Article: Status: Categories:
    Hold down "Control", or "Command" on a Mac, to select more than one. You can restrict a form to a subset of the complete list of fields by providing a 'fields' argument. If you try to save a model created with such a form, you need to ensure that the fields that are _not_ on the form have default values, or are allowed to have a value of None. If a field isn't specified on a form, the object created from the form can't provide a value for that field! >>> class PartialArticleForm(ModelForm): ... class Meta: ... model = Article ... fields = ('headline','pub_date') >>> f = PartialArticleForm(auto_id=False) >>> print f Headline: Pub date: When the ModelForm is passed an instance, that instance's current values are inserted as 'initial' data in each Field. >>> w = Writer.objects.get(name='Mike Royko') >>> class RoykoForm(ModelForm): ... class Meta: ... model = Writer >>> f = RoykoForm(auto_id=False, instance=w) >>> print f Name:
    Use both first and last names. >>> art = Article(headline='Test article', slug='test-article', pub_date=datetime.date(1988, 1, 4), writer=w, article='Hello.') >>> art.save() >>> art.id 1 >>> class TestArticleForm(ModelForm): ... class Meta: ... model = Article >>> f = TestArticleForm(auto_id=False, instance=art) >>> print f.as_ul()
  • Headline:
  • Slug:
  • Pub date:
  • Writer:
  • Article:
  • Status:
  • Categories: Hold down "Control", or "Command" on a Mac, to select more than one.
  • >>> f = TestArticleForm({'headline': u'Test headline', 'slug': 'test-headline', 'pub_date': u'1984-02-06', 'writer': u'1', 'article': 'Hello.'}, instance=art) >>> f.is_valid() True >>> test_art = f.save() >>> test_art.id 1 >>> test_art = Article.objects.get(id=1) >>> test_art.headline u'Test headline' You can create a form over a subset of the available fields by specifying a 'fields' argument to form_for_instance. >>> class PartialArticleForm(ModelForm): ... class Meta: ... model = Article ... fields=('headline', 'slug', 'pub_date') >>> f = PartialArticleForm({'headline': u'New headline', 'slug': 'new-headline', 'pub_date': u'1988-01-04'}, auto_id=False, instance=art) >>> print f.as_ul()
  • Headline:
  • Slug:
  • Pub date:
  • >>> f.is_valid() True >>> new_art = f.save() >>> new_art.id 1 >>> new_art = Article.objects.get(id=1) >>> new_art.headline u'New headline' Add some categories and test the many-to-many form output. >>> new_art.categories.all() [] >>> new_art.categories.add(Category.objects.get(name='Entertainment')) >>> new_art.categories.all() [] >>> class TestArticleForm(ModelForm): ... class Meta: ... model = Article >>> f = TestArticleForm(auto_id=False, instance=new_art) >>> print f.as_ul()
  • Headline:
  • Slug:
  • Pub date:
  • Writer:
  • Article:
  • Status:
  • Categories: Hold down "Control", or "Command" on a Mac, to select more than one.
  • >>> f = TestArticleForm({'headline': u'New headline', 'slug': u'new-headline', 'pub_date': u'1988-01-04', ... 'writer': u'1', 'article': u'Hello.', 'categories': [u'1', u'2']}, instance=new_art) >>> new_art = f.save() >>> new_art.id 1 >>> new_art = Article.objects.get(id=1) >>> new_art.categories.order_by('name') [, ] Now, submit form data with no categories. This deletes the existing categories. >>> f = TestArticleForm({'headline': u'New headline', 'slug': u'new-headline', 'pub_date': u'1988-01-04', ... 'writer': u'1', 'article': u'Hello.'}, instance=new_art) >>> new_art = f.save() >>> new_art.id 1 >>> new_art = Article.objects.get(id=1) >>> new_art.categories.all() [] Create a new article, with categories, via the form. >>> class ArticleForm(ModelForm): ... class Meta: ... model = Article >>> f = ArticleForm({'headline': u'The walrus was Paul', 'slug': u'walrus-was-paul', 'pub_date': u'1967-11-01', ... 'writer': u'1', 'article': u'Test.', 'categories': [u'1', u'2']}) >>> new_art = f.save() >>> new_art.id 2 >>> new_art = Article.objects.get(id=2) >>> new_art.categories.order_by('name') [, ] Create a new article, with no categories, via the form. >>> class ArticleForm(ModelForm): ... class Meta: ... model = Article >>> f = ArticleForm({'headline': u'The walrus was Paul', 'slug': u'walrus-was-paul', 'pub_date': u'1967-11-01', ... 'writer': u'1', 'article': u'Test.'}) >>> new_art = f.save() >>> new_art.id 3 >>> new_art = Article.objects.get(id=3) >>> new_art.categories.all() [] Create a new article, with categories, via the form, but use commit=False. The m2m data won't be saved until save_m2m() is invoked on the form. >>> class ArticleForm(ModelForm): ... class Meta: ... model = Article >>> f = ArticleForm({'headline': u'The walrus was Paul', 'slug': 'walrus-was-paul', 'pub_date': u'1967-11-01', ... 'writer': u'1', 'article': u'Test.', 'categories': [u'1', u'2']}) >>> new_art = f.save(commit=False) # Manually save the instance >>> new_art.save() >>> new_art.id 4 # The instance doesn't have m2m data yet >>> new_art = Article.objects.get(id=4) >>> new_art.categories.all() [] # Save the m2m data on the form >>> f.save_m2m() >>> new_art.categories.order_by('name') [, ] Here, we define a custom ModelForm. Because it happens to have the same fields as the Category model, we can just call the form's save() to apply its changes to an existing Category instance. >>> class ShortCategory(ModelForm): ... name = CharField(max_length=5) ... slug = CharField(max_length=5) ... url = CharField(max_length=3) >>> cat = Category.objects.get(name='Third test') >>> cat >>> cat.id 3 >>> form = ShortCategory({'name': 'Third', 'slug': 'third', 'url': '3rd'}, instance=cat) >>> form.save() >>> Category.objects.get(id=3) Here, we demonstrate that choices for a ForeignKey ChoiceField are determined at runtime, based on the data in the database when the form is displayed, not the data in the database when the form is instantiated. >>> class ArticleForm(ModelForm): ... class Meta: ... model = Article >>> f = ArticleForm(auto_id=False) >>> print f.as_ul()
  • Headline:
  • Slug:
  • Pub date:
  • Writer:
  • Article:
  • Status:
  • Categories: Hold down "Control", or "Command" on a Mac, to select more than one.
  • >>> Category.objects.create(name='Fourth', url='4th') >>> Writer.objects.create(name='Carl Bernstein') >>> print f.as_ul()
  • Headline:
  • Slug:
  • Pub date:
  • Writer:
  • Article:
  • Status:
  • Categories: Hold down "Control", or "Command" on a Mac, to select more than one.
  • # ModelChoiceField ############################################################ >>> from django.forms import ModelChoiceField, ModelMultipleChoiceField >>> f = ModelChoiceField(Category.objects.all()) >>> list(f.choices) [(u'', u'---------'), (1, u'Entertainment'), (2, u"It's a test"), (3, u'Third'), (4, u'Fourth')] >>> f.clean('') Traceback (most recent call last): ... ValidationError: [u'This field is required.'] >>> f.clean(None) Traceback (most recent call last): ... ValidationError: [u'This field is required.'] >>> f.clean(0) Traceback (most recent call last): ... ValidationError: [u'Select a valid choice. That choice is not one of the available choices.'] >>> f.clean(3) >>> f.clean(2) # Add a Category object *after* the ModelChoiceField has already been # instantiated. This proves clean() checks the database during clean() rather # than caching it at time of instantiation. >>> Category.objects.create(name='Fifth', url='5th') >>> f.clean(5) # Delete a Category object *after* the ModelChoiceField has already been # instantiated. This proves clean() checks the database during clean() rather # than caching it at time of instantiation. >>> Category.objects.get(url='5th').delete() >>> f.clean(5) Traceback (most recent call last): ... ValidationError: [u'Select a valid choice. That choice is not one of the available choices.'] >>> f = ModelChoiceField(Category.objects.filter(pk=1), required=False) >>> print f.clean('') None >>> f.clean('') >>> f.clean('1') >>> f.clean('100') Traceback (most recent call last): ... ValidationError: [u'Select a valid choice. That choice is not one of the available choices.'] # queryset can be changed after the field is created. >>> f.queryset = Category.objects.exclude(name='Fourth') >>> list(f.choices) [(u'', u'---------'), (1, u'Entertainment'), (2, u"It's a test"), (3, u'Third')] >>> f.clean(3) >>> f.clean(4) Traceback (most recent call last): ... ValidationError: [u'Select a valid choice. That choice is not one of the available choices.'] # check that we can safely iterate choices repeatedly >>> gen_one = list(f.choices) >>> gen_two = f.choices >>> gen_one[2] (2L, u"It's a test") >>> list(gen_two) [(u'', u'---------'), (1L, u'Entertainment'), (2L, u"It's a test"), (3L, u'Third')] # check that we can override the label_from_instance method to print custom labels (#4620) >>> f.queryset = Category.objects.all() >>> f.label_from_instance = lambda obj: "category " + str(obj) >>> list(f.choices) [(u'', u'---------'), (1L, 'category Entertainment'), (2L, "category It's a test"), (3L, 'category Third'), (4L, 'category Fourth')] # ModelMultipleChoiceField #################################################### >>> f = ModelMultipleChoiceField(Category.objects.all()) >>> list(f.choices) [(1, u'Entertainment'), (2, u"It's a test"), (3, u'Third'), (4, u'Fourth')] >>> f.clean(None) Traceback (most recent call last): ... ValidationError: [u'This field is required.'] >>> f.clean([]) Traceback (most recent call last): ... ValidationError: [u'This field is required.'] >>> f.clean([1]) [] >>> f.clean([2]) [] >>> f.clean(['1']) [] >>> f.clean(['1', '2']) [, ] >>> f.clean([1, '2']) [, ] >>> f.clean((1, '2')) [, ] >>> f.clean(['100']) Traceback (most recent call last): ... ValidationError: [u'Select a valid choice. 100 is not one of the available choices.'] >>> f.clean('hello') Traceback (most recent call last): ... ValidationError: [u'Enter a list of values.'] # Add a Category object *after* the ModelMultipleChoiceField has already been # instantiated. This proves clean() checks the database during clean() rather # than caching it at time of instantiation. >>> Category.objects.create(id=6, name='Sixth', url='6th') >>> f.clean([6]) [] # Delete a Category object *after* the ModelMultipleChoiceField has already been # instantiated. This proves clean() checks the database during clean() rather # than caching it at time of instantiation. >>> Category.objects.get(url='6th').delete() >>> f.clean([6]) Traceback (most recent call last): ... ValidationError: [u'Select a valid choice. 6 is not one of the available choices.'] >>> f = ModelMultipleChoiceField(Category.objects.all(), required=False) >>> f.clean([]) [] >>> f.clean(()) [] >>> f.clean(['10']) Traceback (most recent call last): ... ValidationError: [u'Select a valid choice. 10 is not one of the available choices.'] >>> f.clean(['3', '10']) Traceback (most recent call last): ... ValidationError: [u'Select a valid choice. 10 is not one of the available choices.'] >>> f.clean(['1', '10']) Traceback (most recent call last): ... ValidationError: [u'Select a valid choice. 10 is not one of the available choices.'] # queryset can be changed after the field is created. >>> f.queryset = Category.objects.exclude(name='Fourth') >>> list(f.choices) [(1, u'Entertainment'), (2, u"It's a test"), (3, u'Third')] >>> f.clean([3]) [] >>> f.clean([4]) Traceback (most recent call last): ... ValidationError: [u'Select a valid choice. 4 is not one of the available choices.'] >>> f.clean(['3', '4']) Traceback (most recent call last): ... ValidationError: [u'Select a valid choice. 4 is not one of the available choices.'] >>> f.queryset = Category.objects.all() >>> f.label_from_instance = lambda obj: "multicategory " + str(obj) >>> list(f.choices) [(1L, 'multicategory Entertainment'), (2L, "multicategory It's a test"), (3L, 'multicategory Third'), (4L, 'multicategory Fourth')] # OneToOneField ############################################################### >>> class ImprovedArticleForm(ModelForm): ... class Meta: ... model = ImprovedArticle >>> ImprovedArticleForm.base_fields.keys() ['article'] >>> class ImprovedArticleWithParentLinkForm(ModelForm): ... class Meta: ... model = ImprovedArticleWithParentLink >>> ImprovedArticleWithParentLinkForm.base_fields.keys() [] >>> bw = BetterWriter(name=u'Joe Better') >>> bw.save() >>> sorted(model_to_dict(bw).keys()) ['id', 'name', 'writer_ptr'] >>> class WriterProfileForm(ModelForm): ... class Meta: ... model = WriterProfile >>> form = WriterProfileForm() >>> print form.as_p()

    >>> data = { ... 'writer': u'2', ... 'age': u'65', ... } >>> form = WriterProfileForm(data) >>> instance = form.save() >>> instance >>> form = WriterProfileForm(instance=instance) >>> print form.as_p()

    # PhoneNumberField ############################################################ >>> class PhoneNumberForm(ModelForm): ... class Meta: ... model = PhoneNumber >>> f = PhoneNumberForm({'phone': '(312) 555-1212', 'description': 'Assistance'}) >>> f.is_valid() True >>> f.cleaned_data['phone'] u'312-555-1212' >>> f.cleaned_data['description'] u'Assistance' # FileField ################################################################### # File forms. >>> class TextFileForm(ModelForm): ... class Meta: ... model = TextFile # Test conditions when files is either not given or empty. >>> f = TextFileForm(data={'description': u'Assistance'}) >>> f.is_valid() False >>> f = TextFileForm(data={'description': u'Assistance'}, files={}) >>> f.is_valid() False # Upload a file and ensure it all works as expected. >>> f = TextFileForm(data={'description': u'Assistance'}, files={'file': SimpleUploadedFile('test1.txt', 'hello world')}) >>> f.is_valid() True >>> type(f.cleaned_data['file']) >>> instance = f.save() >>> instance.file >>> instance.file.delete() >>> f = TextFileForm(data={'description': u'Assistance'}, files={'file': SimpleUploadedFile('test1.txt', 'hello world')}) >>> f.is_valid() True >>> type(f.cleaned_data['file']) >>> instance = f.save() >>> instance.file # Edit an instance that already has the file defined in the model. This will not # save the file again, but leave it exactly as it is. >>> f = TextFileForm(data={'description': u'Assistance'}, instance=instance) >>> f.is_valid() True >>> f.cleaned_data['file'] >>> instance = f.save() >>> instance.file # Delete the current file since this is not done by Django. >>> instance.file.delete() # Override the file by uploading a new one. >>> f = TextFileForm(data={'description': u'Assistance'}, files={'file': SimpleUploadedFile('test2.txt', 'hello world')}, instance=instance) >>> f.is_valid() True >>> instance = f.save() >>> instance.file # Delete the current file since this is not done by Django. >>> instance.file.delete() >>> f = TextFileForm(data={'description': u'Assistance'}, files={'file': SimpleUploadedFile('test2.txt', 'hello world')}) >>> f.is_valid() True >>> instance = f.save() >>> instance.file # Delete the current file since this is not done by Django. >>> instance.file.delete() >>> instance.delete() # Test the non-required FileField >>> f = TextFileForm(data={'description': u'Assistance'}) >>> f.fields['file'].required = False >>> f.is_valid() True >>> instance = f.save() >>> instance.file >>> f = TextFileForm(data={'description': u'Assistance'}, files={'file': SimpleUploadedFile('test3.txt', 'hello world')}, instance=instance) >>> f.is_valid() True >>> instance = f.save() >>> instance.file # Delete the current file since this is not done by Django. >>> instance.file.delete() >>> instance.delete() >>> f = TextFileForm(data={'description': u'Assistance'}, files={'file': SimpleUploadedFile('test3.txt', 'hello world')}) >>> f.is_valid() True >>> instance = f.save() >>> instance.file # Delete the current file since this is not done by Django. >>> instance.file.delete() >>> instance.delete() # ImageField ################################################################### # ImageField and FileField are nearly identical, but they differ slighty when # it comes to validation. This specifically tests that #6302 is fixed for # both file fields and image fields. >>> class ImageFileForm(ModelForm): ... class Meta: ... model = ImageFile >>> image_data = open(os.path.join(os.path.dirname(__file__), "test.png"), 'rb').read() >>> f = ImageFileForm(data={'description': u'An image'}, files={'image': SimpleUploadedFile('test.png', image_data)}) >>> f.is_valid() True >>> type(f.cleaned_data['image']) >>> instance = f.save() >>> instance.image <...FieldFile: tests/test.png> # Delete the current file since this is not done by Django. >>> instance.image.delete() >>> f = ImageFileForm(data={'description': u'An image'}, files={'image': SimpleUploadedFile('test.png', image_data)}) >>> f.is_valid() True >>> type(f.cleaned_data['image']) >>> instance = f.save() >>> instance.image <...FieldFile: tests/test.png> # Edit an instance that already has the image defined in the model. This will not # save the image again, but leave it exactly as it is. >>> f = ImageFileForm(data={'description': u'Look, it changed'}, instance=instance) >>> f.is_valid() True >>> f.cleaned_data['image'] <...FieldFile: tests/test.png> >>> instance = f.save() >>> instance.image <...FieldFile: tests/test.png> # Delete the current image since this is not done by Django. >>> instance.image.delete() # Override the file by uploading a new one. >>> f = ImageFileForm(data={'description': u'Changed it'}, files={'image': SimpleUploadedFile('test2.png', image_data)}, instance=instance) >>> f.is_valid() True >>> instance = f.save() >>> instance.image <...FieldFile: tests/test2.png> # Delete the current file since this is not done by Django. >>> instance.image.delete() >>> instance.delete() >>> f = ImageFileForm(data={'description': u'Changed it'}, files={'image': SimpleUploadedFile('test2.png', image_data)}) >>> f.is_valid() True >>> instance = f.save() >>> instance.image <...FieldFile: tests/test2.png> # Delete the current file since this is not done by Django. >>> instance.image.delete() >>> instance.delete() # Test the non-required ImageField >>> f = ImageFileForm(data={'description': u'Test'}) >>> f.fields['image'].required = False >>> f.is_valid() True >>> instance = f.save() >>> instance.image <...FieldFile: None> >>> f = ImageFileForm(data={'description': u'And a final one'}, files={'image': SimpleUploadedFile('test3.png', image_data)}, instance=instance) >>> f.is_valid() True >>> instance = f.save() >>> instance.image <...FieldFile: tests/test3.png> # Delete the current file since this is not done by Django. >>> instance.image.delete() >>> instance.delete() >>> f = ImageFileForm(data={'description': u'And a final one'}, files={'image': SimpleUploadedFile('test3.png', image_data)}) >>> f.is_valid() True >>> instance = f.save() >>> instance.image <...FieldFile: tests/test3.png> >>> instance.delete() # Test callable upload_to behavior that's dependent on the value of another field in the model >>> f = ImageFileForm(data={'description': u'And a final one', 'path': 'foo'}, files={'image': SimpleUploadedFile('test4.png', image_data)}) >>> f.is_valid() True >>> instance = f.save() >>> instance.image <...FieldFile: foo/test4.png> >>> instance.delete() # Media on a ModelForm ######################################################## # Similar to a regular Form class you can define custom media to be used on # the ModelForm. >>> class ModelFormWithMedia(ModelForm): ... class Media: ... js = ('/some/form/javascript',) ... css = { ... 'all': ('/some/form/css',) ... } ... class Meta: ... model = PhoneNumber >>> f = ModelFormWithMedia() >>> print f.media >>> class CommaSeparatedIntegerForm(ModelForm): ... class Meta: ... model = CommaSeparatedInteger >>> f = CommaSeparatedIntegerForm().fields['field'] >>> f.clean('1,2,3') u'1,2,3' >>> f.clean('1a,2') Traceback (most recent call last): ... ValidationError: [u'Enter only digits separated by commas.'] >>> f.clean(',,,,') u',,,,' >>> f.clean('1.2') Traceback (most recent call last): ... ValidationError: [u'Enter only digits separated by commas.'] >>> f.clean('1,a,2') Traceback (most recent call last): ... ValidationError: [u'Enter only digits separated by commas.'] >>> f.clean('1,,2') u'1,,2' >>> f.clean('1') u'1' # unique/unique_together validation >>> class ProductForm(ModelForm): ... class Meta: ... model = Product >>> form = ProductForm({'slug': 'teddy-bear-blue'}) >>> form.is_valid() True >>> obj = form.save() >>> obj >>> form = ProductForm({'slug': 'teddy-bear-blue'}) >>> form.is_valid() False >>> form._errors {'slug': [u'Product with this Slug already exists.']} >>> form = ProductForm({'slug': 'teddy-bear-blue'}, instance=obj) >>> form.is_valid() True # ModelForm test of unique_together constraint >>> class PriceForm(ModelForm): ... class Meta: ... model = Price >>> form = PriceForm({'price': '6.00', 'quantity': '1'}) >>> form.is_valid() True >>> form.save() >>> form = PriceForm({'price': '6.00', 'quantity': '1'}) >>> form.is_valid() False >>> form._errors {'__all__': [u'Price with this Price and Quantity already exists.']} >>> class PriceForm(ModelForm): ... class Meta: ... model = Price ... exclude = ('quantity',) >>> form = PriceForm({'price': '6.00'}) >>> form.is_valid() True # Unique & unique together with null values >>> class BookForm(ModelForm): ... class Meta: ... model = Book >>> w = Writer.objects.get(name='Mike Royko') >>> form = BookForm({'title': 'I May Be Wrong But I Doubt It', 'author' : w.pk}) >>> form.is_valid() True >>> form.save() >>> form = BookForm({'title': 'I May Be Wrong But I Doubt It', 'author' : w.pk}) >>> form.is_valid() False >>> form._errors {'__all__': [u'Book with this Title and Author already exists.']} >>> form = BookForm({'title': 'I May Be Wrong But I Doubt It'}) >>> form.is_valid() True >>> form.save() >>> form = BookForm({'title': 'I May Be Wrong But I Doubt It'}) >>> form.is_valid() True # Test for primary_key being in the form and failing validation. >>> class ExplicitPKForm(ModelForm): ... class Meta: ... model = ExplicitPK ... fields = ('key', 'desc',) >>> form = ExplicitPKForm({'key': u'', 'desc': u'' }) >>> form.is_valid() False # Ensure keys and blank character strings are tested for uniqueness. >>> form = ExplicitPKForm({'key': u'key1', 'desc': u''}) >>> form.is_valid() True >>> form.save() >>> form = ExplicitPKForm({'key': u'key1', 'desc': u''}) >>> form.is_valid() False >>> form.errors {'__all__': [u'Explicit pk with this Key and Desc already exists.'], 'key': [u'Explicit pk with this Key already exists.'], 'desc': [u'Explicit pk with this Desc already exists.']} # Choices on CharField and IntegerField >>> class ArticleForm(ModelForm): ... class Meta: ... model = Article >>> f = ArticleForm() >>> f.fields['status'].clean('42') Traceback (most recent call last): ... ValidationError: [u'Select a valid choice. 42 is not one of the available choices.'] >>> class ArticleStatusForm(ModelForm): ... class Meta: ... model = ArticleStatus >>> f = ArticleStatusForm() >>> f.fields['status'].clean('z') Traceback (most recent call last): ... ValidationError: [u'Select a valid choice. z is not one of the available choices.'] # Foreign keys which use to_field ############################################# >>> apple = Inventory.objects.create(barcode=86, name='Apple') >>> pear = Inventory.objects.create(barcode=22, name='Pear') >>> core = Inventory.objects.create(barcode=87, name='Core', parent=apple) >>> field = ModelChoiceField(Inventory.objects.all(), to_field_name='barcode') >>> for choice in field.choices: ... print choice (u'', u'---------') (86, u'Apple') (22, u'Pear') (87, u'Core') >>> class InventoryForm(ModelForm): ... class Meta: ... model = Inventory >>> form = InventoryForm(instance=core) >>> print form['parent'] >>> data = model_to_dict(core) >>> data['parent'] = '22' >>> form = InventoryForm(data=data, instance=core) >>> core = form.save() >>> core.parent # Clean up >>> import shutil >>> shutil.rmtree(temp_storage_dir) """}