So you have a dictionary with string keys and values that can be numbers, nested dictionaries, lists, and you'd like to wrap that into an instance which lets you use attribute access in lieu of dict indexing, and "call with an index" in lieu of list indexing -- not sure what "strongly typed" has to do with this, or why you think
.features(0) is better than
.features (such a more natural way to index a list!), but, sure, it's feasible. For example, a simple approach might be:
# don't wrap strings
if isinstance(datum, basestring):
# don't wrap numbers, either
try: return datum + 0
except TypeError: pass
def __init__(self, data):
self._data = data
def __getattr__(self, n):
def __call__(self, n):
x = wrap(x['product']) should give you your wish (why you want to skip that level when your overall logic would obviously require
x.product.features(0).size, I have no idea, but clearly that skipping's better applied at the point of call rather than hard-coded in the wrapper class or the wrapper factory function I've just shown).
Edit: as the OP says he does want
features rather than
features(0), just change the last two lines to
def __getitem__(self, n):
__getitem__ (the magic method underlying indexing) instead of
__call__ (the magic method underlying instance-call).
The alternative to "an existing class" (here,
Fourie) would be to create a new class on the fly based on introspecting the wrapped dict -- feasible, too, but seriously dark-gray, if not actually black, magic, and without any real operational advantage that I can think of.
If the OP can clarify exactly why he may be hankering after the meta-programming peaks of creating classes on the fly, what advantage he believes he might be getting that way, etc, I'll show how to do it (and, probably, I'll also show why the craved-for advantage will not in fact be there;-). But simplicity is an important quality in any programming endeavor, and using "deep dark magic" when plain, straightforward code like the above works just fine, is generally not the best of ideas!-)