Django-hstore is a niche library which integrates the hstore extension of PostgreSQL into Django, assuming one is using Django 1.2+, PostgreSQL 9.0+, and Psycopg 2.3+.
- Due to how Django implements its ORM, you will need to use the custom
postgresql_psycopg2backend defined in this package, which naturally will prevent you from dropping in other django extensions which require a custom backend (unless you fork and combine). - PostgreSQL's implementation of hstore has no concept of type; it stores a mapping of string keys to string values. This library makes no attempt to coerce keys or values to strings.
Assuming one has the dependencies installed as well as nose, and a PostgreSQL 9.0+ server up and running:
DB_USER=<username> HSTORE_SQL=<path-to-contrib/hstore.sql> ./runtests
First, update your settings module to specify the custom database backend:
DATABASES = {
'default': {
'ENGINE': 'django_hstore.postgresql_psycopg2',
...
}
}
Note to South users: If you keep getting errors like There is no South database module 'south.db.None' for your database., add the following to settings.py:
SOUTH_DATABASE_ADAPTERS = {'default': 'south.db.postgresql_psycopg2'}
The library provides three principal classes:
django_hstore.hstore.DictionaryField- An ORM field which stores a mapping of string key/value pairs in an hstore column.
django_hstore.hstore.ReferencesField- An ORM field which builds on DictionaryField to store a mapping of string keys to django object references, much like ForeignKey.
django_hstore.hstore.HStoreManager- An ORM manager which provides much of the query functionality of the library.
Model definition is straightforward:
from django.db import models
from django_hstore import hstore
class Something(models.Model):
name = models.CharField(max_length=32)
data = hstore.DictionaryField(db_index=True)
objects = hstore.HStoreManager()
def __unicode__(self):
return self.name
You then treat the data field as simply a dictionary of string pairs:
instance = Something.objects.create(name='something', data={'a': '1', 'b': '2'})
assert instance.data['a'] == '1'
empty = Something.objects.create(name='empty')
assert empty.data == {}
empty.data['a'] = '1'
empty.save()
assert Something.objects.get(name='something').data['a'] == '1'
You can issue indexed queries against hstore fields:
# equivalence
Something.objects.filter(data={'a': '1', 'b': '2'})
# subset by key/value mapping
Something.objects.filter(data__contains={'a': '1'})
# subset by list of keys
Something.objects.filter(data__contains=['a', 'b'])
# subset by single key
Something.objects.filter(data__contains='a')
You can also take advantage of some db-side functionality by using the manager:
# identify the keys present in an hstore field
>>> Something.objects.hkeys(id=instance.id, attr='data')
['a', 'b']
# peek at a a named value within an hstore field
>>> Something.objects.hpeek(id=instance.id, attr='data', key='a')
'1'
# do the same, after filter
>>> Something.objects.filter(id=instance.id).hpeek(attr='data', key='a')
'1'
# remove a key/value pair from an hstore field
>>> Something.objects.filter(name='something').hremove('data', 'b')
The hstore methods on manager pass all keyword arguments aside from attr and key
to .filter().