I am using sklearn and having a problem with the affinity propagation. I have built an input matrix and I keep getting the following error.

ValueError: Input contains NaN, infinity or a value too large for dtype('float64').

I have run

np.isnan(mat.any()) #and gets False
np.isfinite(mat.all()) #and gets True

I tried using

mat[np.isfinite(mat) == True] = 0

to remove the infinite values but this did not work either. What can I do to get rid of the infinite values in my matrix, so that I can use the affinity propagation algorithm?

I am using anaconda and python 2.7.9.

  • 4
    I'm voting to close this, as the author says himself that his data was invalid and though everything pointed to it, he didn't validate -- the data equivalent to a typo, which is a closing reason. Commented Sep 6, 2015 at 18:55
  • 34
    I had this same issue with my dataset. Ultimately: a data mistake, not a scikit learn bug. Most of the answers below are helpful but misleading. Check check check your data, make sure that when converted to float64 it is both finite and not nan. The error message is apt - this is almost certainly the issue for anyone who finds themselves here.
    – Owen
    Commented Dec 7, 2016 at 13:52
  • 1
    For the record and +1 for @Owen, check your input data and make sure you do not have any missing value in any row or grid. You can use the Imputer class to avoid this problem.
    – abautista
    Commented Jun 20, 2018 at 21:29
  • i have that problem with kaggle's kc_house_data.csv dataset. I am trying to do a linear regression using the variables : ['bedrooms','bathrooms','sqft_living','sqft_lot','floors', 'waterfront','view','grade','sqft_above','sqft_basement', 'lat','sqft_living15']
    – robintux
    Commented Dec 10, 2021 at 2:06
  • yeah I have the same problem, I am 100% confident I don't have any NaN or big numbers, and I tried to fill them in every possible way even though it doesn't even find any Commented Nov 23, 2023 at 13:45

27 Answers 27


This might happen inside scikit, and it depends on what you're doing. I recommend reading the documentation for the functions you're using. You might be using one which depends e.g. on your matrix being positive definite and not fulfilling that criteria.

EDIT: How could I miss that:

np.isnan(mat.any()) #and gets False
np.isfinite(mat.all()) #and gets True

is obviously wrong. Right would be:




You want to check whether any of the elements are NaN, and not whether the return value of the any function is a number...

  • 7
    The docs dont mention anything about this error I need a way of getting rid of the infinite values from my nupy array Commented Jul 9, 2015 at 17:19
  • 6
    As I said: They are maybe not in your input array. They might occur in the math that happens between input and magical output. The point is that all this math depends on certain conditions for the input. You have to carefully read the docs to find out whether your input satisifies these conditions. Commented Jul 10, 2015 at 7:54
  • 4
    @MarcusMüller could you point me to the location of this document where they specify the requirements of the input matrix? I can't seem to find the "docs" you are referring to. Thank you :) Commented Feb 23, 2017 at 21:35

I got the same error message when using sklearn with pandas. My solution is to reset the index of my dataframe df before running any sklearn code:

df = df.reset_index()

I encountered this issue many times when I removed some entries in my df, such as

df = df[df.label=='desired_one']
  • 9
    I love you! That's a rare instance of me finding the right solution despite not knowing what's the cause of the error! Commented Aug 9, 2018 at 14:25
  • 10
    By doing the df.reset_index() it will add the "index" as a column in the resulting df. Which may not be useful for all scenario. If the df.reset_index(drop=True) ran then it will throw the same error.
    – smm
    Commented Sep 18, 2018 at 18:19

This is my function (based on this) to clean the dataset of nan, Inf, and missing cells (for skewed datasets):

import pandas as pd
import numpy as np

def clean_dataset(df):
    assert isinstance(df, pd.DataFrame), "df needs to be a pd.DataFrame"
    indices_to_keep = ~df.isin([np.nan, np.inf, -np.inf]).any(axis=1)
    return df[indices_to_keep].astype(np.float64)
  • 1
    Why do you drop the nan two times? First time with dropna then a second time when dropping inf.
    – luca
    Commented Jun 25, 2018 at 9:04
  • 1
    I loss some data when I use this function to clean my dataset. Any sugetions why??? Commented Sep 17, 2019 at 17:10
  • 9
    This is the only answer that worked. I tried 20 other answers on SO that did not work. I think this one needs more upvotes.
    – Contango
    Commented Jul 5, 2020 at 13:23
  • 1
    This answer works for me as well. Commented Aug 20, 2022 at 6:29
  • FYI: This approach throws the following warning: FutureWarning: In a future version of pandas all arguments of DataFrame.any and Series.any will be keyword-only. indices_to_keep = ~df.isin([np.nan, np.inf, -np.inf]).any(1)
    – A.Casanova
    Commented Feb 6, 2023 at 9:17

In most cases getting rid of infinite and null values solve this problem.

get rid of infinite values.

df.replace([np.inf, -np.inf], np.nan, inplace=True)

get rid of null values the way you like, specific value such as 999, mean, or create your own function to impute missing values

df.fillna(999, inplace=True)

This is the check on which it fails:

Which says

def _assert_all_finite(X):
    """Like assert_all_finite, but only for ndarray."""
    X = np.asanyarray(X)
    # First try an O(n) time, O(1) space solution for the common case that
    # everything is finite; fall back to O(n) space np.isfinite to prevent
    # false positives from overflow in sum method.
    if (X.dtype.char in np.typecodes['AllFloat'] and not np.isfinite(X.sum())
            and not np.isfinite(X).all()):
        raise ValueError("Input contains NaN, infinity"
                         " or a value too large for %r." % X.dtype)

So make sure that you have non NaN values in your input. And all those values are actually float values. None of the values should be Inf either.


The Dimensions of my input array were skewed, as my input csv had empty spaces.


Problem seems to occur in DecisionTreeClassifier input check, Try

X_train = X_train.replace((np.inf, -np.inf, np.nan), 0).reset_index(drop=True)

With this version of python 3:

/opt/anaconda3/bin/python --version
Python 3.6.0 :: Anaconda 4.3.0 (64-bit)

Looking at the details of the error, I found the lines of codes causing the failure:

/opt/anaconda3/lib/python3.6/site-packages/sklearn/utils/validation.py in _assert_all_finite(X)
     56             and not np.isfinite(X).all()):
     57         raise ValueError("Input contains NaN, infinity"
---> 58                          " or a value too large for %r." % X.dtype)

ValueError: Input contains NaN, infinity or a value too large for dtype('float64').

From this, I was able to extract the correct way to test what was going on with my data using the same test which fails given by the error message: np.isfinite(X)

Then with a quick and dirty loop, I was able to find that my data indeed contains nans:

index = 0
for i in p[:,0]:
    if not np.isfinite(i):
        print(index, i)
    index +=1

4454 nan
6940 nan
10868 nan
12753 nan
14855 nan
15678 nan
24954 nan
30251 nan
31108 nan
51455 nan
59055 nan

Now all I have to do is remove the values at these indexes.


None of the answers here worked for me. This was what worked.

Test_y = np.nan_to_num(Test_y)

It replaces the infinity values with high finite values and the nan values with numbers

  • 1
    using your suggestion on my x_train and x_test solved the problem for me.
    – wandesky
    Commented Nov 1, 2021 at 3:42

I had the same error, and in my case X and y were dataframes so I had to convert them to matrices first:

X = X.values.astype(np.float)
y = y.values.astype(np.float)

Edit: The originally suggested X.as_matrix() is Deprecated


I had the error after trying to select a subset of rows:

df = df.reindex(index=my_index)

Turns out that my_index contained values that were not contained in df.index, so the reindex function inserted some new rows and filled them with nan.


Remove all infinite values:

(and replace with min or max for that column)

import numpy as np

# generate example matrix
matrix = np.random.rand(5,5)
matrix[0,:] = np.inf
matrix[2,:] = -np.inf
>>> matrix
array([[       inf,        inf,        inf,        inf,        inf],
       [0.87362809, 0.28321499, 0.7427659 , 0.37570528, 0.35783064],
       [      -inf,       -inf,       -inf,       -inf,       -inf],
       [0.72877665, 0.06580068, 0.95222639, 0.00833664, 0.68779902],
       [0.90272002, 0.37357483, 0.92952479, 0.072105  , 0.20837798]])

# find min and max values for each column, ignoring nan, -inf, and inf
mins = [np.nanmin(matrix[:, i][matrix[:, i] != -np.inf]) for i in range(matrix.shape[1])]
maxs = [np.nanmax(matrix[:, i][matrix[:, i] != np.inf]) for i in range(matrix.shape[1])]

# go through matrix one column at a time and replace  + and -infinity 
# with the max or min for that column
for i in range(matrix.shape[1]):
    matrix[:, i][matrix[:, i] == -np.inf] = mins[i]
    matrix[:, i][matrix[:, i] == np.inf] = maxs[i]

>>> matrix
array([[0.90272002, 0.37357483, 0.95222639, 0.37570528, 0.68779902],
       [0.87362809, 0.28321499, 0.7427659 , 0.37570528, 0.35783064],
       [0.72877665, 0.06580068, 0.7427659 , 0.00833664, 0.20837798],
       [0.72877665, 0.06580068, 0.95222639, 0.00833664, 0.68779902],
       [0.90272002, 0.37357483, 0.92952479, 0.072105  , 0.20837798]])

I found that after calling pct_change on a new column that nan existed in one of rows. I remove the nan row with the following code

df = df.replace([np.inf, -np.inf], np.nan)
df = df.dropna()
df = df.reset_index()

i got the same error. it worked with df.fillna(-99999, inplace=True) before doing any replacement, substitution etc

  • 5
    This is a dirty fix. There is a reason why your array contains nan values; you should find it. Commented Jun 25, 2018 at 15:31
  • the data could contain nan and this gives a way to replace it with data with values that he/she finds acceptable Commented Sep 9, 2018 at 21:37
  • Is this adding outliers to the missing data?
    – ah bon
    Commented Mar 24, 2023 at 1:11

I would like to propose a solution for numpy that worked well for me. The line

from numpy import inf
inputArray[inputArray == inf] = np.finfo(np.float64).max

substitues all infite values of a numpy array with the maximum float64 number.


Puff !! In my case the problem was about NaN values...

You can list your columns that had NaN with this function


and then you can fill these NAN values in your dataset file.

Here is the code for how to "Replace NaN with zero and infinity with large finite numbers."

your_data[:] = np.nan_to_num(your_data)

from numpy.nan_to_num


If you happen to use the "kc_house_data.csv" dataset (which some commenters and many data-science newcomers seem to use, because it's presented in lots of popular course material), the data is faulty and the true source for the error.

To fix it, as of 2022:

  • Delete the last (empty) line in the csv file
  • There are two lines that contain one empty data value "x,x,,x,x" - to fix it, don't delete the comma, instead add a random integer value like 2000, so it looks like this "x,x,2000,x,x"

Don't forget to save and reload in your project.

All the other answers are helpful and correct, but not in this case:

If you use kc_house_data.csv you need to fix the data in the file, nothing else will help, the empty data field will shift the other data around randomly and generate weird bugs that are hard to track to the source!


In my case the problem was that many scikit functions return numpy arrays, which are devoid of pandas index. So there was an index mismatch when I used those numpy arrays to build new DataFrames and then I tried to mix them with the original data.

dataset = dataset.dropna(axis=0, how='any', thresh=None, subset=None, inplace=False)

This worked for me


I had the same issue, in my case the answer was simply that I had a cell in my CSV with no value ("x,y,z,,"). Putting a default value in fixed it for me.


Using isneginf may help. http://docs.scipy.org/doc/numpy/reference/generated/numpy.isneginf.html#numpy.isneginf

x[numpy.isneginf(x)] = 0 #0 is the value you want to replace with

Note: This solution only applies if you consciously want to keep NaN entries in your dataset.

This error happened to me when I was using some of the scikit-learn functionality (in my case: GridSearchCV). Under the hood I was using an xgboost XGBClassifier which handles NaN data gracefully. However, GridSearchCV was using sklearn.utils.validation module that encforced lack of missing data in the input data by calling _assert_all_finite function. This was ultimately causing an error:

ValueError: Input contains NaN, infinity or a value too large for dtype('float64')

Sidenote: _assert_all_finite accepts an allow_nan argument, which, if set to True, would not be causing issues. However, scikit-learn API does not allow us to have control over this argument.


My solution was to use patch module to silence the _assert_all_finite function so that it does not raise ValueError. Here is a snippet

import sklearn
with mock.patch("sklearn.utils.validation._assert_all_finite"):
    # your code that raises ValueError

this will replace the _assert_all_finite by a dummy mock function so it won't get executed.

Please note that patching is not a recommended practice and might result in unpredictable behaviour!

EDIT: This Pull Request should resolve the issue (though the fix has not been released as of Jan 2022)


If you're running an estimator, it could be that your learning rate is too high. I passed in the wrong array to a grid search by accident and ended up training with a learning rate of 500, which I could see causing issues with the training process.

Basically it's not necessarily only your inputs that have to all be valid, but the intermediate data as well.


After a long time of dealing with this problem, I realized that this is because in splits of training and testing sets there are columns of data which are the same for all data rows. Then some calculations in some algorithms may lead to infinity results. If the data that you are using is in a way that close rows are more likely to be similar then shuffling the data can help. This is a bug with scikit. I'm using version 0.23.2.


In my case the algorithm required data to be between (0,1) noninclusive. My quite brutal solutions was to add a small random number to all desired values:

y_train = pd.DataFrame(y_train).applymap(lambda x: x + np.random.rand()/100000.0)["col_name"]
y_train[y_train >= 1] = 0.999999

while y_train is in the range of [0,1].

This is definitely not suitable for all cases, as you are messing with your input data but can be a solution if you have sparse data and only need a quick forecast




In my case the PowerScaler with standardize=True is causing the problem. As @TomaszBartkowiak already explained, the assertion is raised in sklearn.utils.validation._asser_all_finite which seems to be used in many places before aggregations like np.sum in my case.

I check all the conditions manually (dtypes, nan, inf, -inf) and found that no reason why the assertion still fails. So i simply temporarily comment out the check in _asser_all_finit line 108:

is_float = X.dtype.kind in "fc"
if True:#is_float and (np.isfinite(_safe_accumulator_op(np.sum, X))):
elif is_float:

After the successful execution of PowerScaler i change the code back. This is quick and dirty, but if you are really confident with your data and this happens seeming for no reason, you can solve it this way. But in general speaking the probability is very high that the data does contains INF/-INF somewhere. So better dig deeper. In case of Scaler you can easily find the columns with INF/-INF in output, so that you can go back and check these columns again in the input data. I don't know why though why the checks didn't work in the first place before using the Scaler ...




If the sum of your data is infinity (greater that the max float value which is 3.402823e+38) you will get that error.

see the _assert_all_finite function in validation.py from the scikit source code:

if is_float and np.isfinite(X.sum()):
elif is_float:
    msg_err = "Input contains {} or a value too large for {!r}."
    if (allow_nan and np.isinf(X).any() or
            not allow_nan and not np.isfinite(X).all()):
        type_err = 'infinity' if allow_nan else 'NaN, infinity'
        # print(X.sum())
        raise ValueError(msg_err.format(type_err, X.dtype))

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