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from collections import namedtuple | |
def convert(dictionary): | |
return namedtuple('GenericDict', dictionary.keys())(**dictionary) | |
""" | |
>>> d = dictionary(a=1, b='b', c=[3]) | |
>>> named = convert(d) | |
>>> named.a == d.a | |
True | |
>>> named.b == d.b | |
True | |
>>> named.c == d.c | |
True | |
""" |
I added support for list values to suganthsundar's solution:
def convert(dictionary):
for key, value in dictionary.items():
if isinstance(value, dict):
dictionary[key] = convert(value)
if isinstance(value, list):
dictionary[key] = [convert(i) for i in value]
return namedtuple('GenericDict', dictionary.keys())(**dictionary)
Above code breaks if the item of the list is not a dictionary. Modifying the code as following, which should work for most of the cases:
from collections import namedtuple
def convert(obj):
if isinstance(obj, dict):
for key, value in obj.iteritems():
obj[key] = convert(value)
return namedtuple('GenericDict', obj.keys())(**obj)
elif isinstance(obj, list):
return [convert(item) for item in obj]
else:
return obj
Thanks for this!
@JinghongHuang The snippet you posted above has bad performance because it creates many GenericDict
classes recursively and in python these classes are never garbage recycled so it will memory leaks!
Anyone interested in this should also check out the dotmap
package / alternatives to that package
I wrote up this [1] implementation a little while ago. Stumbled upon this thread. From the namedtuple_fmt
module, the serialize
function accepts a dictionary (e.g. from a json.load
call) and will convert to an instance of the given namedtuple
-deriving type. Likewise, deserialize
will convert any namedtuple
-deriving type into a dictionary-l object. These functions also work on any list
-like type: List
and Tuple
are process-able.
E.g.
import json
from typing import Sequence
from namedtuple_fmt import serialize, deserialize
X = NamedTuple('X', [('msg',str)])
json_str="""{"msg": "This is the first message"}"""
first_msg = deserialize(json.loads(json_str), X)
print(first_msg.msg)
print(deserialize(serialize(first_msg)) == X("This is the first message"))
print(deserialize(json.loads(json.dumps(serialize(first_msg)))) == X("This is the first message"))
json_str="""[{"msg": "This is the first message"},{"msg": "This is the 2nd message"}]"""
messages = deserialize(json.loads(json_str), Sequence[X])
print(f"{len(messages)} messages")
print('\n'.join(map(lambda x: x.msg, messages))
Implementation note: There are explicit type checks for the Sequence
types. It's important to not mess-up when it comes to handling str
and tuple
. A first draft of this idea incorrectly did for _ in X
when trying to "test" if something was list
-like. This idea, unfortunately, will iterate over characters in a str
or elements in a tuple
. We want the tuple
-iterating part, but not when it comes to a NamedTuple
(or namedtuple
)!
[1] https://gist.github.com/malcolmgreaves/d71ae1f09075812e54d8ec54a5613616
This approach is likely to be error prone because python dictionaries aren't ordered but namedtuple is ordered. You could get different positions in the tuple for different fields from run to run.
For example, this program (when using Python 3.4.X) occasionally throws an error. Run it a few times to reproduce it.
The error looks like this: