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It is easy to change the format of an object which is not JSON serializable eg datetime.datetime.

My requirement, for debugging purposes, is to alter the way some custom objects extended from base ones like dict and list , get serialized in json format . Code :

import datetime
import json

def json_debug_handler(obj):
    print("object received:")
    print type(obj)
    print("\n\n")
    if  isinstance(obj, datetime.datetime):
        return obj.isoformat()
    elif isinstance(obj,mDict):
        return {'orig':obj , 'attrs': vars(obj)}
    elif isinstance(obj,mList):
        return {'orig':obj, 'attrs': vars(obj)}
    else:
        return None


class mDict(dict):
    pass


class mList(list):
    pass


def test_debug_json():
    games = mList(['mario','contra','tetris'])
    games.src = 'console'
    scores = mDict({'dp':10,'pk':45})
    scores.processed = "unprocessed"
    test_json = { 'games' : games , 'scores' : scores , 'date': datetime.datetime.now() }
    print(json.dumps(test_json,default=json_debug_handler))

if __name__ == '__main__':
    test_debug_json()

DEMO : http://ideone.com/hQJnLy

Output:

{"date": "2013-05-07T01:03:13.098727", "games": ["mario", "contra", "tetris"], "scores": {"pk": 45, "dp": 10}}

Desired output:

{"date": "2013-05-07T01:03:13.098727", "games": { "orig": ["mario", "contra", "tetris"] ,"attrs" : { "src":"console"}} , "scores": { "orig": {"pk": 45, "dp": 10},"attrs": "processed":"unprocessed }}

Does the default handler not work for serializable objects ? If not, how can I override this, without adding toJSON methods to the extended classes ?

Also, there is this version of JSON encoder which does not work :

class JsonDebugEncoder(json.JSONEncoder):
    def default(self,obj):
        if  isinstance(obj, datetime.datetime):
            return obj.isoformat()
        elif isinstance(obj,mDict):
            return {'orig':obj , 'attrs': vars(obj)}
        elif isinstance(obj,mList):
            return {'orig':obj, 'attrs': vars(obj)}
        else:
            return json.JSONEncoder.default(self, obj)

If there is a hack with pickle,__getstate__,__setstate__,and then using json.dumps over pickle.loads object , I am open to that as well, I tried , but that did not work.

share|improve this question
    
Using a proper class with a a __getstate()__ method should work. More: stackoverflow.com/q/12627949/139010 –  Matt Ball May 6 '13 at 19:42
    
    
@MartijnPieters That is equivalent to writing a complex custom encoder,I hope there should be an easier way to return a different represntation of the object to encoders like json or pickle ? –  DhruvPathak May 6 '13 at 19:46
    
The default handler only gets called for objects it can't serialize. Since you inherit from objects it can serialize it will perform it with default serialization. Though I had to do something similar a couple of days ago. Here's' my approach: stackoverflow.com/questions/16361223/… –  Roy Nieterau May 6 '13 at 19:46
1  
@DhruvPathak: pickle supports state hooks (__getstate__ and companions), but json does not support any such helpful methods. –  Martijn Pieters May 6 '13 at 19:48

9 Answers 9

The default function is only called when the node being dumped isn't natively serializable, and your mDict classes serialize as-is. Here's a quick little demo that shows when default is called and when not:

import json

def serializer(obj):
    print 'serializer called'
    return str(obj)

class mDict(dict):
    pass

class mSet(set):
    pass

d = mDict(dict(a=1))
print json.dumps(d, default=serializer)

s = mSet({1, 2, 3,})
print json.dumps(s, default=serializer)

And the output:

{"a": 1}
serializer called
"mSet([1, 2, 3])"

Note that sets are not natively serializable, but dicts are.

Since your m___ classes are serializable, your handler is never called.

Update #1 -----

You could change JSON encoder code. The details of how to do this depend on which JSON implementation you're using. For example in simplejson, the relevant code is this, in encode.py:

def _iterencode(o, _current_indent_level):
    ...
        for_json = _for_json and getattr(o, 'for_json', None)
        if for_json and callable(for_json):
            ...
        elif isinstance(o, list):
            ...
        else:
            _asdict = _namedtuple_as_object and getattr(o, '_asdict', None)
            if _asdict and callable(_asdict):
                for chunk in _iterencode_dict(_asdict(),
                        _current_indent_level):
                    yield chunk
            elif (_tuple_as_array and isinstance(o, tuple)):
                ...
            elif isinstance(o, dict):
                ...
            elif _use_decimal and isinstance(o, Decimal):
                ...
            else:
                ...
                o = _default(o)
                for chunk in _iterencode(o, _current_indent_level):
                    yield chunk
                ...

In other words, there is a hard-wired behavior that calls default only when the node being encoded isn't one of the recognized base types. You could override this in one of several ways:

1 -- subclass JSONEncoder as you've done above, but add a parameter to its initializer that specifies the function to be used in place of the standard _make_iterencode, in which you add a test that would call default for classes that meet your criteria. This is a clean approach since you aren't changing the JSON module, but you would be reiterating a lot of code from the original _make_iterencode. (Other variations on this approach include monkeypatching _make_iterencode or its sub-function _iterencode_dict).

2 -- alter the JSON module source, and use the __debug__ constant to change behavior:

def _iterencode(o, _current_indent_level):
    ...
        for_json = _for_json and getattr(o, 'for_json', None)
        if for_json and callable(for_json):
            ...
        elif isinstance(o, list):
            ...
        ## added code below
        elif __debug__:
            o = _default(o)
            for chunk in _iterencode(o, _current_indent_level):
                yield chunk
        ## added code above
        else:
            ...

Ideally the JSONEncoder class would provide a parameter to specify "use default for all types", but it doesn't. The above is a simple one-time change that does what you're looking for.

share|improve this answer
1  
Sir, your answer is my question. I have already mentioned how to change the behaviour for serializable object. The code link is in the question : ideone.com/hQJnLy –  DhruvPathak May 15 '13 at 6:16
    
Please see update #1 above –  Chris Johnson May 16 '13 at 9:16

It seems that to achieve the behavior you want, with the given restrictions, you'll have to delve into the JSONEncoder class a little. Below I've written out a custom JSONEncoder that overrides the iterencode method to pass a custom isinstance method to _make_iterencode. It isn't the cleanest thing in the world, but seems to be the best given the options and it keeps customization to a minimum.

# customencoder.py
from json.encoder import (_make_iterencode, JSONEncoder,
                          encode_basestring_ascii, FLOAT_REPR, INFINITY,
                          c_make_encoder, encode_basestring)


class CustomObjectEncoder(JSONEncoder):

    def iterencode(self, o, _one_shot=False):
        """
        Most of the original method has been left untouched.

        _one_shot is forced to False to prevent c_make_encoder from
        being used. c_make_encoder is a funcion defined in C, so it's easier
        to avoid using it than overriding/redefining it.

        The keyword argument isinstance for _make_iterencode has been set
        to self.isinstance. This allows for a custom isinstance function
        to be defined, which can be used to defer the serialization of custom
        objects to the default method.
        """
        # Force the use of _make_iterencode instead of c_make_encoder
        _one_shot = False

        if self.check_circular:
            markers = {}
        else:
            markers = None
        if self.ensure_ascii:
            _encoder = encode_basestring_ascii
        else:
            _encoder = encode_basestring
        if self.encoding != 'utf-8':
            def _encoder(o, _orig_encoder=_encoder, _encoding=self.encoding):
                if isinstance(o, str):
                    o = o.decode(_encoding)
                return _orig_encoder(o)

        def floatstr(o, allow_nan=self.allow_nan,
                     _repr=FLOAT_REPR, _inf=INFINITY, _neginf=-INFINITY):
            if o != o:
                text = 'NaN'
            elif o == _inf:
                text = 'Infinity'
            elif o == _neginf:
                text = '-Infinity'
            else:
                return _repr(o)

            if not allow_nan:
                raise ValueError(
                    "Out of range float values are not JSON compliant: " +
                    repr(o))

            return text

        # Instead of forcing _one_shot to False, you can also just
        # remove the first part of this conditional statement and only
        # call _make_iterencode
        if (_one_shot and c_make_encoder is not None
                and self.indent is None and not self.sort_keys):
            _iterencode = c_make_encoder(
                markers, self.default, _encoder, self.indent,
                self.key_separator, self.item_separator, self.sort_keys,
                self.skipkeys, self.allow_nan)
        else:
            _iterencode = _make_iterencode(
                markers, self.default, _encoder, self.indent, floatstr,
                self.key_separator, self.item_separator, self.sort_keys,
                self.skipkeys, _one_shot, isinstance=self.isinstance)
        return _iterencode(o, 0)

You can now subclass the CustomObjectEncoder so it correctly serializes your custom objects. The CustomObjectEncoder can also do cool stuff like handle nested objects.

# test.py
import json
import datetime
from customencoder import CustomObjectEncoder


class MyEncoder(CustomObjectEncoder):

    def isinstance(self, obj, cls):
        if isinstance(obj, (mList, mDict)):
            return False
        return isinstance(obj, cls)

    def default(self, obj):
        """
        Defines custom serialization.

        To avoid circular references, any object that will always fail
        self.isinstance must be converted to something that is
        deserializable here.
        """
        if isinstance(obj, datetime.datetime):
            return obj.isoformat()
        elif isinstance(obj, mDict):
            return {"orig": dict(obj), "attrs": vars(obj)}
        elif isinstance(obj, mList):
            return {"orig": list(obj), "attrs": vars(obj)}
        else:
            return None


class mList(list):
    pass


class mDict(dict):
    pass


def main():
    zelda = mList(['zelda'])
    zelda.src = "oldschool"
    games = mList(['mario', 'contra', 'tetris', zelda])
    games.src = 'console'
    scores = mDict({'dp': 10, 'pk': 45})
    scores.processed = "unprocessed"
    test_json = {'games': games, 'scores': scores,
                 'date': datetime.datetime.now()}
    print(json.dumps(test_json, cls=MyEncoder))

if __name__ == '__main__':
    main()
share|improve this answer

The answer by FastTurtle might be a much cleaner solution.

Here's something close to what you want based on the technique as explained in my question/answer: Overriding nested JSON encoding of inherited default supported objects like dict, list

import json
import datetime


class mDict(dict):
    pass


class mList(list):
    pass


class JsonDebugEncoder(json.JSONEncoder):
    def _iterencode(self, o, markers=None):
        if isinstance(o, mDict):
            yield '{"__mDict__": '
            # Encode dictionary
            yield '{"orig": '
            for chunk in super(JsonDebugEncoder, self)._iterencode(o, markers):
                yield chunk
            yield ', '
            # / End of Encode dictionary
            # Encode attributes
            yield '"attr": '
            for key, value in o.__dict__.iteritems():
                yield '{"' + key + '": '
                for chunk in super(JsonDebugEncoder, self)._iterencode(value, markers):
                    yield chunk
                yield '}'
            yield '}'
            # / End of Encode attributes
            yield '}'
        elif isinstance(o, mList):
            yield '{"__mList__": '
            # Encode list
            yield '{"orig": '
            for chunk in super(JsonDebugEncoder, self)._iterencode(o, markers):
                yield chunk
            yield ', '
            # / End of Encode list
            # Encode attributes
            yield '"attr": '
            for key, value in o.__dict__.iteritems():
                yield '{"' + key + '": '
                for chunk in super(JsonDebugEncoder, self)._iterencode(value, markers):
                    yield chunk
                yield '}'
            yield '}'
            # / End of Encode attributes
            yield '}'
        else:
            for chunk in super(JsonDebugEncoder, self)._iterencode(o, markers=markers):
                yield chunk

    def default(self, obj):
        if isinstance(obj, datetime.datetime):
            return obj.isoformat()


class JsonDebugDecoder(json.JSONDecoder):
    def decode(self, s):
        obj = super(JsonDebugDecoder, self).decode(s)
        obj = self.recursiveObjectDecode(obj)
        return obj

    def recursiveObjectDecode(self, obj):
        if isinstance(obj, dict):
            decoders = [("__mList__", self.mListDecode),
                        ("__mDict__", self.mDictDecode)]
            for placeholder, decoder in decoders:
                if placeholder in obj:                  # We assume it's supposed to be converted
                    return decoder(obj[placeholder])
                else:
                    for k in obj:
                        obj[k] = self.recursiveObjectDecode(obj[k])
        elif isinstance(obj, list):
            for x in range(len(obj)):
                obj[x] = self.recursiveObjectDecode(obj[x])
        return obj

    def mDictDecode(self, o):
        res = mDict()
        for key, value in o['orig'].iteritems():
            res[key] = self.recursiveObjectDecode(value)
        for key, value in o['attr'].iteritems():
            res.__dict__[key] = self.recursiveObjectDecode(value)
        return res

    def mListDecode(self, o):
        res = mList()
        for value in o['orig']:
            res.append(self.recursiveObjectDecode(value))
        for key, value in o['attr'].iteritems():
            res.__dict__[key] = self.recursiveObjectDecode(value)
        return res


def test_debug_json():
    games = mList(['mario','contra','tetris'])
    games.src = 'console'
    scores = mDict({'dp':10,'pk':45})
    scores.processed = "unprocessed"
    test_json = { 'games' : games, 'scores' : scores ,'date': datetime.datetime.now() }
    jsonDump = json.dumps(test_json, cls=JsonDebugEncoder)
    print jsonDump
    test_pyObject = json.loads(jsonDump, cls=JsonDebugDecoder)
    print test_pyObject

if __name__ == '__main__':
    test_debug_json()

This results in:

{"date": "2013-05-06T22:28:08.967000", "games": {"__mList__": {"orig": ["mario", "contra", "tetris"], "attr": {"src": "console"}}}, "scores": {"__mDict__": {"orig": {"pk": 45, "dp": 10}, "attr": {"processed": "unprocessed"}}}}

This way you can encode it and decode it back to the python object it came from.

EDIT:

Here's a version that actually encodes it to the output you wanted and can decode it as well. Whenever a dictionary contains 'orig' and 'attr' it will check if 'orig' contains a dictionary or a list, if so it will respectively convert the object back to the mDict or mList.

import json
import datetime


class mDict(dict):
    pass


class mList(list):
    pass


class JsonDebugEncoder(json.JSONEncoder):
    def _iterencode(self, o, markers=None):
        if isinstance(o, mDict):    # Encode mDict
            yield '{"orig": '
            for chunk in super(JsonDebugEncoder, self)._iterencode(o, markers):
                yield chunk
            yield ', '
            yield '"attr": '
            for key, value in o.__dict__.iteritems():
                yield '{"' + key + '": '
                for chunk in super(JsonDebugEncoder, self)._iterencode(value, markers):
                    yield chunk
                yield '}'
            yield '}'
            # / End of Encode attributes
        elif isinstance(o, mList):    # Encode mList
            yield '{"orig": '
            for chunk in super(JsonDebugEncoder, self)._iterencode(o, markers):
                yield chunk
            yield ', '
            yield '"attr": '
            for key, value in o.__dict__.iteritems():
                yield '{"' + key + '": '
                for chunk in super(JsonDebugEncoder, self)._iterencode(value, markers):
                    yield chunk
                yield '}'
            yield '}'
        else:
            for chunk in super(JsonDebugEncoder, self)._iterencode(o, markers=markers):
                yield chunk

    def default(self, obj):
        if isinstance(obj, datetime.datetime):    # Encode datetime
            return obj.isoformat()


class JsonDebugDecoder(json.JSONDecoder):
    def decode(self, s):
        obj = super(JsonDebugDecoder, self).decode(s)
        obj = self.recursiveObjectDecode(obj)
        return obj

    def recursiveObjectDecode(self, obj):
        if isinstance(obj, dict):
            if "orig" in obj and "attr" in obj and isinstance(obj["orig"], list):
                return self.mListDecode(obj)
            elif "orig" in obj and "attr" in obj and isinstance(obj['orig'], dict):
                return self.mDictDecode(obj)
            else:
                for k in obj:
                    obj[k] = self.recursiveObjectDecode(obj[k])
        elif isinstance(obj, list):
            for x in range(len(obj)):
                obj[x] = self.recursiveObjectDecode(obj[x])
        return obj

    def mDictDecode(self, o):
        res = mDict()
        for key, value in o['orig'].iteritems():
            res[key] = self.recursiveObjectDecode(value)
        for key, value in o['attr'].iteritems():
            res.__dict__[key] = self.recursiveObjectDecode(value)
        return res

    def mListDecode(self, o):
        res = mList()
        for value in o['orig']:
            res.append(self.recursiveObjectDecode(value))
        for key, value in o['attr'].iteritems():
            res.__dict__[key] = self.recursiveObjectDecode(value)
        return res


def test_debug_json():
    games = mList(['mario','contra','tetris'])
    games.src = 'console'
    scores = mDict({'dp':10,'pk':45})
    scores.processed = "unprocessed"
    test_json = { 'games' : games, 'scores' : scores ,'date': datetime.datetime.now() }
    jsonDump = json.dumps(test_json, cls=JsonDebugEncoder)
    print jsonDump
    test_pyObject = json.loads(jsonDump, cls=JsonDebugDecoder)
    print test_pyObject
    print test_pyObject['games'].src

if __name__ == '__main__':
    test_debug_json()

Here's some more info about the output:

# Encoded
{"date": "2013-05-06T22:41:35.498000", "games": {"orig": ["mario", "contra", "tetris"], "attr": {"src": "console"}}, "scores": {"orig": {"pk": 45, "dp": 10}, "attr": {"processed": "unprocessed"}}}

# Decoded ('games' contains the mList with the src attribute and 'scores' contains the mDict processed attribute)
# Note that printing the python objects doesn't directly show the processed and src attributes, as seen below.
{u'date': u'2013-05-06T22:41:35.498000', u'games': [u'mario', u'contra', u'tetris'], u'scores': {u'pk': 45, u'dp': 10}}

Sorry for any bad naming conventions, it's a quick setup. ;)

Note: The datetime doesn't get decoded back to the python representation. Implementing that could be done by checking for any dict key that is called 'date' and contains a valid string representation of a datetime.

share|improve this answer
    
Thanks. However I still feel there should be some simpler trick existing that we do not know. –  DhruvPathak May 8 '13 at 8:02

Why can't you just create a new object type to pass to the encoder? Try:

class MStuff(object):
    def __init__(self, content):
        self.content = content

class mDict(MStuff):
    pass

class mList(MStuff):
    pass

def json_debug_handler(obj):
    print("object received:")
    print(type(obj))
    print("\n\n")
    if  isinstance(obj, datetime.datetime):
        return obj.isoformat()
    elif isinstance(obj,MStuff):
        attrs = {}
        for key in obj.__dict__:
            if not ( key.startswith("_") or key == "content"):
                attrs[key] = obj.__dict__[key]

        return {'orig':obj.content , 'attrs': attrs}
    else:
        return None

You could add validation on the mDict and mList if desired.

share|improve this answer
1  
I would want the serialization to work on current objects as mentioned in the code –  DhruvPathak May 16 '13 at 6:52

If you define these to override __instancecheck__:

def strict_check(builtin):
    '''creates a new class from the builtin whose instance check
    method can be overridden to renounce particular types'''
    class BuiltIn(type):
        def __instancecheck__(self, other):
            print 'instance', self, type(other), other
            if type(other) in strict_check.blacklist:
                return False
            return builtin.__instancecheck__(other)
    # construct a class, whose instance check method is known.
    return BuiltIn('strict_%s' % builtin.__name__, (builtin,), dict())

# for safety, define it here.
strict_check.blacklist = ()

then patch json.encoder like this to override _make_iterencode.func_defaults:

# modify json encoder to use some new list/dict attr.
import json.encoder
# save old stuff, never know when you need it.
old_defaults = json.encoder._make_iterencode.func_defaults
old_encoder = json.encoder.c_make_encoder
encoder_defaults = list(json.encoder._make_iterencode.func_defaults)
for index, default in enumerate(encoder_defaults):
    if default in (list, dict):
        encoder_defaults[index] = strict_check(default)

# change the defaults for _make_iterencode.
json.encoder._make_iterencode.func_defaults = tuple(encoder_defaults)
# disable C extension.
json.encoder.c_make_encoder = None

... your example would almost work verbatim:

import datetime
import json

def json_debug_handler(obj):
    print("object received:")
    print type(obj)
    print("\n\n")
    if  isinstance(obj, datetime.datetime):
        return obj.isoformat()
    elif isinstance(obj,mDict):
        # degrade obj to more primitive dict()
        # to avoid cycles in the encoding.
        return {'orig': dict(obj) , 'attrs': vars(obj)}
    elif isinstance(obj,mList):
        # degrade obj to more primitive list()
        # to avoid cycles in the encoding.
        return {'orig': list(obj), 'attrs': vars(obj)}
    else:
        return None


class mDict(dict):
    pass


class mList(list):
    pass

# set the stuff we want to process differently.
strict_check.blacklist = (mDict, mList)

def test_debug_json():
    global test_json
    games = mList(['mario','contra','tetris'])
    games.src = 'console'
    scores = mDict({'dp':10,'pk':45})
    scores.processed = "unprocessed"
    test_json = { 'games' : games , 'scores' : scores , 'date': datetime.datetime.now() }
    print(json.dumps(test_json,default=json_debug_handler))

if __name__ == '__main__':
    test_debug_json()

The things I needed to change were to make sure there were no cycles:

    elif isinstance(obj,mDict):
        # degrade obj to more primitive dict()
        # to avoid cycles in the encoding.
        return {'orig': dict(obj) , 'attrs': vars(obj)}
    elif isinstance(obj,mList):
        # degrade obj to more primitive list()
        # to avoid cycles in the encoding.
        return {'orig': list(obj), 'attrs': vars(obj)}

and add this somewhere before test_debug_json:

# set the stuff we want to process differently.
strict_check.blacklist = (mDict, mList)

here is my console output:

>>> test_debug_json()
instance <class '__main__.strict_list'> <type 'dict'> {'date': datetime.datetime(2013, 7, 17, 12, 4, 40, 950637), 'games': ['mario', 'contra', 'tetris'], 'scores': {'pk': 45, 'dp': 10}}
instance <class '__main__.strict_dict'> <type 'dict'> {'date': datetime.datetime(2013, 7, 17, 12, 4, 40, 950637), 'games': ['mario', 'contra', 'tetris'], 'scores': {'pk': 45, 'dp': 10}}
instance <class '__main__.strict_list'> <type 'datetime.datetime'> 2013-07-17 12:04:40.950637
instance <class '__main__.strict_dict'> <type 'datetime.datetime'> 2013-07-17 12:04:40.950637
instance <class '__main__.strict_list'> <type 'datetime.datetime'> 2013-07-17 12:04:40.950637
instance <class '__main__.strict_dict'> <type 'datetime.datetime'> 2013-07-17 12:04:40.950637
object received:
<type 'datetime.datetime'>



instance <class '__main__.strict_list'> <class '__main__.mList'> ['mario', 'contra', 'tetris']
instance <class '__main__.strict_dict'> <class '__main__.mList'> ['mario', 'contra', 'tetris']
instance <class '__main__.strict_list'> <class '__main__.mList'> ['mario', 'contra', 'tetris']
instance <class '__main__.strict_dict'> <class '__main__.mList'> ['mario', 'contra', 'tetris']
object received:
<class '__main__.mList'>



instance <class '__main__.strict_list'> <type 'dict'> {'attrs': {'src': 'console'}, 'orig': ['mario', 'contra', 'tetris']}
instance <class '__main__.strict_dict'> <type 'dict'> {'attrs': {'src': 'console'}, 'orig': ['mario', 'contra', 'tetris']}
instance <class '__main__.strict_list'> <type 'dict'> {'src': 'console'}
instance <class '__main__.strict_dict'> <type 'dict'> {'src': 'console'}
instance <class '__main__.strict_list'> <type 'list'> ['mario', 'contra', 'tetris']
instance <class '__main__.strict_list'> <class '__main__.mDict'> {'pk': 45, 'dp': 10}
instance <class '__main__.strict_dict'> <class '__main__.mDict'> {'pk': 45, 'dp': 10}
instance <class '__main__.strict_list'> <class '__main__.mDict'> {'pk': 45, 'dp': 10}
instance <class '__main__.strict_dict'> <class '__main__.mDict'> {'pk': 45, 'dp': 10}
object received:
<class '__main__.mDict'>



instance <class '__main__.strict_list'> <type 'dict'> {'attrs': {'processed': 'unprocessed'}, 'orig': {'pk': 45, 'dp': 10}}
instance <class '__main__.strict_dict'> <type 'dict'> {'attrs': {'processed': 'unprocessed'}, 'orig': {'pk': 45, 'dp': 10}}
instance <class '__main__.strict_list'> <type 'dict'> {'processed': 'unprocessed'}
instance <class '__main__.strict_dict'> <type 'dict'> {'processed': 'unprocessed'}
instance <class '__main__.strict_list'> <type 'dict'> {'pk': 45, 'dp': 10}
instance <class '__main__.strict_dict'> <type 'dict'> {'pk': 45, 'dp': 10}
{"date": "2013-07-17T12:04:40.950637", "games": {"attrs": {"src": "console"}, "orig": ["mario", "contra", "tetris"]}, "scores": {"attrs": {"processed": "unprocessed"}, "orig": {"pk": 45, "dp": 10}}}
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You should be able to override JSONEncoder.encode():

class MyEncoder(JSONEncoder):
  def encode(self, o):
    if isinstance(o, dict):
      # directly call JSONEncoder rather than infinite-looping through self.encode()
      return JSONEncoder.encode(self, {'orig': o, 'attrs': vars(o)})
    elif isinstance(o, list):
      return JSONEncoder.encode(self, {'orig': o, 'attrs': vars(o)})
    else:
      return JSONEncoder.encode(self, o)

and then if you want to patch it into json.dumps it looks from http://docs.buildbot.net/latest/reference/json-pysrc.html like you'll need to replace json._default_encoder with an instance of MyEncoder.

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As others have pointed out already, the default handler only gets called for values that aren't one of the recognised types. My suggested solution to this problem is to preprocess the object you want to serialize, recursing over lists, tuples and dictionaries, but wrapping every other value in a custom class.

Something like this:

def debug(obj):
    class Debug:
        def __init__(self,obj):
            self.originalObject = obj
    if obj.__class__ == list:
        return [debug(item) for item in obj]
    elif obj.__class__ == tuple:
        return (debug(item) for item in obj)
    elif obj.__class__ == dict:
        return dict((key,debug(obj[key])) for key in obj)
    else:
        return Debug(obj)

You would call this function, before passing your object to json.dumps, like this:

test_json = debug(test_json)
print(json.dumps(test_json,default=json_debug_handler))

Note that this code is checking for objects whose class exactly matches a list, tuple or dictionary, so any custom objects that are extended from those types will be wrapped rather than parsed. As a result, the regular lists, tuples, and dictionaries will be serialized as usual, but all other values will be passed on to the default handler.

The end result of all this, is that every value that reaches the the default handler is guaranteed to be wrapped in one of these Debug classes. So the first thing you are going to want to do is extract the original object, like this:

obj = obj.originalObject

You can then check the original object's type and handle whichever types need special processing. For everything else, you should just return the original object (so the last return from the handler should be return obj not return None).

def json_debug_handler(obj):
    obj = obj.originalObject      # Add this line
    print("object received:")
    print type(obj)
    print("\n\n")
    if  isinstance(obj, datetime.datetime):
        return obj.isoformat()
    elif isinstance(obj,mDict):
        return {'orig':obj, 'attrs': vars(obj)}
    elif isinstance(obj,mList):
        return {'orig':obj, 'attrs': vars(obj)}
    else:
        return obj                # Change this line

Note that this code doesn't check for values that aren't serializable. These will fall through the final return obj, then will be rejected by the serializer and passed back to the default handler again - only this time without the Debug wrapper.

If you need to deal with that scenario, you could add a check at the top of the handler like this:

if not hasattr(obj, 'originalObject'):
    return None

Ideone demo: http://ideone.com/tOloNq

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If you are able to change the way json.dumps is called. You can do all the processing required before the JSON encoder gets his hands on it. This version does not use any kind of copying and will edit the structures in-place. You can add copy() if required.

import datetime
import json
import collections


def json_debug_handler(obj):
    print("object received:")
    print type(obj)
    print("\n\n")
    if isinstance(obj, collections.Mapping):
        for key, value in obj.iteritems():
            if isinstance(value, (collections.Mapping, collections.MutableSequence)):
                value = json_debug_handler(value)

            obj[key] = convert(value)
    elif isinstance(obj, collections.MutableSequence):
        for index, value in enumerate(obj):
            if isinstance(value, (collections.Mapping, collections.MutableSequence)):
                value = json_debug_handler(value)

            obj[index] = convert(value)
    return obj

def convert(obj):
    if  isinstance(obj, datetime.datetime):
        return obj.isoformat()
    elif isinstance(obj,mDict):
        return {'orig':obj , 'attrs': vars(obj)}
    elif isinstance(obj,mList):
        return {'orig':obj, 'attrs': vars(obj)}
    else:
        return obj


class mDict(dict):
    pass


class mList(list):
    pass


def test_debug_json():
    games = mList(['mario','contra','tetris'])
    games.src = 'console'
    scores = mDict({'dp':10,'pk':45})
    scores.processed = "qunprocessed"
    test_json = { 'games' : games , 'scores' : scores , 'date': datetime.datetime.now() }
    print(json.dumps(json_debug_handler(test_json)))

if __name__ == '__main__':
    test_debug_json()

You call json_debug_handler on the object you are serializing before passing it to the json.dumps. With this pattern you could also easily reverse the changes and/or add extra conversion rules.

edit:

If you can't change how json.dumps is called, you can always monkeypatch it to do what you want. Such as doing this:

json.dumps = lambda obj, *args, **kwargs: json.dumps(json_debug_handler(obj), *args, **kwargs)
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Try the below. It produces the output you want and looks relatively simple. The only real difference from your encoder class is that we should override both decode and encode methods (since the latter is still called for types the encoder knows how to handle).

import json
import datetime

class JSONDebugEncoder(json.JSONEncoder):
    # transform objects known to JSONEncoder here
    def encode(self, o, *args, **kw):
        for_json = o
        if isinstance(o, mDict):
            for_json = { 'orig' : o, 'attrs' : vars(o) }
        elif isinstance(o, mList):
            for_json = { 'orig' : o, 'attrs' : vars(o) }
        return super(JSONDebugEncoder, self).encode(for_json, *args, **kw)

    # handle objects not known to JSONEncoder here
    def default(self, o, *args, **kw):
        if isinstance(o, datetime.datetime):
            return o.isoformat()
        else:
            return super(JSONDebugEncoder, self).default(o, *args, **kw)


class mDict(dict):
    pass

class mList(list):
    pass

def test_debug_json():
    games = mList(['mario','contra','tetris'])
    games.src = 'console'
    scores = mDict({'dp':10,'pk':45})
    scores.processed = "unprocessed"
    test_json = { 'games' : games , 'scores' : scores , 'date': datetime.datetime.now() }
    print(json.dumps(test_json,cls=JSONDebugEncoder))

if __name__ == '__main__':
    test_debug_json()
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