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I'm using Python 2 to parse JSON from (ASCII encoded) text files. When loading these files with either json or simplejson, all my string values are cast to Unicode objects instead of string objects.

The problem is, I have to use the data with some libraries that only accept string objects. I can't change the libraries nor update them.

Is it possible to get string objects instead of Unicode ones from json or simplejson?

Here's a small example:

>>> import json
>>> original_list = ['a', 'b']
>>> json_list = json.dumps(original_list)
>>> json_list
'["a", "b"]'
>>> new_list = json.loads(js)
>>> new_list
[u'a', u'b'] # I want these to be of type `str`, not `unicode`
share|improve this question

18 Answers 18

up vote 78 down vote accepted

There's no built-in option to make the json module functions return byte strings instead of unicode strings. However, this short and simple recursive function will convert any decoded JSON object from using unicode strings to UTF-8-encoded byte strings:

def byteify(input):
    if isinstance(input, dict):
        return {byteify(key):byteify(value) for key,value in input.iteritems()}
    elif isinstance(input, list):
        return [byteify(element) for element in input]
    elif isinstance(input, unicode):
        return input.encode('utf-8')
        return input

Just call this on the output you get from a json.load or json.loads call.

A final note: to support Python 2.6 or earlier, replace return {byteify(key): byteify(value) for key, value in input.iteritems()} with return dict([(byteify(key), byteify(value)) for key, value in input.iteritems()]), since dictionary comprehensions weren't supported until Python 2.7.

share|improve this answer
I like this - it is not an ignore - it is recognizing that when people say "strings" and "ascii" they mostly naively meant they wanted bytes, not theoretical unicode characters. (and not ascii as they still want pound signs at the other end) – Danny Staple Feb 16 at 17:26
I like this, it works almost the same way as my pretty printer works, since I know that json don't make tuple, you should add the exception for tuple too. – y.petremann Feb 26 at 23:10

While there are some good answers here, I ended up using PyYAML to parse my JSON files, since it gives the keys and values as str type strings instead of unicode type. Because JSON is a subset of YAML it works nicely:

>>> import json
>>> import yaml
>>> list_org = ['a', 'b']
>>> list_dump = json.dumps(list_org)
>>> list_dump
'["a", "b"]'
>>> json.loads(list_dump)
[u'a', u'b']
>>> yaml.safe_load(list_dump)
['a', 'b']

Some things to note though:

  • I get string objects because all my entries are ASCII encoded. If I would use unicode encoded entries, I would get them back as unicode objects — there is no conversion!

  • You should (probably always) use PyYAML's safe_load function; if you use it to load JSON files, you don't need the "additional power" of the load function anyway.

  • If you want a YAML parser that has more support for the 1.2 version of the spec (and correctly parses very low numbers) try Ruamel YAML: pip install ruamel.yaml and import ruamel.yaml as yaml was all I needed in my tests.

As stated, there is no conversion! If you can't be sure to only deal with ASCII values (and you can't be sure most of the time), better use a conversion function. I used the one from Mark Amery a couple of times now and it works great — you could also use it as an object_hook (see the answer from Mirec Miskuf) or in your own decoder class.

share|improve this answer
Doooh! This is so simple - it should be the top answer. – ionelmc Nov 15 '13 at 14:35
Take a little care if you decide to use this answer. It works perfectly for Brutus's case, but only because he knows that his data only contains ASCII-encodable characters. If you don't have that guarantee, this answer won't work. For example, try executing yaml.load(json.dumps([u'a', u'£', u'É'])) at the Python shell and observe that you get back ['a', u'\xa3', u'\xc9'] (which contains unicode strings). If you can't be sure that your data only contains characters from the ASCII character set, you should use a different approach instead (I recommend my own answer). – Mark Amery Sep 6 '14 at 16:49
YAML also makes use of [u'a', u'b'] be careful. – Carlos Calla Sep 15 '14 at 22:31
This is nice, but it does not work with low numbers.. look here:… – Oren May 26 at 12:46
@Oren: This is not an error in the YAML spec but in the PyYAML parser. The YAML parser from ruamel works. – Brutus Jun 4 at 10:21

You can use the object_hook parameter for json.loads to pass in a converter. You don't have to do the conversion after the fact. The json module will always pass the object_hook dicts only, and it will recursively pass in nested dicts, so you don't have to recurse into nested dicts yourself. I don't think I would convert unicode strings to numbers like Wells shows. If it's a unicode string, it was quoted as a string in the JSON file, so it is supposed to be a string (or the file is bad).

Also, I'd try to avoid doing something like str(val) on a unicode object. You should use value.encode(encoding) with a valid encoding, depending on what your external lib expects.

So, for example:

def _decode_list(data):
    rv = []
    for item in data:
        if isinstance(item, unicode):
            item = item.encode('utf-8')
        elif isinstance(item, list):
            item = _decode_list(item)
        elif isinstance(item, dict):
            item = _decode_dict(item)
    return rv

def _decode_dict(data):
    rv = {}
    for key, value in data.iteritems():
        if isinstance(key, unicode):
            key = key.encode('utf-8')
        if isinstance(value, unicode):
            value = value.encode('utf-8')
        elif isinstance(value, list):
            value = _decode_list(value)
        elif isinstance(value, dict):
            value = _decode_dict(value)
        rv[key] = value
    return rv

obj = json.loads(s, object_hook=_decode_dict)
share|improve this answer
This is fine if the object in s is a JSON Object (an unordered collection of key:value pairs with the ':' character separating the key and the value, comma-separated and enclosed in curly braces), but not if it's, say, a JSON Array. So if given a JSON Array like ["a", "b"], the result will still be [u'a', u'b']. None of the other currently available customizing hook-type parameters for json.loads() can do the job either. – martineau Dec 27 '12 at 16:32
Since, as you mentioned, the json module will recursively pass in nested dicts, it's unnecessary to check for them in the two functions -- so the two elif clauses that check for them should be removed. – martineau Dec 27 '12 at 17:40
Note that starting function names with an underscore has a special meaning for import statements. If you put these functions in a file called and in another file do from Utility import *, the functions will not be seen because of that underscore. – M Katz Jan 17 '13 at 20:34

That's because json has no difference between string objects and unicode objects. They're all strings in javascript.

I think JSON is right to return unicode objects. In fact, I wouldn't accept anything less, since javascript strings are in fact unicode objects (i.e. JSON (javascript) strings can store any kind of unicode character) so it makes sense to create unicode objects when translating strings from JSON. Plain strings just wouldn't fit since the library would have to guess the encoding you want.

It's better to use unicode string objects everywhere. So your best option is to update your libraries so they can deal with unicode objects.

But if you really want bytestrings, just encode the results to the encoding of your choice:

>>> nl = json.loads(js)
>>> nl
[u'a', u'b']
>>> nl = [s.encode('utf-8') for s in nl]
>>> nl
['a', 'b']
share|improve this answer
Thanks nosklo, that is what I have done first. But as I said, the real data I used is pretty nested and all, so this introduced quiety some overhead. I'm still looking for an automatic solution... There's at least one bug report out there where people complain about simplejson returning string objects instead of unicode. – Brutus Jun 5 '09 at 17:23
@Brutus: I think json is right to return unicode objects. In fact, I wouldn't accept anything less, since javascript strings are in fact unicode objects. What I mean is that json (javascript) strings can store any kind of unicode character, so it makes sense to create unicode objects when translating from json. You should really fix your libraries instead. – nosklo Jun 5 '09 at 18:27

There exists an easy work-around.

TL;DR - Use ast.literal_eval() instead of json.loads(). Both ast and json are in the standard library.

While not a 'perfect' answer, it gets one pretty far if your plan is to ignore Unicode altogether. In Python 2.7

import json, ast
d = { 'field' : 'value' }
print "JSON Fail: ", json.loads(json.dumps(d))
print "AST Win:", ast.literal_eval(json.dumps(d))


JSON Fail:  {u'field': u'value'}
AST Win: {'field': 'value'}

This gets more hairy when some objects are really Unicode strings. The full answer gets hairy quickly.

share|improve this answer
Better be sure your json doesn't contain any null, true, or false values, because they aren't valid in python and will cause literal_eval() to fail. – ʇsәɹoɈ Oct 10 '14 at 8:34
@ʇsәɹoɈ Also better hope your JSON doesn't contain an escaped solidus (\/) inside a string, or a unicode escape sequence (like "\u0061", which is another way of writing "a"). Python's literal syntax is incompatible with JSON in several ways, and I wouldn't trust this answer for any script that I wasn't going to throw away. – Mark Amery Feb 16 at 21:19
This answer deserves (much) more upvotes! – Igor Chubin Apr 14 at 14:27

I'm afraid there's no way to achieve this automatically within the simplejson library.

The scanner and decoder in simplejson are designed to produce unicode text. To do this, the library uses a function called c_scanstring (if it's available, for speed), or py_scanstring if the C version is not available. The scanstring function is called several times by nearly every routine that simplejson has for decoding a structure that might contain text. You'd have to either monkeypatch the scanstring value in simplejson.decoder, or subclass JSONDecoder and provide pretty much your own entire implementation of anything that might contain text.

The reason that simplejson outputs unicode, however, is that the json spec specifically mentions that "A string is a collection of zero or more Unicode characters"... support for unicode is assumed as part of the format itself. Simplejson's scanstring implementation goes so far as to scan and interpret unicode escapes (even error-checking for malformed multi-byte charset representations), so the only way it can reliably return the value to you is as unicode.

If you have an aged library that needs an str, I recommend you either laboriously search the nested data structure after parsing (which I acknowledge is what you explicitly said you wanted to avoid... sorry), or perhaps wrap your libraries in some sort of facade where you can massage the input parameters at a more granular level. The second approach might be more manageable than the first if your data structures are indeed deeply nested.

share|improve this answer

The gotcha is that simplejson and json are two different modules, at least in the manner they deal with unicode. You have json in py 2.6+, and this gives you unicode values, whereas simplejson returns string objects. Just try easy_install-ing simplejson in your environment and see if that works. It did for me.

share|improve this answer

As Mark (Amery) correctly notes: Using PyYaml's deserializer on a json dump works only if you have ASCII only. At least out of the box.

Two quick comments on the PyYaml approach:

  1. NEVER use yaml.load on data from the field. Its a feature(!) of yaml to execute arbitrary code hidden within the structure.

  2. You can make it work also for non ASCII via this:

    def to_utf8(loader, node):
        return loader.construct_scalar(node).encode('utf-8')
    yaml.add_constructor(u',2002:str', to_utf8)

But performance wise its of no comparison to Mark Amery's answer:

Throwing some deeply nested sample dicts onto the two methods, I get this (with dt[j] = time delta of json.loads(json.dumps(m))):

     dt[yaml.safe_load(json.dumps(m))] =~ 100 * dt[j]
     dt[byteify recursion(Mark Amery)] =~   5 * dt[j]

So deserialization including fully walking the tree and encoding, well within the order of magnitude of json's C based implementation. I find this remarkably fast and its also more robust than the yaml load at deeply nested structures. And less security error prone, looking at yaml.load.

=> While I would appreciate a pointer to a C only based converter the byteify function should be the default answer.

This holds especially true if your json structure is from the field, containing user input. Because then you probably need to walk anyway over your structure - independent on your desired internal data structures ('unicode sandwich' or byte strings only).


Unicode normalisation. For the unaware: Take a painkiller and read this.

So using the byteify recursion you kill two birds with one stone:

  1. get your bytestrings from nested json dumps
  2. get user input values normalised, so that you find the stuff in your storage.

In my tests it turned out that replacing the input.encode('utf-8') with a unicodedata.normalize('NFC', input).encode('utf-8') was even faster than w/o NFC - but thats heavily dependent on the sample data I guess.

share|improve this answer

So, I've run into the same problem. Guess what was the first Google result.

Because I need to pass all data to PyGTK, unicode strings aren't very useful to me either. So I have another recursive conversion method. It's actually also needed for typesafe JSON conversion - json.dump() would bail on any non-literals, like Python objects. Doesn't convert dict indexes though.

# removes any objects, turns unicode back into str
def filter_data(obj):
        if type(obj) in (int, float, str, bool):
                return obj
        elif type(obj) == unicode:
                return str(obj)
        elif type(obj) in (list, tuple, set):
                obj = list(obj)
                for i,v in enumerate(obj):
                        obj[i] = filter_data(v)
        elif type(obj) == dict:
                for i,v in obj.iteritems():
                        obj[i] = filter_data(v)
                print "invalid object in data, converting to string"
                obj = str(obj) 
        return obj
share|improve this answer
The only problem that might come up here is if you need the keys in a dictionary converted from unicode. Though this implementation will convert the values, it maintains the unicode keys. If you create a 'newobj', use newobj[str(i)] = ..., and assign obj = newobj when you're done, the keys will be converted as well. – Neal S. Sep 30 '10 at 14:43
This could be prettier with comprehensions or better by converting keys. It's also unidiomatic; it both mutates objects in place (in the case of dictionaries) and returns the new value, which is inconsistent with Python's built-in collection methods which either mutate the current object or return a new one, but not both. – Mark Amery Feb 16 at 21:24

In case somebody is using Mark Emery's function as object_hook parameter for json.loads (Mark's answer clearly states that it should not be used like that).

Json module will call "byteify" on already "byteified" dictionaries (as specified by json documentation). This might have nasty performance side-effect on deeply nested structures...

It is still possible to use a version of Mark's function as object_hook, but it would have to be slightly amended - I've added is_deep boolean parameter, that blocks descent into "deeper" (and already converted) dictionaries.

def byteify(data, is_deep = False):
    # if this is a unicode string, return its string representation
    if isinstance(data, unicode):
        return data.encode('utf-8')
    # if this is a list of values, return list of byteified values
    if isinstance(data, list):
        return [ byteify(item, True) for item in data ]
    # if this is a dictionary, return dictionary of byteified keys and values
    # but only on highest level
    if isinstance(data, dict) and not is_deep:
        return { byteify(key, True):byteify(value, True) for key, value in data.iteritems() }
    # if we do not know what it is, return it in its original form
    return data

Using this approach, it is possible to convert json object to ASCII using following call (outer call added to convert any objects that are not dictionaries at the top level):

converted = byteify(json.loads(json_string, object_hook=byteify), True)

The only advantage over using Mark's answer is that it does not create a copy of a whole converted structure.

share|improve this answer

This is late to the game, but I built this recursive caster. It works for my needs and I think it's relatively complete. It may help you.

def _parseJSON(self, obj):
	newobj = {}

	for key, value in obj.iteritems():
		key = str(key)

		if isinstance(value, dict):
			newobj[key] = self._parseJSON(value)
		elif isinstance(value, list):
			if key not in newobj:
				newobj[key] = []
				for i in value:
		elif isinstance(value, unicode):
			val = str(value)
			if val.isdigit():
				val = int(val)
					val = float(val)
				except ValueError:
					val = str(val)
			newobj[key] = val

	return newobj

Just pass it a JSON object like so:

obj = json.loads(content, parse_float=float, parse_int=int)
obj = _parseJSON(obj)

I have it as a private member of a class, but you can repurpose the method as you see fit.

share|improve this answer
I've run into a problem where I'm trying to parse JSON and pass the resulting mapping to a function as **kwargs. It looks like function parameter names cannot be unicode, so your _parseJSON function is great. If there's an easier way, someone can let me know. – Neal S. Sep 30 '10 at 14:35
This code has a problem - you make a recursive call in the List piece, which is going to fail if the elements of the list are not themselves dictionaries. – I82Much Oct 14 '10 at 14:00
Besides the bug described by @I82Much, this is also badly named (it doesn't actually parse the JSON; a json.loads call is needed first), arbitrarily tries to convert strings to ints for no explained reason, and isn't copy-and-paste ready. – Mark Amery Feb 16 at 21:29

I rewrote Wells's _parse_json() to handle cases where the json object itself is an array (my use case).

def _parseJSON(self, obj):
    if isinstance(obj, dict):
        newobj = {}
        for key, value in obj.iteritems():
            key = str(key)
            newobj[key] = self._parseJSON(value)
    elif isinstance(obj, list):
        newobj = []
        for value in obj:
    elif isinstance(obj, unicode):
        newobj = str(obj)
        newobj = obj
    return newobj
share|improve this answer

Just use pickle instead of json for dump and load, like so:

    import json
    import pickle

    d = { 'field1': 'value1', 'field2': 2, }


    print json.load(open("testjson.txt","r"))


    print pickle.load(open("testpickle.txt","r"))

The output it produces is (strings and integers are handled correctly):

    {u'field2': 2, u'field1': u'value1'}
    {'field2': 2, 'field1': 'value1'}
share|improve this answer
+1 for a solution that doesn't require additional packages (like yaml). But sometimes - like in my original case - I need to have the data in JSON, so pickle is not always the best option. Besides, you have safe_load in YAML, I don't know if something similar exist for pickle. – Brutus Apr 29 '14 at 10:24

here is a recursive encoder written in C:

Performance overhead for "average" structures around 10% compared to json.loads.

  json loads            [0.16sec]: {u'a': [{u'b': [[1, 2, [u'\xd6ster..
  json loads + encoding [0.18sec]: {'a': [{'b': [[1, 2, ['\xc3\x96ster.
  time overhead in percent: 9%

using this teststructure:

import json, nested_encode, time

s = """
  "firstName": "Jos\\u0301",
  "lastName": "Smith",
  "isAlive": true,
  "age": 25,
  "address": {
    "streetAddress": "21 2nd Street",
    "city": "\\u00d6sterreich",
    "state": "NY",
    "postalCode": "10021-3100"
  "phoneNumbers": [
      "type": "home",
      "number": "212 555-1234"
      "type": "office",
      "number": "646 555-4567"
  "children": [],
  "spouse": null,
  "a": [{"b": [[1, 2, ["\\u00d6sterreich"]]]}]

t1 = time.time()
for i in xrange(10000):
    u = json.loads(s)
dt_json = time.time() - t1

t1 = time.time()
for i in xrange(10000):
    b = nested_encode.encode_nested(json.loads(s))
dt_json_enc = time.time() - t1

print "json loads            [%.2fsec]: %s..." % (dt_json, str(u)[:20])
print "json loads + encoding [%.2fsec]: %s..." % (dt_json_enc, str(b)[:20])

print "time overhead in percent: %i%%"  % (100 * (dt_json_enc - dt_json)/dt_json)
share|improve this answer

I ran into this problem too, and having to deal with JSON, I came up with a small loop that converts the unicode keys to strings. (simplejson on GAE does not return string keys.)

obj is the object decoded from JSON:

if NAME_CLASS_MAP.has_key(cls):
    kwargs = {}
    for i in obj.keys():
        kwargs[str(i)] = obj[i]
    o = NAME_CLASS_MAP[cls](**kwargs)

kwargs is what I pass to the constructor of the GAE application (which does not like unicode keys in **kwargs)

Not as robust as the solution from Wells, but much smaller.

share|improve this answer

The function referenced here is a little too big to post directly (fair bit of comments and doctests).

It's different from others posted—it traverses all levels of a Python object. So, for example, dicts containing lists containing dicts containing strings are ASCII-fied at all levels. It also converts unicode characters to approximate UTF-8 equivalent (e.g. Señor → Senor).

share|improve this answer
Much is wrong here. Firstly, there are already plenty of answers here that convert all levels of deeply-nested objects (including my own, which does so with 80% less code). Secondly, the claim that 'n' is an "approximate UTF-8 equivalent" of 'ñ' is misleading nonsense; 'ñ' can be encoded just fine in UTF-8, as can every single unicode character. Finally, despite claiming to convert 'to ASCII', and trying to do this even faced with non-ASCII characters, this still fails to reliably do so; asciify("€"), for example, yields a UTF8-encoded euro sign, which is definitely not an ASCII character. – Mark Amery Feb 16 at 21:47

I had a json dict as a string. The keys and values where unicode objects like in the following example:

myStringDict = "{u'key':u'value'}"

I could use the byteify function suggested above by previously converting the string to a dict object using ast.literal_eval(myStringDict).

share|improve this answer
The example you have given is not an example of JSON. {u'key':u'value'} is not JSON. – Mark Amery Feb 16 at 21:54
I perfectly know it is not JSON. That's how it was parsed from an external source in my python script. If it was JSON directly like in the following example, I wouldn't need the byteify function marked as the solution: {"firstName":"John", "lastName":"Doe"}. It would be just great if before voting you read the answers. Thanks. – narko Feb 18 at 21:33

I've adapted the code from the answer of Mark Amery, particularly in order to get rid of isinstance for the pros of duck-typing.

The encoding is done manually and ensure_ascii is disabled. The python docs for json.dump says that

If ensure_ascii is True (the default), all non-ASCII characters in the output are escaped with \uXXXX sequences

Disclaimer: in the doctest I used the Hungarian language. Some notable Hungarian-related character encodings are: cp852 the IBM/OEM encoding used eg. in DOS (sometimes referred as ascii, incorrectly I think, it is dependent on the codepage setting), cp1250 used eg. in Windows (sometimes referred as ansi, dependent on the locale settings), and iso-8859-2, sometimes used on http servers. The test text Tüskéshátú kígyóbűvölő is attributed to Koltai László (native personal name form) and is from wikipedia.

# coding: utf-8
This file should be encoded correctly with utf-8.
import json

def encode_items(input, encoding='utf-8'):
    u"""original from:
    adapted by SO/u/611007 (20150623)
    >>> ## run this with `python -m doctest <this file>.py` from command line
    >>> txt = u"Tüskéshátú kígyóbűvölő"
    >>> txt2 = u"T\\u00fcsk\\u00e9sh\\u00e1t\\u00fa k\\u00edgy\\u00f3b\\u0171v\\u00f6l\\u0151"
    >>> txt3 = u"uúuutifu"
    >>> txt4 = b'u\\xfauutifu'
    >>> # txt4 shouldn't be 'u\\xc3\\xbauutifu', string content needs double backslash for doctest:
    >>> assert u'\\u0102' not in b'u\\xfauutifu'.decode('cp1250')
    >>> txt4u = txt4.decode('cp1250')
    >>> assert txt4u == u'u\\xfauutifu', repr(txt4u)
    >>> txt5 = b"u\\xc3\\xbauutifu"
    >>> txt5u = txt5.decode('utf-8')
    >>> txt6 = u"u\\u251c\\u2551uutifu"
    >>> there_and_back_again = lambda t: encode_items(t, encoding='utf-8').decode('utf-8')
    >>> assert txt == there_and_back_again(txt)
    >>> assert txt == there_and_back_again(txt2)
    >>> assert txt3 == there_and_back_again(txt3)
    >>> assert txt3.encode('cp852') == there_and_back_again(txt4u).encode('cp852')
    >>> assert txt3 == txt4u,(txt3,txt4u)
    >>> assert txt3 == there_and_back_again(txt5)
    >>> assert txt3 == there_and_back_again(txt5u)
    >>> assert txt3 == there_and_back_again(txt4u)
    >>> assert txt3.encode('cp1250') == encode_items(txt4, encoding='utf-8')
    >>> assert txt3.encode('utf-8') == encode_items(txt5, encoding='utf-8')
    >>> assert txt2.encode('utf-8') == encode_items(txt, encoding='utf-8')
    >>> assert {'a':txt2.encode('utf-8')} == encode_items({'a':txt}, encoding='utf-8')
    >>> assert [txt2.encode('utf-8')] == encode_items([txt], encoding='utf-8')
    >>> assert [[txt2.encode('utf-8')]] == encode_items([[txt]], encoding='utf-8')
    >>> assert [{'a':txt2.encode('utf-8')}] == encode_items([{'a':txt}], encoding='utf-8')
    >>> assert {'b':{'a':txt2.encode('utf-8')}} == encode_items({'b':{'a':txt}}, encoding='utf-8')
        return {encode_items(k): encode_items(v) for (k,v) in input.iteritems()}
    except AttributeError:
        if isinstance(input, unicode):
            return input.encode(encoding)
        elif isinstance(input, str):
            return input
            return [encode_items(e) for e in input]
        except TypeError:
            return input

def alt_dumps(obj, **kwargs):
    >>> alt_dumps({'a': u"T\\u00fcsk\\u00e9sh\\u00e1t\\u00fa k\\u00edgy\\u00f3b\\u0171v\\u00f6l\\u0151"})
    '{"a": "T\\xc3\\xbcsk\\xc3\\xa9sh\\xc3\\xa1t\\xc3\\xba k\\xc3\\xadgy\\xc3\\xb3b\\xc5\\xb1v\\xc3\\xb6l\\xc5\\x91"}'
    if 'ensure_ascii' in kwargs:
        del kwargs['ensure_ascii']
    return json.dumps(encode_items(obj), ensure_ascii=False, **kwargs)

I'd also like to highlight the answer of Jarret Hardie which references the JSON spec, quoting:

A string is a collection of zero or more Unicode characters

In my use-case I had files with json. They are utf-8 encoded files. ensure_ascii results in properly escaped but not very readable json files, that is why I've adapted Mark Amery's answer to fit my needs.

The doctest is not particularly thoughtful but I share the code in the hope that it will useful for someone.

share|improve this answer
I'm not sure I see the benefits of using duck typing here? We know that collections returned from json.loads are going to be lists or dicts, not some user-defined or library-defined type that implements their methods and magic methods, so why not just do an isinstance check? Isn't that easier to understand than checking for the existence of iteritems or whether iter will accept the object as an argument? – Mark Amery Nov 2 at 13:52
@MarkAmery this is about dumps, not loads. if you create data to dump - as opposed to loading it - you cannot be sure what it is. the idea was to let it come from anywhere in the code. – n611x007 Nov 3 at 7:53

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