""" Convenience routines for creating non-trivial Field subclasses, as well as backwards compatibility utilities. Add SubfieldBase as the __metaclass__ for your Field subclass, implement to_python() and the other necessary methods and everything will work seamlessly. """ from inspect import getargspec from warnings import warn def call_with_connection(func): arg_names, varargs, varkwargs, defaults = getargspec(func) updated = ('connection' in arg_names or varkwargs) if not updated: warn("A Field class whose %s method hasn't been updated to take a " "`connection` argument." % func.__name__, PendingDeprecationWarning, stacklevel=2) def inner(*args, **kwargs): if 'connection' not in kwargs: from django.db import connection kwargs['connection'] = connection warn("%s has been called without providing a connection argument. " % func.__name__, PendingDeprecationWarning, stacklevel=1) if updated: return func(*args, **kwargs) if 'connection' in kwargs: del kwargs['connection'] return func(*args, **kwargs) return inner def call_with_connection_and_prepared(func): arg_names, varargs, varkwargs, defaults = getargspec(func) updated = ( ('connection' in arg_names or varkwargs) and ('prepared' in arg_names or varkwargs) ) if not updated: warn("A Field class whose %s method hasn't been updated to take " "`connection` and `prepared` arguments." % func.__name__, PendingDeprecationWarning, stacklevel=2) def inner(*args, **kwargs): if 'connection' not in kwargs: from django.db import connection kwargs['connection'] = connection warn("%s has been called without providing a connection argument. " % func.__name__, PendingDeprecationWarning, stacklevel=1) if updated: return func(*args, **kwargs) if 'connection' in kwargs: del kwargs['connection'] if 'prepared' in kwargs: del kwargs['prepared'] return func(*args, **kwargs) return inner class LegacyConnection(type): """ A metaclass to normalize arguments give to the get_db_prep_* and db_type methods on fields. """ def __new__(cls, name, bases, attrs): new_cls = super(LegacyConnection, cls).__new__(cls, name, bases, attrs) for attr in ('db_type', 'get_db_prep_save'): setattr(new_cls, attr, call_with_connection(getattr(new_cls, attr))) for attr in ('get_db_prep_lookup', 'get_db_prep_value'): setattr(new_cls, attr, call_with_connection_and_prepared(getattr(new_cls, attr))) return new_cls class SubfieldBase(LegacyConnection): """ A metaclass for custom Field subclasses. This ensures the model's attribute has the descriptor protocol attached to it. """ def __new__(cls, name, bases, attrs): new_class = super(SubfieldBase, cls).__new__(cls, name, bases, attrs) new_class.contribute_to_class = make_contrib( new_class, attrs.get('contribute_to_class') ) return new_class class Creator(object): """ A placeholder class that provides a way to set the attribute on the model. """ def __init__(self, field): self.field = field def __get__(self, obj, type=None): if obj is None: raise AttributeError('Can only be accessed via an instance.') return obj.__dict__[self.field.name] def __set__(self, obj, value): obj.__dict__[self.field.name] = self.field.to_python(value) def make_contrib(superclass, func=None): """ Returns a suitable contribute_to_class() method for the Field subclass. If 'func' is passed in, it is the existing contribute_to_class() method on the subclass and it is called before anything else. It is assumed in this case that the existing contribute_to_class() calls all the necessary superclass methods. """ def contribute_to_class(self, cls, name): if func: func(self, cls, name) else: super(superclass, self).contribute_to_class(cls, name) setattr(cls, self.name, Creator(self)) return contribute_to_class