Can you tell me when to use these vectorization methods with basic examples?

I see that map is a Series method whereas the rest are DataFrame methods. I got confused about apply and applymap methods though. Why do we have two methods for applying a function to a DataFrame? Again, simple examples which illustrate the usage would be great!


Straight from Wes McKinney's Python for Data Analysis book, pg. 132 (I highly recommended this book):

Another frequent operation is applying a function on 1D arrays to each column or row. DataFrame’s apply method does exactly this:

In [116]: frame = DataFrame(np.random.randn(4, 3), columns=list('bde'), index=['Utah', 'Ohio', 'Texas', 'Oregon'])

In [117]: frame
               b         d         e
Utah   -0.029638  1.081563  1.280300
Ohio    0.647747  0.831136 -1.549481
Texas   0.513416 -0.884417  0.195343
Oregon -0.485454 -0.477388 -0.309548

In [118]: f = lambda x: x.max() - x.min()

In [119]: frame.apply(f)
b    1.133201
d    1.965980
e    2.829781
dtype: float64

Many of the most common array statistics (like sum and mean) are DataFrame methods, so using apply is not necessary.

Element-wise Python functions can be used, too. Suppose you wanted to compute a formatted string from each floating point value in frame. You can do this with applymap:

In [120]: format = lambda x: '%.2f' % x

In [121]: frame.applymap(format)
            b      d      e
Utah    -0.03   1.08   1.28
Ohio     0.65   0.83  -1.55
Texas    0.51  -0.88   0.20
Oregon  -0.49  -0.48  -0.31

The reason for the name applymap is that Series has a map method for applying an element-wise function:

In [122]: frame['e'].map(format)
Utah       1.28
Ohio      -1.55
Texas      0.20
Oregon    -0.31
Name: e, dtype: object

Summing up, apply works on a row / column basis of a DataFrame, applymap works element-wise on a DataFrame, and map works element-wise on a Series.

  • 20
    strictly speaking, applymap internally is implemented via apply with a little wrap-up over passed function parameter (rougly speaking replacing func to lambda x: [func(y) for y in x], and applying column-wise) – alko Nov 5 '13 at 20:53
  • 3
    Thanks for the explanation. Since map and applymap both work element-wise, I would expect a single method (either map or applymap) which would work both for a Series and a DataFrame. Probably there are other design considerations, and Wes McKinney decided to come up with two different methods. – marillion Nov 5 '13 at 21:58
  • 2
    It's on page 129 in my copy for some reason. There's no label for second edition or anything. – Jody Jan 26 '16 at 21:34
  • 1
    Is there a way to do applymap along with groupby function in pandas? – everestial007 Feb 11 '17 at 1:55
  • How to apply a function on grouped columnwise data? – hhh Apr 12 '18 at 14:15

There's great information in these answers, but I'm adding my own to clearly summarize which methods work array-wise versus element-wise. jeremiahbuddha mostly did this but did not mention Series.apply. I don't have the rep to comment.

  • DataFrame.apply operates on entire rows or columns at a time.

  • DataFrame.applymap, Series.apply, and Series.map operate on one element at time.

There is a lot of overlap between the capabilities of Series.apply and Series.map, meaning that either one will work in most cases. They do have some slight differences though, some of which were discussed in osa's answer.


Adding to the other answers, in a Series there are also map and apply.

Apply can make a DataFrame out of a series; however, map will just put a series in every cell of another series, which is probably not what you want.

In [40]: p=pd.Series([1,2,3])
In [41]: p
0    1
1    2
2    3
dtype: int64

In [42]: p.apply(lambda x: pd.Series([x, x]))
   0  1
0  1  1
1  2  2
2  3  3

In [43]: p.map(lambda x: pd.Series([x, x]))
0    0    1
1    1
dtype: int64
1    0    2
1    2
dtype: int64
2    0    3
1    3
dtype: int64
dtype: object

Also if I had a function with side effects, such as "connect to a web server", I'd probably use apply just for the sake of clarity.


Map can use not only a function, but also a dictionary or another series. Let's say you want to manipulate permutations.


1 2 3 4 5
2 1 4 5 3

The square of this permutation is

1 2 3 4 5
1 2 5 3 4

You can compute it using map. Not sure if self-application is documented, but it works in 0.15.1.

In [39]: p=pd.Series([1,0,3,4,2])

In [40]: p.map(p)
0    0
1    1
2    4
3    2
4    3
dtype: int64
  • 2
    Also, .apply() lets you pass in kwargs into the function while .map() doesn't. – neilxdims Aug 12 '16 at 15:34

@jeremiahbuddha mentioned that apply works on row/columns, while applymap works element-wise. But it seems you can still use apply for element-wise computation....

                   b         d         e
    Utah         NaN  1.435159       NaN
    Ohio    1.098164  0.510594  0.729748
    Texas        NaN  0.456436  0.697337
    Oregon  0.359079       NaN       NaN

                   b         d         e
    Utah         NaN  1.435159       NaN
    Ohio    1.098164  0.510594  0.729748
    Texas        NaN  0.456436  0.697337
    Oregon  0.359079       NaN       NaN
  • 25
    Good catch with this. The reason this works in your example is because np.sqrt is a ufunc, i.e. if you give it an array, it will broadcast the sqrt function onto each element of the array. So when apply pushes np.sqrt on each columns, np.sqrt works itself on each of the elements of the columns, so you are essentially getting the same result as applymap. – jeremiahbuddha Jan 16 '14 at 0:22

Just wanted to point out, as I struggled with this for a bit

def f(x):
    if x < 0:
        x = 0
    elif x > 100000:
        x = 100000
    return x


this does not modify the dataframe itself, has to be reassigned

df = df.applymap(f)
  • 1
    I sometimes have trouble in figuring out whether you have to reassign or not after doing something with the df. It's mostly trial and error for me, but I bet there is a logic to how it works (that I am missing out). – marillion Apr 13 '16 at 16:19
  • 2
    in general, a pandas dataframe is only modified by either reassigning df = modified_df or if you set inplace=True flag. Also dataframe will change if you pass a dataframe to a function by reference and the function modifies the dataframe – muon Apr 13 '16 at 16:30
  • 1
    This is not entirely true, think of .ix or .where etc. Not sure what the full explanation is for when you need to re-assign and when not. – Thanos Apr 14 '16 at 20:45

Probably simplest explanation the difference between apply and applymap:

apply takes the whole column as a parameter and then assign the result to this column

applymap takes the separate cell value as a parameter and assign the result back to this cell.

NB If apply returns the single value you will have this value instead of the column after assigning and eventually will have just a row instead of matrix.


My understanding:

From the function point of view:

If the function has variables that need to compare within a column/ row, use apply.

e.g.: lambda x: x.max()-x.mean().

If the function is to be applied to each element:

1> If a column/row is located, use apply

2> If apply to entire dataframe, use applymap

majority = lambda x : x > 17
df2['legal_drinker'] = df2['age'].apply(majority)

def times10(x):
  if type(x) is int:
    x *= 10 
  return x
  • Please provide df2 also for better clarity so that we can test your code. – Ashish Anand Apr 14 at 14:22

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