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I have a python set that contains objects with __hash__ and __eq__ methods in order to make certain no duplicates are included in the collection.

I need to json encode this result set, but passing even an empty set to the json.dumps method raises a TypeError

    File "/usr/lib/python2.7/json/", line 201, in encode
    chunks = self.iterencode(o, _one_shot=True)
  File "/usr/lib/python2.7/json/", line 264, in iterencode
    return _iterencode(o, 0)
  File "/usr/lib/python2.7/json/", line 178, in default
    raise TypeError(repr(o) + " is not JSON serializable")
TypeError: set([]) is not JSON serializable

I know I can create an extension to the json.JSONEncoder class that has a custom default method, but I'm not even sure where to begin in converting over the set. Should I create a dictionary out of the set values within the default method, and then return the encoding on that? Ideally, I'd like to make the default method able to handle all the datatypes that the original encoder chokes on (I'm using Mongo as a data source so dates seem to raise this error too)

Any hint in the right direction would be appreciated.


Thanks for the answer! Perhaps I should have been more precise.

I utilized (and upvoted) the answers here to get around the limitations of the set being translated, but their are internal keys that are an issue as well.

The objects in the set are complex objects that translate to __dict__, but they themselves can also contain values for their properties that could be ineligible for the basic types in the json encoder.

There's a lot of different types coming into this set, and the hash basically calculates an unique id for the entity, but in the true spirit of NoSQL there's no telling exactly what the child object contains.

One object might contain a date value for starts, whereas another may have some other schema that includes no keys containing "non-prmitive" objects.

That is why the only solution I could think of was to extend the JSONEncoder to replace the default method to turn on different cases - but I'm not sure how to go about this and the documentation is ambigious. In nested objects, does the value returned from default go by key, or is it just a generic include/discard that looks at the whole object? How does that method accommodate nested values? I've looked through previous questions and can't seem to find the best approach to case-specific encoding (which unfortunately seems like what I'm going to need to do here.)

I appreciate the help!

share|improve this question
why dicts? I think you want to make just a list out of the set and then pass it to the encoder... e.g: encode(list(myset)) – Constantinius Nov 22 '11 at 16:41
Instead of using JSON, you could use YAML (JSON is essentially a subset of YAML). – Paolo Moretti Nov 22 '11 at 16:52
@PaoloMoretti: Does it bring any advantage though? I don't think sets are among the universally-supported data types of YAML, and it's less widely supported, especially regarding APIs. – delnan Nov 22 '11 at 16:56
@PaoloMoretti Thank you for your input, but the application frontend requires JSON as a return type and this requirement is for all purposes fixed. – DeaconDesperado Nov 22 '11 at 16:57
@delnan I was suggesting YAML because it has a native support for both sets and dates. – Paolo Moretti Nov 22 '11 at 17:27

4 Answers 4

up vote 56 down vote accepted

JSON notation has only a handful of native datatypes (objects, arrays, strings, numbers, booleans, and null), so anything serialized in JSON needs to be expressed as one of these types.

As shown in the json module docs, this conversion can be done automatically by a JSONEncoder and JSONDecoder, but then you would be giving up some other structure you might need (if you convert sets to a list, then you lose the ability to recover regular lists; if you convert sets to a dictionary using dict.fromkeys(s) the you lose the ability to recover dictionaries).

A more sophisticated solution is to build-out a custom type that can coexist with other native JSON types. This lets you store nested structures that include lists, sets, dicts, decimals, datetime objects, etc.:

from json import dumps, loads, JSONEncoder, JSONDecoder
import pickle

class PythonObjectEncoder(JSONEncoder):
    def default(self, obj):
        if isinstance(obj, (list, dict, str, unicode, int, float, bool, type(None))):
            return JSONEncoder.default(self, obj)
        return {'_python_object': pickle.dumps(obj)}

def as_python_object(dct):
    if '_python_object' in dct:
        return pickle.loads(str(dct['_python_object']))
    return dct

Here is a sample session showing that it can handle lists, dicts, and sets:

>>> data = [1,2,3, set(['knights', 'who', 'say', 'ni']), {'key':'value'}, Decimal('3.14')]

>>> j = dumps(data, cls=PythonObjectEncoder)

>>> loads(j, object_hook=as_python_object)
[1, 2, 3, set(['knights', 'say', 'who', 'ni']), {u'key': u'value'}, Decimal('3.14')]

Alternatively, it may be useful to use a more general purpose serialization technique such as YAML, Twisted Jelly, or Python's pickle module. These each support a much greater range of datatypes.

share|improve this answer
In your sample session, should PythonSetEncoder be PythonObjectEncoder? – Brian Neal Nov 22 '11 at 18:50
This is the first I've heard that YAML is more general purpose than JSON... o_O – Karl Knechtel Nov 23 '11 at 11:55
@KarlKnechtel YAML is a superset of JSON (very nearly). It also adds tags for binary data, sets, ordered maps, and timestamps. Supporting more datatypes is what I meant by "more general purpose". You seem to be using the phrase "general purpose" in a different sense. – Raymond Hettinger Jan 7 '12 at 21:02
Don't forget also jsonpickle, which is intended to be a generalized library for pickling Python objects to JSON, much as this answer suggests. – Jason R. Coombs Sep 16 '13 at 18:42
As of version 1.2, YAML is a strict superset of JSON. All legal JSON now is legal YAML. – steveha Oct 16 '14 at 0:21

You can create a custom encoder that returns a list when it encounters a set. Here's an example:

>>> import json
>>> class SetEncoder(json.JSONEncoder):
...    def default(self, obj):
...       if isinstance(obj, set):
...          return list(obj)
...       return json.JSONEncoder.default(self, obj)
>>> json.dumps(set([1,2,3,4,5]), cls=SetEncoder)
'[1, 2, 3, 4, 5]'

You can detect other types this way too. If you need to retain that the list was actually a set, you could use a custom encoding. Something like return {'type':'set', 'list':list(obj)} might work.

To illustrated nested types, consider serializing this:

>>> class Something(object):
...    pass
>>> json.dumps(set([1,2,3,4,5,Something()]), cls=SetEncoder)

This raises the following error:

TypeError: <__main__.Something object at 0x1691c50> is not JSON serializable

This indicates that the encoder will take the list result returned and recursively call the serializer on its children. To add a custom serializer for multiple types, you can do this:

>>> class SetEncoder(json.JSONEncoder):
...    def default(self, obj):
...       if isinstance(obj, set):
...          return list(obj)
...       if isinstance(obj, Something):
...          return 'CustomSomethingRepresentation'
...       return json.JSONEncoder.default(self, obj)
>>> json.dumps(set([1,2,3,4,5,Something()]), cls=SetEncoder)
'[1, 2, 3, 4, 5, "CustomSomethingRepresentation"]'
share|improve this answer
Thanks, I edited the question to better specify that this was the type of thing I needed. What I can't seem to grasp is how this method will handle nested objects. In your example the return value is list for set, but what if the object passed in was a set with dates (another bad datatype) inside it? Should I drill through the keys within the default method itself? Thanks a ton! – DeaconDesperado Nov 22 '11 at 17:00
I think the JSON module handles nested objects for you. Once it gets the list back, it will iterate over the list items trying to encode each one. If one of them is a date, the default function will get called again, this time with obj being a date object, so you just have to test for it and return a date-representation. – jterrace Nov 22 '11 at 17:08
So the default method could conceivably run several times for any one object passed to it, since it will also look at the individual keys once it is "listified"? – DeaconDesperado Nov 22 '11 at 17:10
Sort of, it won't get called multiple times for the same object, but it can recurse into children. See updated answer. – jterrace Nov 22 '11 at 17:19
Worked exactly as you described. I still have to figure some of the faults out, but most of it is probably stuff that can be refactored out. Thanks a ton for your guidance! – DeaconDesperado Nov 22 '11 at 17:21

Only dictionaries, Lists and primitive object types (int, string, bool) are available in JSON.

share|improve this answer
"Primitive object type" makes no sense when talking about Python. "Built-in object" makes more sense, but is too broad here (for starters: it includes dicts, lists and also sets). (JSON terminology may be different though.) – delnan Nov 22 '11 at 16:45
string number object array true false null – Joseph Le Brech Nov 22 '11 at 16:48

If you only need to encode sets, not general Python objects, and want to keep it easily human-readable, a simplified version of Raymond Hettinger's answer can be used:

import json
import collections

class JSONSetEncoder(json.JSONEncoder):
    """Use with json.dumps to allow Python sets to be encoded to JSON


    import json

    data = dict(aset=set([1,2,3]))

    encoded = json.dumps(data, cls=JSONSetEncoder)
    decoded = json.loads(encoded, object_hook=json_as_python_set)
    assert data == decoded     # Should assert successfully

    Any object that is matched by isinstance(obj, collections.Set) will
    be encoded, but the decoded value will always be a normal Python set.


    def default(self, obj):
        if isinstance(obj, collections.Set):
            return dict(_set_object=list(obj))
            return json.JSONEncoder.default(self, obj)

def json_as_python_set(dct):
    """Decode json {'_set_object': [1,2,3]} to set([1,2,3])

    decoded = json.loads(encoded, object_hook=json_as_python_set)

    Also see :class:`JSONSetEncoder`

    if '_set_object' in dct:
        return set(dct['_set_object'])
    return dct
share|improve this answer

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