551

I have a pandas dataframe with multiple columns. I want to change the values of the only the first column without affecting the other columns. How can I do that using apply() in pandas?

3
  • You should almost never use apply in a situation like this. Operate on the column directly instead.
    – Ted Petrou
    Nov 6, 2017 at 22:43
  • As Ted Petrou said, avoid using apply as much as possible. If you're not sure you need to use it, you probably don't. I recommend taking a look at When should I ever want to use pandas apply() in my code?.
    – cs95
    Jan 30, 2019 at 10:22
  • The question is not completely clear: is it apply a function to every element of a column or apply a function to the column as a whole (for example: reverse the column) ? Feb 25, 2020 at 17:01

8 Answers 8

656

Given a sample dataframe df as:

   a  b
0  1  2
1  2  3
2  3  4
3  4  5

what you want is:

df['a'] = df['a'].apply(lambda x: x + 1)

that returns:

   a  b
0  2  2
1  3  3
2  4  4
3  5  5
0
153

For a single column better to use map(), like this:

df = pd.DataFrame([{'a': 15, 'b': 15, 'c': 5}, {'a': 20, 'b': 10, 'c': 7}, {'a': 25, 'b': 30, 'c': 9}])

    a   b  c
0  15  15  5
1  20  10  7
2  25  30  9



df['a'] = df['a'].map(lambda a: a / 2.)

      a   b  c
0   7.5  15  5
1  10.0  10  7
2  12.5  30  9
3
  • 130
    Why is map() better than apply() for a single column?
    – ChaimG
    Feb 5, 2017 at 18:21
  • 95
    map() is for Series (i.e. single columns) and operates on one cell at a time, while apply() is for DataFrame, and operates on a whole row at a time.
    – jpcgt
    Jul 24, 2018 at 14:27
  • 14
    @jpcgt Does that mean that map is faster than apply in this case?
    – Viragos
    Aug 18, 2019 at 19:48
131

Given the following dataframe df and the function complex_function,

import pandas as pd

def complex_function(x, y=0):
    if x > 5 and x > y:
        return 1
    else:
        return 2

df = pd.DataFrame(data={'col1': [1, 4, 6, 2, 7], 'col2': [6, 7, 1, 2, 8]})
   col1  col2
0     1     6
1     4     7
2     6     1
3     2     2
4     7     8

there are several solutions to use apply() on only one column. In the following I will explain them in detail.

I. Simple solution

The straightforward solution is the one from @Fabio Lamanna:

df['col1'] = df['col1'].apply(complex_function)

Output:

   col1  col2
0     2     6
1     2     7
2     1     1
3     2     2
4     1     8

Only the first column is modified, the second column is unchanged. The solution is beautiful. It is just one line of code and it reads almost like english: "Take 'col1' and apply the function complex_function to it."

However, if you need data from another column, e.g. 'col2', it won't work. If you want to pass the values of 'col2' to variable y of the complex_function, you need something else.

II. Solution using the whole dataframe

Alternatively, you could use the whole dataframe as described in this SO post or this one:

df['col1'] = df.apply(lambda x: complex_function(x['col1']), axis=1)

or if you prefer (like me) a solution without a lambda function:

def apply_complex_function(x):
    return complex_function(x['col1'])
df['col1'] = df.apply(apply_complex_function, axis=1) 

There is a lot going on in this solution that needs to be explained. The apply() function works on pd.Series and pd.DataFrame. But you cannot use df['col1'] = df.apply(complex_function).loc[:, 'col1'], because it would throw a ValueError.

Hence, you need to give the information which column to use. To complicate things, the apply() function does only accept callables. To solve this, you need to define a (lambda) function with the column x['col1'] as argument; i.e. we wrap the column information in another function.

Unfortunately, the default value of the axis parameter is zero (axis=0), which means it will try executing column-wise and not row-wise. This wasn't a problem in the first solution, because we gave apply() a pd.Series. But now the input is a dataframe and we must be explicit (axis=1). (I marvel how often I forget this.)

Whether you prefer the version with the lambda function or without is subjective. In my opinion the line of code is complicated enough to read even without a lambda function thrown in. You only need the (lambda) function as a wrapper. It is just boilerplate code. A reader should not be bothered with it.

Now, you can modify this solution easily to take the second column into account:

def apply_complex_function(x):
    return complex_function(x['col1'], x['col2'])
df['col1'] = df.apply(apply_complex_function, axis=1)

Output:

   col1  col2
0     2     6
1     2     7
2     1     1
3     2     2
4     2     8

At index 4 the value has changed from 1 to 2, because the first condition 7 > 5 is true but the second condition 7 > 8 is false.

Note that you only needed to change the first line of code (i.e. the function) and not the second line.


Side note

Never put the column information into your function.

def bad_idea(x):
    return x['col1'] ** 2

By doing this, you make a general function dependent on a column name! This is a bad idea, because the next time you want to use this function, you cannot. Worse: Maybe you rename a column in a different dataframe just to make it work with your existing function. (Been there, done that. It is a slippery slope!)


III. Alternative solutions without using apply()

Although the OP specifically asked for a solution with apply(), alternative solutions were suggested. For example, the answer of @George Petrov suggested to use map(); the answer of @Thibaut Dubernet proposed assign().

I fully agree that apply() is seldom the best solution, because apply() is not vectorized. It is an element-wise operation with expensive function calling and overhead from pd.Series.

One reason to use apply() is that you want to use an existing function and performance is not an issue. Or your function is so complex that no vectorized version exists.

Another reason to use apply() is in combination with groupby(). Please note that DataFrame.apply() and GroupBy.apply() are different functions.

So it does make sense to consider some alternatives:

  • map() only works on pd.Series, but accepts dict and pd.Series as input. Using map() with a function is almost interchangeable with using apply(). It can be faster than apply(). See this SO post for more details.

    df['col1'] = df['col1'].map(complex_function)
    
  • applymap() is almost identical for dataframes. It does not support pd.Series and it will always return a dataframe. However, it can be faster. The documentation states: "In the current implementation applymap calls func twice on the first column/row to decide whether it can take a fast or slow code path.". But if performance really counts you should seek an alternative route.

    df['col1'] = df.applymap(complex_function).loc[:, 'col1']
    
  • assign() is not a feasible replacement for apply(). It has a similar behaviour in only the most basic use cases. It does not work with the complex_function. You still need apply() as you can see in the example below. The main use case for assign() is method chaining, because it gives back the dataframe without changing the original dataframe.

    df['col1'] = df.assign(col1=df.col1.apply(complex_function))
    

Annex: How to speed up apply()?

I only mention it here because it was suggested by other answers, e.g. @durjoy. The list is not exhaustive:

  1. Do not use apply(). This is no joke. For most numeric operations, a vectorized method exists in pandas. If/else blocks can often be refactored with a combination of boolean indexing and .loc. My example complex_function could be refactored in this way.

  2. Refactor to Cython. If you have a complex equation and the parameters of the equation are in your dataframe, this might be a good idea. Check out the official pandas user guide for more information.

  3. Use raw=True parameter. Theoretically, this should improve the performance of apply() if you are just applying a NumPy reduction function, because the overhead of pd.Series is removed. Of course, your function has to accept an ndarray. You have to refactor your function to NumPy. By doing this, you will have a huge performance boost.

  4. Use 3rd party packages. The first thing you should try is Numba. I do not know swifter mentioned by @durjoy; and probably many other packages are worth mentioning here.

  5. Try/Fail/Repeat. As mentioned above, map() and applymap() can be faster - depending on the use case. Just time the different versions and choose the fastest. This approach is the most tedious one with the least performance increase.

1
  • What if I have more complex slices than just col1? How do I avoid duplicating the slice expression? Say, for instance: df[:, ~df.columns.isin(skip_cols)]. Writing this twice on both sides of the equation seems uncanon.
    – Nearoo
    Apr 16, 2021 at 8:09
63

You don't need a function at all. You can work on a whole column directly.

Example data:

>>> df = pd.DataFrame({'a': [100, 1000], 'b': [200, 2000], 'c': [300, 3000]})
>>> df

      a     b     c
0   100   200   300
1  1000  2000  3000

Half all the values in column a:

>>> df.a = df.a / 2
>>> df

     a     b     c
0   50   200   300
1  500  2000  3000
0
46

Although the given responses are correct, they modify the initial data frame, which is not always desirable (and, given the OP asked for examples "using apply", it might be they wanted a version that returns a new data frame, as apply does).

This is possible using assign: it is valid to assign to existing columns, as the documentation states (emphasis is mine):

Assign new columns to a DataFrame.

Returns a new object with all original columns in addition to new ones. Existing columns that are re-assigned will be overwritten.

In short:

In [1]: import pandas as pd

In [2]: df = pd.DataFrame([{'a': 15, 'b': 15, 'c': 5}, {'a': 20, 'b': 10, 'c': 7}, {'a': 25, 'b': 30, 'c': 9}])

In [3]: df.assign(a=lambda df: df.a / 2)
Out[3]: 
      a   b  c
0   7.5  15  5
1  10.0  10  7
2  12.5  30  9

In [4]: df
Out[4]: 
    a   b  c
0  15  15  5
1  20  10  7
2  25  30  9

Note that the function will be passed the whole dataframe, not only the column you want to modify, so you will need to make sure you select the right column in your lambda.

0
26

If you are really concerned about the execution speed of your apply function and you have a huge dataset to work on, you could use swifter to make faster execution, here is an example for swifter on pandas dataframe:

import pandas as pd
import swifter

def fnc(m):
    return m*3+4

df = pd.DataFrame({"m": [1,2,3,4,5,6], "c": [1,1,1,1,1,1], "x":[5,3,6,2,6,1]})

# apply a self created function to a single column in pandas
df["y"] = df.m.swifter.apply(fnc)

This will enable your all CPU cores to compute the result hence it will be much faster than normal apply functions. Try and let me know if it become useful for you.

0
9

Let me try a complex computation using datetime and considering nulls or empty spaces. I am reducing 30 years on a datetime column and using apply method as well as lambda and converting datetime format. Line if x != '' else x will take care of all empty spaces or nulls accordingly.

df['Date'] = df['Date'].fillna('')
df['Date'] = df['Date'].apply(lambda x : ((datetime.datetime.strptime(str(x), '%m/%d/%Y') - datetime.timedelta(days=30*365)).strftime('%Y%m%d')) if x != '' else x)
2
Make a copy of your dataframe first if you need to modify a column

Many answers here suggest modifying some column and assign the new values to the old column. It is common to get the SettingWithCopyWarning: A value is trying to be set on a copy of a slice from a DataFrame. warning. This happens when your dataframe was created from another dataframe but is not a proper copy.

To silence this warning, make a copy and assign back.

df = df.copy()
df['a'] = df['a'].apply('add', other=1)

apply() only needs the name of the function

You can invoke a function by simply passing its name to apply() (no need for lambda). If your function needs additional arguments, you can pass them either as keyword arguments or pass the positional arguments as args=. For example, suppose you have file paths in your dataframe and you need to read files in these paths.

def read_data(path, sep=',', usecols=[0]):
    return pd.read_csv(path, sep=sep, usecols=usecols)

df = pd.DataFrame({'paths': ['../x/yz.txt', '../u/vw.txt']})

df['paths'].apply(read_data)                            # you don't need lambda

df['paths'].apply(read_data, args=(',', [0, 1]))        # pass the positional arguments to `args=`

df['paths'].apply(read_data, sep=',', usecols=[0, 1])   # pass as keyword arguments

Don't apply a function, call the appropriate method directly

It's almost never ideal to apply a custom function on a column via apply(). Because apply() is a syntactic sugar for a Python loop with a pandas overhead, it's often slower than calling the same function in a list comprehension, never mind, calling optimized pandas methods. Almost all numeric operators can be directly applied on the column and there are corresponding methods for all of them.

# add 1 to every element in column `a`
df['a'] += 1

# for every row, subtract column `a` value from column `b` value
df['c'] = df['b'] - df['a']

If you want to apply a function that has if-else blocks, then you should probably be using numpy.where() or numpy.select() instead. It is much, much faster. If you have anything larger than 10k rows of data, you'll notice the difference right away.

For example, if you have a custom function similar to func() below, then instead of applying it on the column, you could operate directly on the columns and return values using numpy.select().

def func(row):
    if row == 'a':
        return 1
    elif row == 'b':
        return 2
    else:
        return -999

# instead of applying a `func` to each row of a column, use `numpy.select` as below

import numpy as np
conditions = [df['col'] == 'a', df['col'] == 'b']
choices = [1, 2]
df['new'] = np.select(conditions, choices, default=-999)

As you can see, numpy.select() has very minimal syntax difference from an if-else ladder; only need to separate conditions and choices into separate lists. For other options, check out this answer.

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