Assume I have a pandas DataFrame with two columns, A and B. I'd like to modify this DataFrame (or create a copy) so that B is always NaN whenever A is 0. How would I achieve that?

I tried the following

df['A'==0]['B'] = np.nan



without success.


Use .loc for label based indexing:

df.loc[df.A==0, 'B'] = np.nan

The df.A==0 expression creates a boolean series that indexes the rows, 'B' selects the column. You can also use this to transform a subset of a column, e.g.:

df.loc[df.A==0, 'B'] = df.loc[df.A==0, 'B'] / 2

I don't know enough about pandas internals to know exactly why that works, but the basic issue is that sometimes indexing into a DataFrame returns a copy of the result, and sometimes it returns a view on the original object. According to documentation here, this behavior depends on the underlying numpy behavior. I've found that accessing everything in one operation (rather than [one][two]) is more likely to work for setting.

| improve this answer | |
  • The second part of this is a nice answer to a question that wasn't even asked ;-) I am wondering if this is still the canonical pandas answer, in particular b/c it's an obvious DRY violation, though I assume it is in fact necessary to violate DRY given the constraints of pandas internals? (I may post exactly this sort of question, in more detail, but wanted to see if you had a quick answer before I did so) – JohnE Mar 12 '19 at 17:20
  • How to subset a Dataframe that doesn’t have column names , how to subset df just by index ? df.loc[df[0]==0] doesn’t work ... What’s the alternative ? Thank You – amipro Apr 10 '19 at 9:13

Here is from pandas docs on advanced indexing:

The section will explain exactly what you need! Turns out df.loc (as .ix has been deprecated -- as many have pointed out below) can be used for cool slicing/dicing of a dataframe. And. It can also be used to set things.

df.loc[selection criteria, columns I want] = value

So Bren's answer is saying 'find me all the places where df.A == 0, select column B and set it to np.nan'

| improve this answer | |
  • 2
    You made my day. Clear explanation. – TwinPenguins Nov 6 '18 at 8:41
  • 1
    Yeah, somehow loc[selection criteria, columns I want] perfectly sticks to your mind... – EmEs Jan 10 '19 at 10:51

Starting from pandas 0.20 ix is deprecated. The right way is to use df.loc

here is a working example

>>> import pandas as pd 
>>> import numpy as np 
>>> df = pd.DataFrame({"A":[0,1,0], "B":[2,0,5]}, columns=list('AB'))
>>> df.loc[df.A == 0, 'B'] = np.nan
>>> df
   A   B
0  0 NaN
1  1   0
2  0 NaN


As explained in the doc here, .loc is primarily label based, but may also be used with a boolean array.

So, what we are doing above is applying df.loc[row_index, column_index] by:

  • Exploiting the fact that loc can take a boolean array as a mask that tells pandas which subset of rows we want to change in row_index
  • Exploiting the fact loc is also label based to select the column using the label 'B' in the column_index

We can use logical, condition or any operation that returns a series of booleans to construct the array of booleans. In the above example, we want any rows that contain a 0, for that we can use df.A == 0, as you can see in the example below, this returns a series of booleans.

>>> df = pd.DataFrame({"A":[0,1,0], "B":[2,0,5]}, columns=list('AB'))
>>> df 
   A  B
0  0  2
1  1  0
2  0  5
>>> df.A == 0 
0     True
1    False
2     True
Name: A, dtype: bool

Then, we use the above array of booleans to select and modify the necessary rows:

>>> df.loc[df.A == 0, 'B'] = np.nan
>>> df
   A   B
0  0 NaN
1  1   0
2  0 NaN

For more information check the advanced indexing documentation here.

| improve this answer | |

For a massive speed increase, use NumPy's where function.


Create a two-column DataFrame with 100,000 rows with some zeros.

df = pd.DataFrame(np.random.randint(0,3, (100000,2)), columns=list('ab'))

Fast solution with numpy.where

df['b'] = np.where(df.a.values == 0, np.nan, df.b.values)


%timeit df['b'] = np.where(df.a.values == 0, np.nan, df.b.values)
685 µs ± 6.4 µs per loop (mean ± std. dev. of 7 runs, 1000 loops each)

%timeit df.loc[df['a'] == 0, 'b'] = np.nan
3.11 ms ± 17.2 µs per loop (mean ± std. dev. of 7 runs, 100 loops each)

Numpy's where is about 4x faster

| improve this answer | |
  • I was curious about this so I tested it myself and difference was even greater using other parameters. Numpy was almost 10 times faster at replacing 0s with an integer instead of np.nan. I wonder what takes the extra time. – Alexander Aug 21 '18 at 13:30
  • Is it necessary to use .values in np.where(df.a.values == 0, np.nan, df.b.values)? Looks like np.where(df.a == 0, np.nan, df.b) also works? – hsl Feb 2 at 23:17

To replace multiples columns convert to numpy array using .values:

df.loc[df.A==0, ['B', 'C']] = df.loc[df.A==0, ['B', 'C']].values / 2
| improve this answer | |

Not the answer you're looking for? Browse other questions tagged or ask your own question.