Python - TypeError: Object of type 'int64' is not JSON serializable

Question

I have a data frame that stores store name and daily sales count. I am trying to insert this to Salesforce using the Python script below.

However, I get the following error:

TypeError: Object of type 'int64' is not JSON serializable

Below, there is the view of the data frame.

Storename,Count
Store A,10
Store B,12
Store C,5

I use the following code to insert it to Salesforce.

update_list = []
for i in range(len(store)):
    update_data = {
        'name': store['entity_name'].iloc[i],
        'count__c': store['count'].iloc[i] 
    }
    update_list.append(update_data)

sf_data_cursor = sf_datapull.salesforce_login()
sf_data_cursor.bulk.Account.update(update_list)

I get the error when the last line above gets executed.

How do I fix this?

Answer 1

You can define your own encoder to solve this problem.

import json
import numpy as np

class NpEncoder(json.JSONEncoder):
    def default(self, obj):
        if isinstance(obj, np.integer):
            return int(obj)
        if isinstance(obj, np.floating):
            return float(obj)
        if isinstance(obj, np.ndarray):
            return obj.tolist()
        return super(NpEncoder, self).default(obj)

# Your codes .... 
json.dumps(data, cls=NpEncoder)

Answer 2

json does not recognize NumPy data types. Convert the number to a Python int before serializing the object:

'count__c': int(store['count'].iloc[i])

Answer 3

I'll throw in my answer to the ring as a bit more stable version of @Jie Yang's excellent solution.

My solution

numpyencoder and its repository.

from numpyencoder import NumpyEncoder

numpy_data = np.array([0, 1, 2, 3])

with open(json_file, 'w') as file:
    json.dump(numpy_data, file, indent=4, sort_keys=True,
              separators=(', ', ': '), ensure_ascii=False,
              cls=NumpyEncoder)

The breakdown

If you dig into hmallen's code in the numpyencoder/numpyencoder.py file you'll see that it's very similar to @Jie Yang's answer:

class NumpyEncoder(json.JSONEncoder):
    """ Custom encoder for numpy data types """
    def default(self, obj):
        if isinstance(obj, (np.int_, np.intc, np.intp, np.int8,
                            np.int16, np.int32, np.int64, np.uint8,
                            np.uint16, np.uint32, np.uint64)):

            return int(obj)

        elif isinstance(obj, (np.float_, np.float16, np.float32, np.float64)):
            return float(obj)

        elif isinstance(obj, (np.complex_, np.complex64, np.complex128)):
            return {'real': obj.real, 'imag': obj.imag}

        elif isinstance(obj, (np.ndarray,)):
            return obj.tolist()

        elif isinstance(obj, (np.bool_)):
            return bool(obj)

        elif isinstance(obj, (np.void)): 
            return None

        return json.JSONEncoder.default(self, obj)

Answer 4

A very simple numpy encoder can achieve similar results more generically.

Note this uses the np.generic class (which most np classes inherit from) and uses the a.item() method.

If the object to encode is not a numpy instance, then the json serializer will continue as normal. This is ideal for dictionaries with some numpy objects and some other class objects.

import json
import numpy as np

def np_encoder(object):
    if isinstance(object, np.generic):
        return object.item()

json.dumps(obj, default=np_encoder)

Answer 5

Actually, there is no need to write an encoder, just changing the default to str when calling the json.dumps function takes care of most types by itself so in one line of code:

json.dumps(data, default=str)

From the docs of json.dumps and json.dump: https://docs.python.org/3/library/json.html#json.dump

If specified, default should be a function that gets called for objects that can’t otherwise be serialized. It should return a JSON encodable version of the object or raise a TypeError. If not specified, TypeError is raised.

So calling str converts the numpy types (such as numpy ints or numpy floats) to strings that can be parsed by json. If you have numpy arrays or ranges, they have to be converted to lists first though. In this case, writing an encoder as suggested by Jie Yang might be a more suitable solution.

Answer 6

If you are going to serialize a numpy array, you can simply use ndarray.tolist() method.

From numpy docs,

a.tolist() is almost the same as list(a), except that tolist changes numpy scalars to Python scalars

In [1]: a = np.uint32([1, 2])

In [2]: type(list(a)[0])
Out[2]: numpy.uint32

In [3]: type(a.tolist()[0])
Out[3]: int

Answer 7

This might be the late response, but recently i got the same error. After lot of surfing this solution helped me.

def myconverter(obj):
        if isinstance(obj, np.integer):
            return int(obj)
        elif isinstance(obj, np.floating):
            return float(obj)
        elif isinstance(obj, np.ndarray):
            return obj.tolist()
        elif isinstance(obj, datetime.datetime):
            return obj.__str__()

Call myconverter in json.dumps() like below. json.dumps('message', default=myconverter)

Answer 8

If you have this error

TypeError: Object of type 'int64' is not JSON serializable

You can change that specific columns with int dtype to float64, as example:

df = df.astype({'col1_int':'float64', 'col2_int':'float64', etc..})

Float64 is written fine in Google Spreadsheets

Answer 9

Here's a version that handles bools and NaN values-which are not part of JSON spec-as null.

import json
import numpy as np

class NpJsonEncoder(json.JSONEncoder):
  """Serializes numpy objects as json."""

  def default(self, obj):
    if isinstance(obj, np.integer):
      return int(obj)
    elif isinstance(obj, np.bool_):
      return bool(obj)
    elif isinstance(obj, np.floating):
      if np.isnan(obj):
        return None  # Serialized as JSON null.
      return float(obj)
    elif isinstance(obj, np.ndarray):
      return obj.tolist()
    else:
      return super().default(obj)

# Your code ... 
json.dumps(data, cls=NpEncoder)

Answer 10

There are excellent answers in this post, suitable for most cases. However, I needed a solution which works for all numpy types (e.g. complex numbers) and returns json conform (i.e. comma as list separator).

Numpy solution

Another option is to convert numpy arrays or values to strings numpy internally, i.e.: np.array2string. This option should be quite robust and you can adopt the output as needed.

import sys
import numpy as np

def np_encoder(obj):
    if isinstance(obj, (np.generic, np.ndarray)):
        out = np.array2string(obj,
                              separator=',',
                              threshold=sys.maxsize,
                              precision=50,
                              floatmode='maxprec')
        # remove whitespaces and '\n'
        return out.replace(' ','').replace('\n','')

# example usage
data = np.array([0, 1+0j, 3.123, -1, 2, -5, 10], dtype=np.complex128)
json.dumps({'value': data[-1], 'array': data}, default=np_encoder)
# '{"value": "10.+0.j",
#   "array": "[0.+0.j, 1.+0.j, 3.123+0.j, -1.+0.j, 2.+0.j, -5.+0.j, 10.+0.j]"}'

Comments:

• To be json list conform, separator must be set to separator=','
• threshold=sys.maxsize returns as may entries as possible without new triggering summarization (...,).
• With the other parameters (precision, floatmode, formatter, ...) you can adopt your output as needed.
• For a compact json, I removed all whitespaces and linebreaks (.replace(' ','').replace('\n','')).

Answer 11

update_data = {
    'name': str(store['entity_name'].iloc[i]),
    'count__c': str(store['count'].iloc[i]) 
}

Answer 12

If you have control over the creation of DataFrame, you can force it to use standard Python types for values (e.g. int instead of numpy.int64) by setting dtype to object:

df = pd.DataFrame(data=some_your_data, dtype=object)

The obvious downside is that you get less performance than with primitive datatypes. But I like this solution tbh, it's really simple and eliminates all possible type problems. No need to give any hints to the ORM or json.

Answer 13

I was able to make it work with loading the dump.

Code:

import json

json.loads(json.dumps(your_df.to_dict()))