I have model Foo which has field bar. The bar field should be unique, but allow nulls in it, meaning I want to allow more than one record if bar field is null, but if it is not null the values must be unique.
Here is my model:
class Foo(models.Model):
name = models.CharField(max_length=40)
bar = models.CharField(max_length=40, unique=True, blank=True, null=True, default=None)
And here is the corresponding SQL for the table:
CREATE TABLE appl_foo
(
id serial NOT NULL,
"name" character varying(40) NOT NULL,
bar character varying(40),
CONSTRAINT appl_foo_pkey PRIMARY KEY (id),
CONSTRAINT appl_foo_bar_key UNIQUE (bar)
)
When using admin interface to create more than 1 foo objects where bar is null it gives me an error: "Foo with this Bar already exists."
However when I insert into database (PostgreSQL):
insert into appl_foo ("name", bar) values ('test1', null)
insert into appl_foo ("name", bar) values ('test2', null)
This works, just fine, it allows me to insert more than 1 record with bar being null, so the database allows me to do what I want, it's just something wrong with the Django model. Any ideas?
EDIT
The portability of the solution as far as DB is not an issue, we are happy with Postgres.
I've tried setting unique to a callable, which was my function returning True/False for specific values of bar, it didn't give any errors, however seamed like it had no effect at all.
So far, I've removed the unique specifier from the bar property and handling the bar uniqueness in the application, however still looking for a more elegant solution. Any recommendations?
Django has not considered NULL to be equal to NULL for the purpose of uniqueness checks since ticket #9039 was fixed, see:
http://code.djangoproject.com/ticket/9039
The issue here is that the normalized "blank" value for a form CharField is an empty string, not None. So if you leave the field blank, you get an empty string, not NULL, stored in the DB. Empty strings are equal to empty strings for uniqueness checks, under both Django and database rules.
You can force the admin interface to store NULL for an empty string by providing your own customized model form for Foo with a clean_bar method that turns the empty string into None:
class FooForm(forms.ModelForm):
class Meta:
model = Foo
def clean_bar(self):
return self.cleaned_data['bar'] or None
class FooAdmin(admin.ModelAdmin):
form = FooForm
** edit 11/30/2015: In python 3, the module-global __metaclass__ variable is no longer supported.
Additionaly, as of Django 1.10 the SubfieldBase class was deprecated:
from the docs:
django.db.models.fields.subclassing.SubfieldBase has been deprecated and will be removed in Django 1.10.
Historically, it was used to handle fields where type conversion was needed when loading from the database,
but it was not used in .values() calls or in aggregates. It has been replaced with from_db_value().
Note that the new approach does not call the to_python() method on assignment as was the case with SubfieldBase.
Therefore, as suggested by the from_db_value() documentation and this example, this solution must be changed to:
class CharNullField(models.CharField):
"""
Subclass of the CharField that allows empty strings to be stored as NULL.
"""
description = "CharField that stores NULL but returns ''."
def from_db_value(self, value, expression, connection, contex):
"""
Gets value right out of the db and changes it if its ``None``.
"""
if value is None:
return ''
else:
return value
def to_python(self, value):
"""
Gets value right out of the db or an instance, and changes it if its ``None``.
"""
if isinstance(value, models.CharField):
# If an instance, just return the instance.
return value
if value is None:
# If db has NULL, convert it to ''.
return ''
# Otherwise, just return the value.
return value
def get_prep_value(self, value):
"""
Catches value right before sending to db.
"""
if value == '':
# If Django tries to save an empty string, send the db None (NULL).
return None
else:
# Otherwise, just pass the value.
return value
I think a better way than overriding the cleaned_data in the admin would be to subclass the charfield - this way no matter what form accesses the field, it will "just work." You can catch the '' just before it is sent to the database, and catch the NULL just after it comes out of the database, and the rest of Django won't know/care. A quick and dirty example:
from django.db import models
class CharNullField(models.CharField): # subclass the CharField
description = "CharField that stores NULL but returns ''"
__metaclass__ = models.SubfieldBase # this ensures to_python will be called
def to_python(self, value):
# this is the value right out of the db, or an instance
# if an instance, just return the instance
if isinstance(value, models.CharField):
return value
if value is None: # if the db has a NULL (None in Python)
return '' # convert it into an empty string
else:
return value # otherwise, just return the value
def get_prep_value(self, value): # catches value right before sending to db
if value == '':
# if Django tries to save an empty string, send the db None (NULL)
return None
else:
# otherwise, just pass the value
return value
For my project, I dumped this into an extras.py file that lives in the root of my site, then I can just from mysite.extras import CharNullField in my app's models.py file. The field acts just like a CharField - just remember to set blank=True, null=True when declaring the field, or otherwise Django will throw a validation error (field required) or create a db column that doesn't accept NULL.
You can add UniqueConstraint with condition of nullable_field=null and not to include this field in fields list.
If you need also constraint with nullable_field wich value is not null, you can add additional one.
Note: UniqueConstraint was added since django 2.2
class Foo(models.Model):
name = models.CharField(max_length=40)
bar = models.CharField(max_length=40, unique=True, blank=True, null=True, default=None)
class Meta:
constraints = [
# For bar == null only
models.UniqueConstraint(fields=['name'], name='unique__name__when__bar__null',
condition=Q(bar__isnull=True)),
# For bar != null only
models.UniqueConstraint(fields=['name', 'bar'], name='unique__name__when__bar__not_null')
]
Because I am new to stackoverflow I am not yet allowed to reply to answers, but I would like to point out that from a philosophical point of view, I can't agree with the most popular answer tot this question. (by Karen Tracey)
The OP requires his bar field to be unique if it has a value, and null otherwise. Then it must be that the model itself makes sure this is the case. It cannot be left to external code to check this, because that would mean it can be bypassed. (Or you can forget to check it if you write a new view in the future)
Therefore, to keep your code truly OOP, you must use an internal method of your Foo model. Modifying the save() method or the field are good options, but using a form to do this most certainly isn't.
Personally I prefer using the CharNullField suggested, for portability to models I might define in the future.
The quick fix is to do :
def save(self, *args, **kwargs):
if not self.bar:
self.bar = None
super(Foo, self).save(*args, **kwargs)
This is fixed now that https://code.djangoproject.com/ticket/4136 is resolved. In Django 1.11+ you can use models.CharField(unique=True, null=True, blank=True) without having to manually convert blank values to None.
Another possible solution
class Foo(models.Model):
value = models.CharField(max_length=255, unique=True)
class Bar(models.Model):
foo = models.OneToOneField(Foo, null=True)
I recently had the same requirement. Instead of subclassing different fields, I chose to override the save() metod on my model (named 'MyModel' below) as follows:
def save(self):
"""overriding save method so that we can save Null to database, instead of empty string (project requirement)"""
# get a list of all model fields (i.e. self._meta.fields)...
emptystringfields = [ field for field in self._meta.fields \
# ...that are of type CharField or Textfield...
if ((type(field) == django.db.models.fields.CharField) or (type(field) == django.db.models.fields.TextField)) \
# ...and that contain the empty string
and (getattr(self, field.name) == "") ]
# set each of these fields to None (which tells Django to save Null)
for field in emptystringfields:
setattr(self, field.name, None)
# call the super.save() method
super(MyModel, self).save()
If you have a model MyModel and want my_field to be Null or unique, you can override model's save method:
class MyModel(models.Model):
my_field = models.TextField(unique=True, default=None, null=True, blank=True)
def save(self, **kwargs):
self.my_field = self.my_field or None
super().save(**kwargs)
This way, the field cannot be blank will only be non-blank or null. nulls do not contradict uniqueness
For better or worse, Django considers NULL to be equivalent to NULL for purposes of uniqueness checks. There's really no way around it short of writing your own implementation of the uniqueness check which considers NULL to be unique no matter how many times it occurs in a table.
(and keep in mind that some DB solutions take the same view of NULL, so code relying on one DB's ideas about NULL may not be portable to others)
Related
I'm using Django 1.8.4 in my dev machine using Sqlite and I have these models:
class ModelA(Model):
field_a = CharField(verbose_name='a', max_length=20)
field_b = CharField(verbose_name='b', max_length=20)
class Meta:
unique_together = ('field_a', 'field_b',)
class ModelB(Model):
field_c = CharField(verbose_name='c', max_length=20)
field_d = ForeignKey(ModelA, verbose_name='d', null=True, blank=True)
class Meta:
unique_together = ('field_c', 'field_d',)
I've run proper migration and registered them in the Django Admin. So, using the Admin I've done this tests:
I'm able to create ModelA records and Django prohibits me from creating duplicate records - as expected!
I'm not able to create identical ModelB records when field_b is not empty
But, I'm able to create identical ModelB records, when using field_d as empty
My question is: How do I apply unique_together for nullable ForeignKey?
The most recent answer I found for this problem has 5 year... I do think Django have evolved and the issue may not be the same.
Django 2.2 added a new constraints API which makes addressing this case much easier within the database.
You will need two constraints:
The existing tuple constraint; and
The remaining keys minus the nullable key, with a condition
If you have multiple nullable fields, I guess you will need to handle the permutations.
Here's an example with a thruple of fields that must be all unique, where only one NULL is permitted:
from django.db import models
from django.db.models import Q
from django.db.models.constraints import UniqueConstraint
class Badger(models.Model):
required = models.ForeignKey(Required, ...)
optional = models.ForeignKey(Optional, null=True, ...)
key = models.CharField(db_index=True, ...)
class Meta:
constraints = [
UniqueConstraint(fields=['required', 'optional', 'key'],
name='unique_with_optional'),
UniqueConstraint(fields=['required', 'key'],
condition=Q(optional=None),
name='unique_without_optional'),
]
UPDATE: previous version of my answer was functional but had bad design, this one takes in account some of the comments and other answers.
In SQL NULL does not equal NULL. This means if you have two objects where field_d == None and field_c == "somestring" they are not equal, so you can create both.
You can override Model.clean to add your check:
class ModelB(Model):
#...
def validate_unique(self, exclude=None):
if ModelB.objects.exclude(id=self.id).filter(field_c=self.field_c, \
field_d__isnull=True).exists():
raise ValidationError("Duplicate ModelB")
super(ModelB, self).validate_unique(exclude)
If used outside of forms you have to call full_clean or validate_unique.
Take care to handle the race condition though.
#ivan, I don't think that there's a simple way for django to manage this situation. You need to think of all creation and update operations that don't always come from a form. Also, you should think of race conditions...
And because you don't force this logic on DB level, it's possible that there actually will be doubled records and you should check it while querying results.
And about your solution, it can be good for form, but I don't expect that save method can raise ValidationError.
If it's possible then it's better to delegate this logic to DB. In this particular case, you can use two partial indexes. There's a similar question on StackOverflow - Create unique constraint with null columns
So you can create Django migration, that adds two partial indexes to your DB
Example:
# Assume that app name is just `example`
CREATE_TWO_PARTIAL_INDEX = """
CREATE UNIQUE INDEX model_b_2col_uni_idx ON example_model_b (field_c, field_d)
WHERE field_d IS NOT NULL;
CREATE UNIQUE INDEX model_b_1col_uni_idx ON example_model_b (field_c)
WHERE field_d IS NULL;
"""
DROP_TWO_PARTIAL_INDEX = """
DROP INDEX model_b_2col_uni_idx;
DROP INDEX model_b_1col_uni_idx;
"""
class Migration(migrations.Migration):
dependencies = [
('example', 'PREVIOUS MIGRATION NAME'),
]
operations = [
migrations.RunSQL(CREATE_TWO_PARTIAL_INDEX, DROP_TWO_PARTIAL_INDEX)
]
Add a clean method to your model - see below:
def clean(self):
if Variants.objects.filter("""Your filter """).exclude(pk=self.pk).exists():
raise ValidationError("This variation is duplicated.")
I think this is more clear way to do that for Django 1.2+
In forms it will be raised as non_field_error with no 500 error, in other cases, like DRF you have to check this case manual, because it will be 500 error.
But it will always check for unique_together!
class BaseModelExt(models.Model):
is_cleaned = False
def clean(self):
for field_tuple in self._meta.unique_together[:]:
unique_filter = {}
unique_fields = []
null_found = False
for field_name in field_tuple:
field_value = getattr(self, field_name)
if getattr(self, field_name) is None:
unique_filter['%s__isnull' % field_name] = True
null_found = True
else:
unique_filter['%s' % field_name] = field_value
unique_fields.append(field_name)
if null_found:
unique_queryset = self.__class__.objects.filter(**unique_filter)
if self.pk:
unique_queryset = unique_queryset.exclude(pk=self.pk)
if unique_queryset.exists():
msg = self.unique_error_message(self.__class__, tuple(unique_fields))
raise ValidationError(msg)
self.is_cleaned = True
def save(self, *args, **kwargs):
if not self.is_cleaned:
self.clean()
super().save(*args, **kwargs)
One possible workaround not mentioned yet is to create a dummy ModelA object to serve as your NULL value. Then you can rely on the database to enforce the uniqueness constraint.
I need to limit the choices in a Django Admin form but cannot come up with a solution. Given these models:
class ProductFamily(models.Model):
name = models.CharField(max_length=250)
default_product_to_display = models.OneToOneField('Product', limit_choices_to={'product_family': ??????})
# Enclosing Product reference in quotes is necessary since the Product declaration is below ProductFamily declaration
class Product(models.Model):
name = models.CharField(max_length=250)
image = models.ImageField(upload_to='images/',blank=True,null=True)
product_family = models.ForeignKey(ProductFamily)
What should be placed in the ??????'s in class ProductFamily? I've tried everything I can think of including name, 'name' ProductFamily, 'Product Family', self, self.id. The options with self return an Internal Server Error. The quoted options return: 'invalid literal for int()'. When "name" is used unquoted, it returns:
int() argument must be a string or a number, not 'CharField'.
If I put a hard-coded integer value in to test it, then it works fine, so it is obviously looking for an integer value.
I also tried, without success, placing both
id = models.AutoField(primary_key=True)
in the declaration with id at the ??????'s as well as defining a function that returns self.id, but none of this works.
So - how do I limit the selection of products by showing only those whose product_family id's match those of the current ProductFamily?
The best way to do this is to use a custom form to limit the queryset of the field, as trying to set limit_choices_to dynamically is super tough, if not completely impractical.
Example:
class ProductFamilyForm(forms.ModelForm):
def __init__(self *args, **kwargs):
if 'initial' in kwargs:
self.fields['default_product_to_display'].queryset = Product.objects.filter(
product_family=initial.product_family)
I am learning Django,looked into django validation but the below type i want.searched in google no result.
In my app,their are two character fields,i want it to be validate so that the conditons are,
1.Either any one of the field is entered.
2.It should validate the entered data are integer.
that means,both fields are not mandatory,but any one is mandatory and that mandatory field should accept number only.
How to do it in django.
class MyForm(forms.Form):
field_one = forms.IntegerField(required=False)
field_two = forms.IntegerField(required=False)
def clean(self):
cleaned_data = self.cleaned_data
field_one = cleaned_data.get('field_one')
field_two = cleaned_data.get('field_two')
if not any([field_one, field_two]):
raise forms.ValidationError(u'Please enter a value')
return cleaned_data
Using an IntegerField will validate that only numeric characters are
present, covering your blank space use case.
Specifying required=False on both fields allows either field to be left blank.
Implementing clean() on the form gets you access to both fields.
.get() will return None if the key isn't found, so the use of
any([field_one, field_two]) will return true if at least one of the
values in the list isn't None. If neither value is found, the
ValidationError will be raised.
Hope that helps you out.
I am trying to create a custom cleaning method which look in the db if the value of one specific data exists already and if yes raises an error.
I'm using a model form of a class (subsystem) who is inheriting from an other class (project).
I want to check if the sybsystem already exists or not when i try to add a new one in a form.
I get project name in my view function.
class SubsytemForm(forms.ModelForm):
class Meta:
model = Subsystem
exclude = ('project_name')
def clean(self,project_name):
cleaned_data = super(SubsytemForm, self).clean(self,project_name)
form_subsystem_name = cleaned_data.get("subsystem_name")
Subsystem.objects.filter(project__project_name=project_name)
subsystem_objects=Subsystem.objects.filter(project__project_name=project_name)
nb_subsystem = subsystem_objects.count()
for i in range (nb_subsystem):
if (subsystem_objects[i].subsystem_name==form_subsystem_name):
msg = u"Subsystem already existing"
self._errors["subsystem_name"] = self.error_class([msg])
# These fields are no longer valid. Remove them from the
# cleaned data.
del cleaned_data["subsystem_name"]
return cleaned_data
My view function :
def addform(request,project_name):
if form.is_valid():
form=form.save(commit=False)
form.project_id=Project.objects.get(project_name=project_name).id
form.clean(form,project_name)
form.save()
This is not working and i don't know how to do.
I have the error : clean() takes exactly 2 arguments (1 given)
My model :
class Project(models.Model):
project_name = models.CharField("Project name", max_length=20)
Class Subsystem(models.Model):
subsystem_name = models.Charfield("Subsystem name", max_length=20)
projects = models.ForeignKey(Project)
There are quite a few things wrong with this code.
Firstly, you're not supposed to call clean explicitly. Django does it for you automatically when you call form.is_valid(). And because it's done automatically, you can't pass extra arguments. You need to pass the argument in when you instantiate the form, and keep it as an instance variable which your clean code can reference.
Secondly, the code is actually only validating a single field. So it should be done in a specific clean_fieldname method - ie clean_subsystem_name. That avoids the need for mucking about with _errors and deleting the unwanted data at the end.
Thirdly, if you ever find yourself getting a count of something, iterating through a range, then using that index to point back into the original list, you're doing it wrong. In Python, you should always iterate through the actual thing - in this case, the queryset - that you're interested in. However, in this case that is irrelevant anyway as you should query for the actual name directly in the database and check if it exists, rather than iterating through checking for matches.
So, putting it all together:
class SubsytemForm(forms.ModelForm):
class Meta:
model = Subsystem
exclude = ('project_name')
def __init__(self, *args, **kwargs):
self.project_name = kwargs.pop('project_name', None)
super(SubsystemForm, self).__init__(*args, **kwargs)
def clean_subsystem_name(self):
form_subsystem_name = self.cleaned_data.get("subsystem_name")
existing = Subsystem.objects.filter(
project__project_name=self.project_name,
subsytem_name=form_subsystem_name
).exists()
if existing:
raise forms.ValidationError(u"Subsystem already existing")
return form_subsystem_name
When you do form=form.save(commit=False) you store a Subsystem instance in the variable form but the clean method is defined in SubsystemForm. Isn't it?
I'm trying to write an internal API in my application without necessarily coupling it with the database.
class Product(models.Model):
name=models.CharField(max_length=4000)
price=models.IntegerField(default=-1)
currency=models.CharField(max_length=3, default='INR')
class Image(models.Model):
# NOTE -- Have changed the table name to products_images
width=models.IntegerField(default=-1)
height=models.IntegerField(default=-1)
url=models.URLField(max_length=1000, verify_exists=False)
product=models.ForeignKey(Product)
def create_product:
p=Product()
i=Image(height=100, widght=100, url='http://something/something')
p.image_set.add(i)
return p
Now, when I call create_product() Django throws up an error:
IntegrityError: products_images.product_id may not be NULL
However, if I call p.save() & i.save() before calling p.image_set.add(i) it works. Is there any way that I can add objects to a related object set without saving both to the DB first?
def create_product():
product_obj = Product.objects.create(name='Foobar')
image_obj = Image.objects.create(height=100, widght=100, url='http://something/something', product=product_obj)
return product_obj
Explanation:
Product object has to be created first and then assign it to the Image object because id and name here is required field.
I am wondering why wouldn't you not require to make a product entry in DB in first case? If there is any specific reason then i may suggest you some work around?
EDIT: Okay! i think i got you, you don't want to assign a product to an image object initially. How about creating a product field as null is equal to true.
product = models.ForeignKey(Product, null=True)
Now, your function becomes something like this:
def create_product():
image_obj = Image.objects.create(height=100, widght=100, url='http://something/something')
return image_obj
Hope it helps you?
I got same issue with #Saurabh Nanda
I am using Django 1.4.2. When I read in django, i see that
# file django/db/models/fields/related.py
def get_query_set(self):
try:
return self.instance._prefetched_objects_cache[rel_field.related_query_name()]
except (AttributeError, KeyError):
db = self._db or router.db_for_read(self.model, instance=self.instance)
return super(RelatedManager,self).get_query_set().using(db).filter(**self.core_filters)
# file django/db/models/query.py
qs = getattr(obj, attname).all()
qs._result_cache = vals
# We don't want the individual qs doing prefetch_related now, since we
# have merged this into the current work.
qs._prefetch_done = True
obj._prefetched_objects_cache[cache_name] = qs
That 's make sese, we only need to set property _prefetched_objects_cache for the object.
p = Product()
image_cached = []
for i in xrange(100):
image=Image(height=100, widght=100, url='http://something/something')
image_cached.append(image)
qs = p.images.all()
qs._result_cache = image_cached
qs._prefetch_done = True
p._prefetched_objects_cache = {'images': qs}
Your problem is that the id isn't set by django, but by the database (it's represented in the database by an auto-incremented field), so until it's saved there's no id. More about this in the documentation.
I can think of three possible solutions:
Set a different field of your Image model as the primary key (documented here).
Set a different field of your Production model as the foreign key (documented here).
Use django's database transactions API (documented here).