I have a DataFrame in pandas where some of the numbers are expressed in scientific notation (or exponent notation) like this:

                  id        value
id              1.00    -4.22e-01
value          -0.42     1.00e+00
percent        -0.72     1.00e-01
played          0.03    -4.35e-02
money          -0.22     3.37e-01
other            NaN          NaN
sy             -0.03     2.19e-04
sz             -0.33     3.83e-01

And the scientific notation makes what should be an easy comparison, needlessly difficult. I assume it's the 21900 value that's screwing it up for the others. I mean 1.0 is encoded. ONE!

This doesn't work:


And pandas.set_printoptions doesn't implement suppress either, and I've looked all at pd.describe_options() in despair, and pd.core.format.set_eng_float_format() only seems to turn it on for all the other float values, with no ability to turn it off.

  • 2
    Dd you fix the typo in np.set_printoptions(suppress=True) - two p's in suppress?
    – smci
    Commented Nov 16, 2016 at 14:50
  • I believe this question should be reopened because it has the best answer and was asked earlier than the one it was closed as a duplicate of. Commented Jul 20, 2023 at 17:12
  • 1
    @JosiahYoder, Just because it is closed, doesnt mean it is deleted. It just stops more answers. Commented Jul 29, 2023 at 14:22

6 Answers 6


quick temporary: df.round(4)

global: pd.options.display.float_format = '{:20,.2f}'.format

The :20 means the total width should be twenty characters, padded with whitespace on the left if it would otherwise be shorter. You can use simply '{:,.2f}' if you don't want to specify the number.

The .2f means that there should be two digits after the decimal point, even if they are zeros.

For more custom and advanced styling, see Apply Formatting to Each Column in Dataframe Using a Dict Mapping, pandas table styling and pandas format.

For example you can do df.style.format(precision=2), format each column dfg.style.format({'column_pct':'{:.1%}'}) and many other useful things. Note df.style only works in jupyter but this solution lets you store the results in the dataframe to display in the console as well.

  • 3
    try this experiment: print('{:20,.8f}'.format(12333344445676.0123456789)), then adjust the 20 to 40 and see what happens and I think you'll have your answer. you can use this same style formatter on numbers in a print statement.
    – TMWP
    Commented Jul 26, 2017 at 4:12
  • Fwiw you might also want to suppress the data type output
    – citynorman
    Commented Oct 6, 2017 at 20:58
  • 2
    Agree with @Bouncner, I also tried many solutions but found that only this solution can print a specific number of decimal points for float values in pandas as expected.
    – Good Fit
    Commented Apr 22, 2018 at 21:00
  • 1
    Great! For scientific notation, use '{:e}'.format Commented May 10, 2021 at 18:30

Your data is probably object dtype. This is a direct copy/paste of your data. read_csv interprets it as the correct dtype. You should normally only have object dtype on string-like fields.

In [5]: df = read_csv(StringIO(data),sep='\s+')

In [6]: df
           id     value
id       1.00 -0.422000
value   -0.42  1.000000
percent -0.72  0.100000
played   0.03 -0.043500
money   -0.22  0.337000
other     NaN       NaN
sy      -0.03  0.000219
sz      -0.33  0.383000

check if your dtypes are object

In [7]: df.dtypes
id       float64
value    float64
dtype: object

This converts this frame to object dtype (notice the printing is funny now)

In [8]: df.astype(object)
           id     value
id          1    -0.422
value   -0.42         1
percent -0.72       0.1
played   0.03   -0.0435
money   -0.22     0.337
other     NaN       NaN
sy      -0.03  0.000219
sz      -0.33     0.383

This is how to convert it back (astype(float)) also works here

In [9]: df.astype(object).convert_objects()
           id     value
id       1.00 -0.422000
value   -0.42  1.000000
percent -0.72  0.100000
played   0.03 -0.043500
money   -0.22  0.337000
other     NaN       NaN
sy      -0.03  0.000219
sz      -0.33  0.383000

This is what an object dtype frame would look like

In [10]: df.astype(object).dtypes
id       object
value    object
dtype: object
  • Actually the column was int64, that had then been df.corr() 'd which returns all float64s Commented Jul 23, 2013 at 3:36
  • 1
    if you have NaN in the column it could NOT have been int64; only float64 or object
    – Jeff
    Commented Jul 23, 2013 at 8:39
  • df.corr() returns NaNs when the stddev of a column is 0. Commented Jul 23, 2013 at 21:47
  • they may have started out as Int64 but they are float64 by definition. However, if they were actually object to begin with, then they still might be object
    – Jeff
    Commented Jul 23, 2013 at 21:56

Try this which will give you scientific notation only for large and very small values (and adds a thousands separator unless you omit the ","):

pd.set_option('display.float_format', lambda x: '%,g' % x)

Or to almost completely suppress scientific notation without losing precision, try this:

pd.set_option('display.float_format', str)

quick fix without rounding:

pd.options.display.float_format = '{:.0f}'.format

If you would like to use the values as formated string in a list, say as part of csvfile csv.writier, the numbers can be formated before creating a list:

df['label'].apply(lambda x: '%.17f' % x).values.tolist()

I tried all the options like

  1. pd.options.display.float_format = '{:.4f}'.format
  2. pd.set_option('display.float_format', str)
  3. pd.set_option('display.float_format', lambda x: f'%.{len(str(x%1))-2}f' % x)
  4. pd.set_option('display.float_format', lambda x: '%.3f' % x)

but nothing worked for me.

so while assigning the variable / value (var1) to a variable (say num1) I used round(val,5).

num1 = round(var1,5)

This is a crude method as you have to use this round function in each assignment. But this ensures you control on how it happens and get what you want.

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