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I am using the standard json module in python 2.6 to serialize a list of floats. However, I'm getting results like this:

>>> import json
>>> json.dumps([23.67, 23.97, 23.87])
'[23.670000000000002, 23.969999999999999, 23.870000000000001]'

I want the floats to be formated with only two decimal digits. The output should look like this:

>>> json.dumps([23.67, 23.97, 23.87])
'[23.67, 23.97, 23.87]'

I have tried defining my own JSON Encoder class:

class MyEncoder(json.JSONEncoder):
    def encode(self, obj):
        if isinstance(obj, float):
            return format(obj, '.2f')
        return json.JSONEncoder.encode(self, obj)

This works for a sole float object:

>>> json.dumps(23.67, cls=MyEncoder)
'23.67'

But fails for nested objects:

>>> json.dumps([23.67, 23.97, 23.87])
'[23.670000000000002, 23.969999999999999, 23.870000000000001]'

I don't want to have external dependencies, so I prefer to stick with the standard json module.

How can I achieve this?

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9 Answers

up vote 33 down vote accepted

Unfortunately, I believe you have to do this by monkey-patching (which, to my opinion, indicates a design defect in the standard library json package). E.g., this code:

import json
from json import encoder
encoder.FLOAT_REPR = lambda o: format(o, '.2f')

print json.dumps(23.67)
print json.dumps([23.67, 23.97, 23.87])

emits:

23.67
[23.67, 23.97, 23.87]

as you desire. Obviously, there should be an architected way to override FLOAT_REPR so that EVERY representation of a float is under your control if you wish it to be; but unfortunately that's not how the json package was designed:-(.

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2  
This solution does not work in Python 2.7 using Python's C version of the JSON encoder. –  Nelson Apr 6 '11 at 23:14
    
It works for me in Python 2.7.3. –  MiniQuark Aug 16 '12 at 20:37
6  
However you do this, use something like %.15g or %.12g instead of %.3f . –  Guido van Rossum Mar 12 '13 at 21:04
7  
I found this snippet in a junior programmer's code. This would have created a very serious but subtle bug if it had not been caught. Can you please place a warning on this code explaining the global implications of this monkey patching. –  Rory Hart Apr 25 '13 at 3:13
    
It's good hygiene to set it back when you're done: original_float_repr = encoder.FLOAT_REPR encoder.FLOAT_REPR = lambda o: format(o, '.2f') print json.dumps(1.0001) encoder.FLOAT_REPR = original_float_repr –  Jeff Kaufman Oct 18 '13 at 17:05
show 2 more comments
import simplejson

class PrettyFloat(float):
    def __repr__(self):
        return '%.15g' % self

def pretty_floats(obj):
    if isinstance(obj, float):
        return PrettyFloat(obj)
    elif isinstance(obj, dict):
        return dict((k, pretty_floats(v)) for k, v in obj.items())
    elif isinstance(obj, (list, tuple)):
        return map(pretty_floats, obj)             
    return obj

print simplejson.dumps(pretty_floats([23.67, 23.97, 23.87]))

emits

[23.67, 23.97, 23.87]

No monkeypatching necessary.

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1  
I like this solution; better integration, and works with 2.7. Because I am building up the data myself anyway, I eliminated the pretty_floats function and simply integrated it into my other code. –  mikepurvis Feb 22 '12 at 21:25
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If you're using Python 2.7, a simple solution is to simply round your floats explicitly to the desired precision.

>>> sys.version
'2.7.1 (r271:86832, Nov 27 2010, 18:30:46) [MSC v.1500 32 bit (Intel)]'
>>> json.dumps(1.0/3.0)
'0.3333333333333333'
>>> json.dumps(round(1.0/3.0, 2))
'0.33'

This works because Python 2.7 made float rounding more consistent. Unfortunately this does not work in Python 2.6:

>>> sys.version
'2.6.6 (r266:84292, Dec 27 2010, 00:02:40) \n[GCC 4.4.5]'
>>> json.dumps(round(1.0/3.0, 2))
'0.33000000000000002'

The solutions mentioned above are workarounds for 2.6, but none are entirely adequate. Monkey patching json.encoder.FLOAT_REPR does not work if your Python runtime uses a C version of the JSON module. The PrettyFloat class in Tom Wuttke's answer works, but only if %g encoding works globally for your application. The %.15g is a bit magic, it works because float precision is 17 significant digits and %g does not print trailing zeroes.

I spent some time trying to make a PrettyFloat that allowed customization of precision for each number. Ie, a syntax like

>>> json.dumps(PrettyFloat(1.0 / 3.0, 4))
'0.3333'

It's not easy to get this right. Inheriting from float is awkward. Inheriting from Object and using a JSONEncoder subclass with its own default() method should work, except the json module seems to assume all custom types should be serialized as strings. Ie: you end up with the Javascript string "0.33" in the output, not the number 0.33. There may be a way yet to make this work, but it's harder than it looks.

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Another approach for Python 2.6 using JSONEncoder.iterencode and pattern matching can be seen at github.com/migurski/LilJSON/blob/master/liljson.py –  Nelson Nov 21 '12 at 18:35
    
Hopefully this makes passing around your floats more lightweight - I like how we can avoid messing with the JSON classes which can suck. –  Lincoln B Dec 25 '12 at 2:11
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You can do what you need to do, but it isn't documented:

>>> import json
>>> json.encoder.FLOAT_REPR = lambda f: ("%.2f" % f)
>>> json.dumps([23.67, 23.97, 23.87])
'[23.67, 23.97, 23.87]'
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If you're stuck with Python 2.5 or earlier versions: The monkey-patch trick does not seem to work with the original simplejson module if the C speedups are installed:

$ python
Python 2.5.4 (r254:67916, Jan 20 2009, 11:06:13) 
[GCC 4.2.1 (SUSE Linux)] on linux2
Type "help", "copyright", "credits" or "license" for more information.
>>> import simplejson
>>> simplejson.__version__
'2.0.9'
>>> simplejson._speedups
<module 'simplejson._speedups' from '/home/carlos/.python-eggs/simplejson-2.0.9-py2.5-linux-i686.egg-tmp/simplejson/_speedups.so'>
>>> simplejson.encoder.FLOAT_REPR = lambda f: ("%.2f" % f)
>>> simplejson.dumps([23.67, 23.97, 23.87])
'[23.670000000000002, 23.969999999999999, 23.870000000000001]'
>>> simplejson.encoder.c_make_encoder = None
>>> simplejson.dumps([23.67, 23.97, 23.87])
'[23.67, 23.97, 23.87]'
>>>
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Alex Martelli's solution will work for single threaded apps, but may not work for multi-threaded apps that need to control the number of decimal places per thread. Here is a solution that should work in multi threaded apps:

import threading
from json import encoder

def FLOAT_REPR(f):
    """
    Serialize a float to a string, with a given number of digits
    """
    decimal_places = getattr(encoder.thread_local, 'decimal_places', 0)
    format_str = '%%.%df' % decimal_places
    return format_str % f

encoder.thread_local = threading.local()
encoder.FLOAT_REPR = FLOAT_REPR     

#As an example, call like this:
import json

encoder.thread_local.decimal_places = 1
json.dumps([1.56, 1.54]) #Should result in '[1.6, 1.5]'

You can merely set encoder.thread_local.decimal_places to the number of decimal places you want, and the next call to json.dumps() in that thread will use that number of decimal places

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Pros:

  • Works with any JSON encoder, or even python's repr.
  • Short(ish), seems to work.

Cons:

  • Ugly regexp hack, barely tested.
  • Quadratic complexity.

    def fix_floats(json, decimals=2, quote='"'):
        pattern = r'^((?:(?:"(?:\\.|[^\\"])*?")|[^"])*?)(-?\d+\.\d{'+str(decimals)+'}\d+)'
        pattern = re.sub('"', quote, pattern) 
        fmt = "%%.%df" % decimals
        n = 1
        while n:
            json, n = re.subn(pattern, lambda m: m.group(1)+(fmt % float(m.group(2)).rstrip('0')), json)
        return json
    
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If you need to do this in python 2.7 without overriding the global json.encoder.FLOAT_REPR, here's one way.

import json
import math

class MyEncoder(json.JSONEncoder):
    "JSON encoder that renders floats to two decimal places"

    FLOAT_FRMT = '{0:.2f}'

    def floatstr(self, obj):
        return self.FLOAT_FRMT.format(obj)

    def _iterencode(self, obj, markers=None):
        # stl JSON lame override #1
        new_obj = obj
        if isinstance(obj, float):
            if not math.isnan(obj) and not math.isinf(obj):
                new_obj = self.floatstr(obj)
        return super(MyEncoder, self)._iterencode(new_obj, markers=markers)

    def _iterencode_dict(self, dct, markers=None):
        # stl JSON lame override #2
        new_dct = {}
        for key, value in dct.iteritems():
            if isinstance(key, float):
                if not math.isnan(key) and not math.isinf(key):
                    key = self.floatstr(key)
            new_dct[key] = value
        return super(MyEncoder, self)._iterencode_dict(new_dct, markers=markers)

Then, in python 2.7:

>>> from tmp import MyEncoder
>>> enc = MyEncoder()
>>> enc.encode([23.67, 23.98, 23.87])
'[23.67, 23.98, 23.87]'

In python 2.6, it doesn't quite work as Matthew Schinckel points out below:

>>> import MyEncoder
>>> enc = MyEncoder()  
>>> enc.encode([23.67, 23.97, 23.87])
'["23.67", "23.97", "23.87"]'
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Those look like strings, not numbers. –  Matthew Schinckel Jan 14 '12 at 12:57
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When importing the standard json module, it is enough to change the default encoder FLOAT_REPR. There isn't really the need to import or create Encoder instances.

import json
json.encoder.FLOAT_REPR = lambda o: format(o, '.2f')

json.dumps([23.67, 23.97, 23.87]) #returns  '[23.67, 23.97, 23.87]'

Sometimes is also very useful to output as json the best representation python can guess with str. This will make sure signifficant digits are not ignored.

import json
json.dumps([23.67, 23.9779, 23.87489])
# output is'[23.670000000000002, 23.977900000000002, 23.874890000000001]'

json.encoder.FLOAT_REPR = str
json.dumps([23.67, 23.9779, 23.87489])
# output is '[23.67, 23.9779, 23.87489]'
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