63

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:

np.set_printoptions(supress=True) 

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.

1
  • Dd you fix the typo in np.set_printoptions(suppress=True) - two p's in suppress?
    – smci
    Nov 16, 2016 at 14:50

6 Answers 6

91

quick temporary: df.round(4)

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

7
  • 7
    What does the {:20} mean?
    – Moondra
    Apr 28, 2017 at 0:24
  • 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
    Jul 26, 2017 at 4:12
  • 1
    This is the only really working solution for me. Works like a charm in Jupyter.
    – Bouncner
    Feb 15, 2018 at 8:09
  • 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 Will
    Apr 22, 2018 at 21:00
  • 3
    @Moondra {:20} specifies the total width of the printed output, including the decimal portion. This needs not be specified. So, {:,.2f} can be used to specify that the commas have to be printed and the 2 decimal points. Jan 18, 2021 at 4:14
13

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
Out[6]: 
           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
Out[7]: 
id       float64
value    float64
dtype: object

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

In [8]: df.astype(object)
Out[8]: 
           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()
Out[9]: 
           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
Out[10]: 
id       object
value    object
dtype: object
4
  • Actually the column was int64, that had then been df.corr() 'd which returns all float64s Jul 23, 2013 at 3:36
  • if you have NaN in the column it could NOT have been int64; only float64 or object
    – Jeff
    Jul 23, 2013 at 8:39
  • df.corr() returns NaNs when the stddev of a column is 0. 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
    Jul 23, 2013 at 21:56
3

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)
2

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()
1

quick fix without rounding:

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

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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