update I have now figured that there is a reason to define
get_prep_value() and that doing so improves Django's use of the field. I have also been able to get rid of the wrapper class. All this has, finally, enabled me to also eliminate the
__getattribute__ implementation with the data model, which was annoying. So, apart from Django callingto_python()` super often, I'm now fine as far as I can see. /update
One morning, you wake up and find yourself using Django 1.4.2 along with DjangoRESTFramework 2.1.2 on Python 2.6.8. And hey, things could definitely be worse. This Django admin magic provides you with forms for your easily specified relational data model, making it a pleasure to maintain the editorial part of your database. Your business logic behind the RESTful URLs accesses both the editorial data and specific database tables for their needs, and even those are displayed in the Django admin, partially because it's easily done and nice to have, partially because some automatically generated records require a mini workflow.
But wait. You still haven't implemented those binary fields as BINARY. They're VARCHARS. You had put that on your ToDo list for later. And later is now.
Okay, there are those write-once-read-many-times cases with small table sizes where an optimization would not necessarily pay. But in another case, you're wasting both storage and performance due to freuquent INSERTs and DELETEs in a table which will get large.
So what would you want to have? A clear mapping between the DB and Django, where the DB stores BINARY and Django deals with hex strings of twice the length. Can't be that hard to achieve, can it?
You search the Web and find folks who want CHAR instead for VARCHAR, others who want BLOBs, and everybody seems to do it a bit differently. Finally, you end up at Writing custom model fields where the VARCHAR -> CHAR case is officially dealt with. So you decide to go with this information.
to_python(), you notice that
to_python() gets rarely called and add
__metaclass__ = models.SubfieldBase only to figure that Django now calls
to_python() even if it has done so before. The other suggestions on the page suddenly start to make more sense to you, so you're going to wrap your data in a class, such that you can protect it from repeated calls to
to_python(). You also follow the suggestion to
Put a __str__() or __unicode__() method on the class you're wrapping up as a field and implement
While the resulting code does not do what you expect, one thing you notice is that
get_prep_value() never gets called so far, so you're removing it for now. What you do figure is that Django consistently appears to get a
str from the DB and a
unicode from the admin, which is cool, and end up with something like this (boiled down to essentials, really).
class MyHexWrappeer(object): def __init__(self, hexstr): self.hexstr = hexstr def __len__(self): return len(self.hexstr) def __str__(self): return self.hexstr class MyHexField(models.CharField): __metaclass__ = models.SubfieldBase def __init__(self, max_length, *args, **kwargs): assert(max_length % 2 == 0) self.max_length = max_length super(MyHexField, self).__init__(max_length=max_length, *args, **kwargs) def db_type(self, connection): return 'binary(%s)' % (self.max_length // 2) def to_python(self, data): if isinstance(data, MyHexWrapper): # protect object return data if isinstance(data, str): # binary string from DB side return MyHexWrapper(binascii.b2a_hex(data)) if isinstance(data, unicode): # unicode hex string from admin return MyHexWrapper(data)
And... it won't work. The reason, of course, being that while you have found a reliable way to create
MyHexWrapper objects from all sources including Django itself, the path backwards is clearly missing. From the remark above, you were thinking that Django calls
unicode() for admin and
get_prep_value() in the direction of the DB. But if you add
get_prep_value() above, it will never be called, and there you are, stuck.
That can't be, right? So you're not willing to give up easily. And suddenly you get this one nasty thought, and you're making a test, and it works. And you don't know whether you should laugh or cry.
So now you try this modification, and, believe it or not, it just works.
class MyHexWrapper(object): def __init__(self, hexstr): self.hexstr = hexstr def __len__(self): return len(self.hexstr) def __str__(self): # called on its way to the DB return binascii.a2b_hex(self.hexstr) def __unicode__(self): # called on its way to the admin return self.hexstr
It just works? Well, if you use such a field in code, like for a RESTful URL, then you'll have to make sure you have the right kind of string; that's a matter of discipline.
But then, it still only works most of the time. Because when you make such a field your primary key, then Django will call
quote(getattr()) and while I found a source claiming that
getattr() "nowdays" will use
unicode() I can't confirm. But that's not a serious obstacle once you got this far, eh?
class MyModel((models.Model): myhex = MyHexField(max_length=32,primary_key=True,editable=False) # other fields def __getattribute__(self, name): if (name == 'myhex'): return unicode(super(MyModel, self).__getattribute__(name)) return super(MyModel, self).__getattribute__(name)
Works like a charm. However, now you lean back and look at your solution as a whole. And you can't help to figure that it's a diversion from the documentation you referred to, that it uses undocumented or internal behavioural characteristics which you did not intend to, and that it is error-prone and shows poor usability for the developer due to the somewhat distributed nature of what you have to implement and obey.
So how can the objective be achieved in a cleaner way? Is there another level with hooks and magic in Django where this mapping should be located?
Thank you for your time.