""" This example/recipe has been contributed by Valentino Volonghi (dialtone) Mapping arbitrary objects to a PostgreSQL database with psycopg2 - Problem You need to store arbitrary objects in a PostgreSQL database without being intrusive for your classes (don't want inheritance from an 'Item' or 'Persistent' object). - Solution """ from datetime import datetime import psycopg2 from psycopg2.extensions import adapt, register_adapter # Here is the adapter for every object that we may ever need to # insert in the database. It receives the original object and does # its job on that instance class ObjectMapper(object): def __init__(self, orig, curs=None): self.orig = orig self.tmp = {} self.items, self.fields = self._gatherState() def _gatherState(self): adaptee_name = self.orig.__class__.__name__ fields = sorted([(field, getattr(self.orig, field)) for field in persistent_fields[adaptee_name]]) items = [] for item, value in fields: items.append(item) return items, fields def getTableName(self): return self.orig.__class__.__name__ def getMappedValues(self): tmp = [] for i in self.items: tmp.append("%%(%s)s"%i) return ", ".join(tmp) def getValuesDict(self): return dict(self.fields) def getFields(self): return self.items def generateInsert(self): qry = "INSERT INTO" qry += " " + self.getTableName() + " (" qry += ", ".join(self.getFields()) + ") VALUES (" qry += self.getMappedValues() + ")" return qry, self.getValuesDict() # Here are the objects class Album(object): id = 0 def __init__(self): self.creation_time = datetime.now() self.album_id = self.id Album.id = Album.id + 1 self.binary_data = buffer('12312312312121') class Order(object): id = 0 def __init__(self): self.items = ['rice','chocolate'] self.price = 34 self.order_id = self.id Order.id = Order.id + 1 register_adapter(Album, ObjectMapper) register_adapter(Order, ObjectMapper) # Describe what is needed to save on each object # This is actually just configuration, you can use xml with a parser if you # like to have plenty of wasted CPU cycles ;P. persistent_fields = {'Album': ['album_id', 'creation_time', 'binary_data'], 'Order': ['order_id', 'items', 'price'] } print(adapt(Album()).generateInsert()) print(adapt(Album()).generateInsert()) print(adapt(Album()).generateInsert()) print(adapt(Order()).generateInsert()) print(adapt(Order()).generateInsert()) print(adapt(Order()).generateInsert()) """ - Discussion Psycopg 2 has a great new feature: adaptation. The big thing about adaptation is that it enables the programmer to glue most of the code out there without many difficulties. This recipe tries to focus attention on a way to generate SQL queries to insert completely new objects inside a database. As you can see objects do not know anything about the code that is handling them. We specify all the fields that we need for each object through the persistent_fields dict. The most important lines of this recipe are: register_adapter(Album, ObjectMapper) register_adapter(Order, ObjectMapper) In these lines we notify the system that when we call adapt with an Album instance as an argument we want it to istantiate ObjectMapper passing the Album instance as argument (self.orig in the ObjectMapper class). The output is something like this (for each call to generateInsert): ('INSERT INTO Album (album_id, binary_data, creation_time) VALUES (%(album_id)s, %(binary_data)s, %(creation_time)s)', {'binary_data': , 'creation_time': datetime.datetime(2004, 9, 10, 20, 48, 29, 633728), 'album_id': 1} ) This is a tuple of {SQL_QUERY, FILLING_DICT}, and all the quoting/converting stuff (from python's datetime to postgres s and from python's buffer to postgres' blob) is handled with the same adaptation process hunder the hood by psycopg2. At last, just notice that ObjectMapper is working for both Album and Order instances without any glitches at all, and both classes could have easily been coming from closed source libraries or C coded ones (which are not easily modified), whereas a common pattern in todays ORMs or OODBs is to provide a basic 'Persistent' object that already knows how to store itself in the database. """