I am working on a python/django application that serves as a web API server to its frontend counterpart. The data exchange between the server and the client is in JSON format with the use of XMLHttpRequest (Javascript). For those that are familiar with both Python and Javascript, you know that they have different identifier naming convention when it comes to variables/methods/attributes; Python uses names_with_underscores while Javascript prefers camelCaseNames. I would like to keep both conventions in their respective worlds and perform conversion on identifiers when data exchange happens.

I have decided to have the conversion performed on the server (Python). In my own opinion, the most logical place for this two-way conversion to happen is during JSON serialization/deserialization. How should I go about implementing this approach? Examples are highly appreciated.

Note that I am on Python 2.7.

up vote 15 down vote accepted

One way to do it using regular expressions,

import re

camel_pat = re.compile(r'([A-Z])')
under_pat = re.compile(r'_([a-z])')

def camel_to_underscore(name):
    return camel_pat.sub(lambda x: '_' + x.group(1).lower(), name)

def underscore_to_camel(name):
    return under_pat.sub(lambda x: x.group(1).upper(), name)

And,

>>> camel_to_underscore('camelCaseNames')
'camel_case_names'
>>> underscore_to_camel('names_with_underscores')
'namesWithUnderscores'

Note: You have to use a function (lambda expression here) for accomplishing the case change but that seems pretty straightforward.

EDIT:

If you truly wanted to intercept and adjust json objects between Python and Javascript you would have to rewrite functionality of the json module. But I think that is much more trouble than it's worth. Instead something like this would be equivalent and not be too much of a hit performance-wise.

To convert each key in a dict representing your json object, you can do something like this,

def convert_json(d, convert):
    new_d = {}
    for k, v in d.iteritems():
        new_d[convert(k)] = convert_json(v,convert) if isinstance(v,dict) else v
    return new_d

You only need to provide which function to apply,

>>> json_obj = {'nomNom': {'fooNom': 2, 'camelFoo': 3}, 'camelCase': {'caseFoo': 4, 'barBar': {'fooFoo': 44}}}
>>> convert_json(json_obj, camel_to_underscore)
{'nom_nom': {'foo_nom': 2, 'camel_foo': 3}, 'camel_case': {'case_foo': 4, 'bar_bar': {'foo_foo': 44}}}

You can wrap all of this logic in new load and dump functions,

import json

def convert_load(*args, **kwargs):
    json_obj = json.load(*args, **kwargs)
    return convert_json(json_obj, camel_to_underscore)

def convert_dump(*args, **kwargs):
    args = (convert_json(args[0], underscore_to_camel),) + args[1:]
    json.dump(*args, **kwargs)

And use then just as you would json.load and json.dump.

  • +1 nice one, great idea! – Peter Varo Jun 17 '13 at 20:40
  • @Jared - That's a good solution for the conversion. But do you know how I could intercept the JSON serialization/deserialization (I am using Python's json module) with your provided code? – tamakisquare Jun 17 '13 at 23:16
  • @tamakisquare So you just want to know how to iterate over each json key and convert? – Jared Jun 17 '13 at 23:38
  • No, I was looking for a way to intercept (or enhance the default behaviour of the serialization/deserialization process of Python's json module, so whenever I call the dump() and load() of json the identifiers/property names in the result would have already been converted with the logic you provided. It's just a cleaner way to incorporate the conversion logics. – tamakisquare Jun 17 '13 at 23:55
  • This approach does not correctly handle identifiers that include initialisms like "getDNSEntry". – Benji York Jun 14 '17 at 19:02

Jared's answer does not take into account the possibility of arrays with objects in a json object structure.

The solution requires three functions to recursively handle the arrays.

For converting from CamelCase to underscores_with_spaces:

def convert(s):
    a = re.compile('((?<=[a-z0-9])[A-Z]|(?!^)[A-Z](?=[a-z]))')
    return a.sub(r'_\1', s).lower()

For the json object

def convertJSON(j):
    out = {}
    for k in j:
        newK = convert(k)
        if isinstance(j[k],dict):
            out[newK] = convertJSON(j[k])
        elif isinstance(j[k],list):
            out[newK] = convertArray(j[k])
        else:
            out[newK] = j[k]
    return out

For arrays within the json object:

def convertArray(a):
    newArr = []
    for i in a:
        if isinstance(i,list):
            newArr.append(convertArray(i))
        elif isinstance(i, dict):
            newArr.append(convertJSON(i))
        else:
            newArr.append(i)
    return newArr

Usage:

convertJSON({
    "someObject": [
        {
            "anotherObject": "CamelCaseValue"
        },
        {
            "anotherObject": "AnotherCamelCaseValue"
        }
    ]
})

Yields:

{
    'some_object': [
        {
            'another_object': 'CamelCaseValue'
        },
        {
            'another_object': 'AnotherCamelCaseValue'
        }
    ]
}

I have improved on Evan Siroky's answer.

import re


class convert:
    def __init__(self):
        self.js_to_py_re = re.compile('((?<=[a-z0-9])[A-Z]|(?!^)[A-Z](?=[a-z]))')
        self.py_to_js_re = re.compile(r'_([a-z])')

    def convert_js_to_py(self, s):
        return self.js_to_py_re.sub(r'_\1', s).lower()

    def convert_py_to_js(self, s):
        return self.py_to_js_re.sub(lambda x: x.group(1).upper(), s)

    def js_to_py_JSON(self, j):
        out = {}
        for k in j:
            newK = self.convert_js_to_py(k)
            if isinstance(j[k], dict):
                out[newK] = self.js_to_py_JSON(j[k])
            elif isinstance(j[k], list):
                out[newK] = self.js_to_py_array(j[k])
            else:
                out[newK] = j[k]
        return out

    def js_to_py_array(self, a):
        newArr = []
        for i in a:
            if isinstance(i, list):
                newArr.append(self.js_to_py_array(i))
            elif isinstance(i, dict):
                newArr.append(self.js_to_py_JSON(i))
            else:
                newArr.append(i)
        return newArr

    def py_to_js_JSON(self, j):
        out = {}
        for k in j:
            newK = self.convert_py_to_js(k)
            if isinstance(j[k], dict):
                out[newK] = self.py_to_js_JSON(j[k])
            elif isinstance(j[k], list):
                out[newK] = self.py_to_js_array(j[k])
            else:
                out[newK] = j[k]
        return out

    def py_to_js_array(self, a):
        newArr = []
        for i in a:
            if isinstance(i, list):
                newArr.append(self.py_to_js_array(i))
            elif isinstance(i, dict):
                newArr.append(self.py_to_js_JSON(i))
            else:
                newArr.append(i)
        return newArr


if __name__ == '__main__':
    py_to_js = {
        'some_object': [
            {
                'another_object': 'CamelCaseValue'
            },
            {
                'another_object': 'AnotherCamelCaseValue'
            }
        ]
    }
    js_to_py = {
        "someObject": [
            {
                "anotherObject": "CamelCaseValue"
            },
            {
                "anotherObject": "AnotherCamelCaseValue"
            }
        ]
    }
    print convert().py_to_js_JSON(py_to_js)
    print convert().js_to_py_JSON(js_to_py)

The above yields:

{'someObject': [{'anotherObject': 'CamelCaseValue'}, {'anotherObject': 'AnotherCamelCaseValue'}]}
{'some_object': [{'another_object': 'CamelCaseValue'}, {'another_object': 'AnotherCamelCaseValue'}]}

I just found this answer after doing this myself for a project with TornadoWeb. So I rewrote it to use recursion, it's python 3.7, but could be easily adapted to python 2.7 by just changing the items to iteritems

def camel(snake_str):
    first, *others = snake_str.split('_')
    return ''.join([first.lower(), *map(str.title, others)])

def camelize_dict(snake_dict):
    new_dict = {}
    for key, value in snake_dict.items():
        new_key = camel(key)
        if isinstance(value, list):
            new_dict[new_key] = list(map(camelize_dict, value))
        elif isinstance(value, dict):
            new_dict[new_key] = camelize_dict(value)
        else:
            new_dict[new_key] = value
    return new_dict

just import camelize_dict(dictionary)

you can also camelize a string using a lambda:

camel = lambda key: ''.join([key.split('_')[0].lower(), *map(str.title, key.split('_')[1:])])

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