304

This is obviously simple, but as a numpy newbe I'm getting stuck.

I have a CSV file that contains 3 columns, the State, the Office ID, and the Sales for that office.

I want to calculate the percentage of sales per office in a given state (total of all percentages in each state is 100%).

df = pd.DataFrame({'state': ['CA', 'WA', 'CO', 'AZ'] * 3,
                   'office_id': list(range(1, 7)) * 2,
                   'sales': [np.random.randint(100000, 999999)
                             for _ in range(12)]})

df.groupby(['state', 'office_id']).agg({'sales': 'sum'})

This returns:

                  sales
state office_id        
AZ    2          839507
      4          373917
      6          347225
CA    1          798585
      3          890850
      5          454423
CO    1          819975
      3          202969
      5          614011
WA    2          163942
      4          369858
      6          959285

I can't seem to figure out how to "reach up" to the state level of the groupby to total up the sales for the entire state to calculate the fraction.

1
  • 26
    df['sales'] / df.groupby('state')['sales'].transform('sum') seems to be the clearest answer. May 12, 2020 at 16:59

17 Answers 17

382

Update 2022-03

This answer by caner using transform looks much better than my original answer!

df['sales'] / df.groupby('state')['sales'].transform('sum')

Thanks to this comment by Paul Rougieux for surfacing it.

Original Answer (2014)

Paul H's answer is right that you will have to make a second groupby object, but you can calculate the percentage in a simpler way -- just groupby the state_office and divide the sales column by its sum. Copying the beginning of Paul H's answer:

# From Paul H
import numpy as np
import pandas as pd
np.random.seed(0)
df = pd.DataFrame({'state': ['CA', 'WA', 'CO', 'AZ'] * 3,
                   'office_id': list(range(1, 7)) * 2,
                   'sales': [np.random.randint(100000, 999999)
                             for _ in range(12)]})
state_office = df.groupby(['state', 'office_id']).agg({'sales': 'sum'})
# Change: groupby state_office and divide by sum
state_pcts = state_office.groupby(level=0).apply(lambda x:
                                                 100 * x / float(x.sum()))

Returns:

                     sales
state office_id           
AZ    2          16.981365
      4          19.250033
      6          63.768601
CA    1          19.331879
      3          33.858747
      5          46.809373
CO    1          36.851857
      3          19.874290
      5          43.273852
WA    2          34.707233
      4          35.511259
      6          29.781508
14
  • 2
    What's going on here? As I understand it, x is a table of some kind, so 100 * x doesn't intuitively make sense (especially when some of the cells contain strings like AZ, ...).
    – dhardy
    Feb 6, 2015 at 9:42
  • 7
    @dhardy state_office is a Series with a Multi Index -- so it's just one column whose values are all numeric. After you do the groupby, each x is a subset of that column. Does that make sense?
    – exp1orer
    Feb 8, 2015 at 15:22
  • 3
    It might, but it didn't work for me. Does pandas in Python 3 work a bit differently?
    – dhardy
    Feb 9, 2015 at 9:59
  • 2
    What does level=0 mean?
    – van_d39
    Nov 22, 2016 at 22:39
  • 6
    @Veenit it means that you are grouping by the first level of the index, rather than by one of the columns.
    – exp1orer
    Nov 23, 2016 at 7:50
97

(This solution is inspired from this article https://pbpython.com/pandas_transform.html)

I find the following solution to be the simplest(and probably the fastest) using transformation:

Transformation: While aggregation must return a reduced version of the data, transformation can return some transformed version of the full data to recombine. For such a transformation, the output is the same shape as the input.

So using transformation, the solution is 1-liner:

df['%'] = 100 * df['sales'] / df.groupby('state')['sales'].transform('sum')

And if you print:

print(df.sort_values(['state', 'office_id']).reset_index(drop=True))

   state  office_id   sales          %
0     AZ          2  195197   9.844309
1     AZ          4  877890  44.274352
2     AZ          6  909754  45.881339
3     CA          1  614752  50.415708
4     CA          3  395340  32.421767
5     CA          5  209274  17.162525
6     CO          1  549430  42.659629
7     CO          3  457514  35.522956
8     CO          5  280995  21.817415
9     WA          2  828238  35.696929
10    WA          4  719366  31.004563
11    WA          6  772590  33.298509
4
  • 8
    @Cancer This is my fav answer as it keeps the df as a df (without converting to series) and merely adds a % column. Thank you May 16, 2020 at 13:25
  • Variation of this answer worked very well for me with transform('max')
    – Sheldore
    Jun 8, 2020 at 13:34
  • The link pointing to the post that describes transform() is GREAT. I think this is a much better solution that the chosen one, but requires learning transform (which I see as a plus side :)
    – pojda
    Dec 1, 2020 at 14:30
  • @Caner This works brilliantly. ChatGPT couldn't solve this problem for me.
    – cget
    Jan 14, 2023 at 13:07
73

You need to make a second groupby object that groups by the states, and then use the div method:

import numpy as np
import pandas as pd
np.random.seed(0)
df = pd.DataFrame({'state': ['CA', 'WA', 'CO', 'AZ'] * 3,
               'office_id': list(range(1, 7)) * 2,
               'sales': [np.random.randint(100000, 999999) for _ in range(12)]})

state_office = df.groupby(['state', 'office_id']).agg({'sales': 'sum'})
state = df.groupby(['state']).agg({'sales': 'sum'})
state_office.div(state, level='state') * 100


                     sales
state office_id           
AZ    2          16.981365
      4          19.250033
      6          63.768601
CA    1          19.331879
      3          33.858747
      5          46.809373
CO    1          36.851857
      3          19.874290
      5          43.273852
WA    2          34.707233
      4          35.511259
      6          29.781508

the level='state' kwarg in div tells pandas to broadcast/join the dataframes base on the values in the state level of the index.

2
  • 5
    Does this method work if you have 3 indexes ? I first did a groupby on 3 columns. Then I did a second groupby on only 2 and compute the sum. Then I try to use div but with level=["index1", "index2"] but it tells me that Join on level between two MultiIndex objects is ambiguous.
    – Ger
    Jan 4, 2017 at 13:23
  • @Ger It does work, but there is no way I could divine what you're doing wrong from that description. Search around on the site a little more. If you don't find anything, create a new question with a reproducible example that demonstrates the problem. stackoverflow.com/questions/20109391/…
    – Paul H
    Jan 4, 2017 at 15:20
60

For conciseness I'd use the SeriesGroupBy:

In [11]: c = df.groupby(['state', 'office_id'])['sales'].sum().rename("count")

In [12]: c
Out[12]:
state  office_id
AZ     2            925105
       4            592852
       6            362198
CA     1            819164
       3            743055
       5            292885
CO     1            525994
       3            338378
       5            490335
WA     2            623380
       4            441560
       6            451428
Name: count, dtype: int64

In [13]: c / c.groupby(level=0).sum()
Out[13]:
state  office_id
AZ     2            0.492037
       4            0.315321
       6            0.192643
CA     1            0.441573
       3            0.400546
       5            0.157881
CO     1            0.388271
       3            0.249779
       5            0.361949
WA     2            0.411101
       4            0.291196
       6            0.297703
Name: count, dtype: float64

For multiple groups you have to use transform (using Radical's df):

In [21]: c =  df.groupby(["Group 1","Group 2","Final Group"])["Numbers I want as percents"].sum().rename("count")

In [22]: c / c.groupby(level=[0, 1]).transform("sum")
Out[22]:
Group 1  Group 2  Final Group
AAHQ     BOSC     OWON           0.331006
                  TLAM           0.668994
         MQVF     BWSI           0.288961
                  FXZM           0.711039
         ODWV     NFCH           0.262395
...
Name: count, dtype: float64

This seems to be slightly more performant than the other answers (just less than twice the speed of Radical's answer, for me ~0.08s).

3
  • 7
    This is super fast. I would recommend this as the preferred pandas approach. Really takes advantage of numpy's vectorization and pandas indexing.
    – Charles
    Mar 23, 2018 at 12:14
  • This worked well for me too, as I'm working with multiple groups. Thanks.
    – irene
    Aug 14, 2018 at 6:01
  • For multiple groups, can also do it without using transform: c / c.groupby(level=[0, 1]).sum() Feb 9, 2022 at 16:01
50

I think this needs benchmarking. Using OP's original DataFrame,

df = pd.DataFrame({
    'state': ['CA', 'WA', 'CO', 'AZ'] * 3,
    'office_id': list(range(1, 7)) * 2,
    'sales': [np.random.randint(100000, 999999) for _ in range(12)]
})

0th Caner

NEW Pandas Tranform looks much faster.

df['sales'] / df.groupby('state')['sales'].transform('sum')

1.32 ms ± 352 µs per loop
(mean ± std. dev. of 7 runs, 100 loops each)

1st Andy Hayden

As commented on his answer, Andy takes full advantage of vectorisation and pandas indexing.

c = df.groupby(['state', 'office_id'])['sales'].sum().rename("count")
c / c.groupby(level=0).sum()

3.42 ms ± 16.7 µs per loop
(mean ± std. dev. of 7 runs, 100 loops each)


2nd Paul H

state_office = df.groupby(['state', 'office_id']).agg({'sales': 'sum'})
state = df.groupby(['state']).agg({'sales': 'sum'})
state_office.div(state, level='state') * 100

4.66 ms ± 24.4 µs per loop
(mean ± std. dev. of 7 runs, 100 loops each)


3rd exp1orer

This is the slowest answer as it calculates x.sum() for each x in level 0.

For me, this is still a useful answer, though not in its current form. For quick EDA on smaller datasets, apply allows you use method chaining to write this in a single line. We therefore remove the need decide on a variable's name, which is actually very computationally expensive for your most valuable resource (your brain!!).

Here is the modification,

(
    df.groupby(['state', 'office_id'])
    .agg({'sales': 'sum'})
    .groupby(level=0)
    .apply(lambda x: 100 * x / float(x.sum()))
)

10.6 ms ± 81.5 µs per loop
(mean ± std. dev. of 7 runs, 100 loops each)


So no one is going care about 6ms on a small dataset. However, this is 3x speed up and, on a larger dataset with high cardinality groupbys this is going to make a massive difference.

Adding to the above code, we make a DataFrame with shape (12,000,000, 3) with 14412 state categories and 600 office_ids,

import string

import numpy as np
import pandas as pd
np.random.seed(0)

groups = [
    ''.join(i) for i in zip(
    np.random.choice(np.array([i for i in string.ascii_lowercase]), 30000),
    np.random.choice(np.array([i for i in string.ascii_lowercase]), 30000),
    np.random.choice(np.array([i for i in string.ascii_lowercase]), 30000),
                       )
]

df = pd.DataFrame({'state': groups * 400,
               'office_id': list(range(1, 601)) * 20000,
               'sales': [np.random.randint(100000, 999999)
                         for _ in range(12)] * 1000000
})

Using Caner's,

0.791 s ± 19.4 ms per loop (mean ± std. dev. of 7 runs, 1 loop each)

Using Andy's,

2 s ± 10.4 ms per loop
(mean ± std. dev. of 7 runs, 1 loop each)

and exp1orer

19 s ± 77.1 ms per loop
(mean ± std. dev. of 7 runs, 1 loop each)

So now we see x10 speed up on large, high cardinality datasets with Andy but a very impressive x20 speed up with Caner's.


Be sure to UV these three answers if you UV this one!!

Edit: added Caner benchmark

4
  • With a minor tweak to exp1orer's answer you can halve the time it takes on the small dataset. For me df.groupby(['state', 'office_id']).agg({'sales': 'sum'}).apply(lambda x: 100*x / (x.groupby(level=0).transform('sum'))) is 4.32 ms ± 346 µs per loop compared with 10.8 ms ± 1.24 ms for the original. This also compares favourably to Paul H's, for which I get 5.1 ms ± 279 µs per loop. So you get the benefits of piping, with much less slow down.
    – s_pike
    Jul 21, 2022 at 10:52
  • On the large dataset, the benefit is more marked - only 2.77 s ± 108 ms per loop vs 2.44 s ± 177 ms per loop for the fastest method.
    – s_pike
    Jul 21, 2022 at 10:59
  • Final comment - the new caner answer (df.groupby(['state'])['sales'].transform(lambda x: 100*x/x.sum())) is equally fast on small datasets, but fairly slow on the high cardinality version - 13.8 s ± 394 ms per loop. So for me the tweaked Paul H is the best here.
    – s_pike
    Jul 21, 2022 at 11:12
  • 1
    @s_pike because you put the divide inside the lambda function. See my benchmark updates. Nov 22, 2022 at 18:57
26

I realize there are already good answers here.

I nevertheless would like to contribute my own, because I feel for an elementary, simple question like this, there should be a short solution that is understandable at a glance.

It should also work in a way that I can add the percentages as a new column, leaving the rest of the dataframe untouched. Last but not least, it should generalize in an obvious way to the case in which there is more than one grouping level (e.g., state and country instead of only state).

The following snippet fulfills these criteria:

df['sales_ratio'] = df.groupby(['state'])['sales'].transform(lambda x: x/x.sum())

Note that if you're still using Python 2, you'll have to replace the x in the denominator of the lambda term by float(x).

7
  • 1
    This is the best answer IMO. Only thing to add would be the * 100 to make it a percentage.
    – Bouncner
    Jun 4, 2019 at 11:56
  • 1
    @Bouncner: Yes, strictly speaking you would have to multiply with 100 to get a percentage -- or rename the new variable from "sales_percentage" to "sales_ratio". Personally, I prefer the latter, and I edited the answer accordingly. Thanks for mentioning! Jun 5, 2019 at 7:30
  • 2
    This doesn't work though if you have multiple levels.
    – irene
    Jun 13, 2019 at 9:33
  • @irene: Good point, thanks! Probably in that case df.reset_index().groupby(['state'])['sales'].transform(lambda x: x/x.sum()) would work. Or am I overlooking something? Jun 14, 2019 at 12:38
  • 3
    This answer is great. It doesn't involve creating a temporary groupby object, is super concise, and reads very logically left to right.
    – C. Braun
    Nov 22, 2019 at 19:56
12

I know that this is an old question, but exp1orer's answer is very slow for datasets with a large number unique groups (probably because of the lambda). I built off of their answer to turn it into an array calculation so now it's super fast! Below is the example code:

Create the test dataframe with 50,000 unique groups

import random
import string
import pandas as pd
import numpy as np
np.random.seed(0)

# This is the total number of groups to be created
NumberOfGroups = 50000

# Create a lot of groups (random strings of 4 letters)
Group1     = [''.join(random.choice(string.ascii_uppercase) for _ in range(4)) for x in range(NumberOfGroups/10)]*10
Group2     = [''.join(random.choice(string.ascii_uppercase) for _ in range(4)) for x in range(NumberOfGroups/2)]*2
FinalGroup = [''.join(random.choice(string.ascii_uppercase) for _ in range(4)) for x in range(NumberOfGroups)]

# Make the numbers
NumbersForPercents = [np.random.randint(100, 999) for _ in range(NumberOfGroups)]

# Make the dataframe
df = pd.DataFrame({'Group 1': Group1,
                   'Group 2': Group2,
                   'Final Group': FinalGroup,
                   'Numbers I want as percents': NumbersForPercents})

When grouped it looks like:

                             Numbers I want as percents
Group 1 Group 2 Final Group                            
AAAH    AQYR    RMCH                                847
                XDCL                                182
        DQGO    ALVF                                132
                AVPH                                894
        OVGH    NVOO                                650
                VKQP                                857
        VNLY    HYFW                                884
                MOYH                                469
        XOOC    GIDS                                168
                HTOY                                544
AACE    HNXU    RAXK                                243
                YZNK                                750
        NOYI    NYGC                                399
                ZYCI                                614
        QKGK    CRLF                                520
                UXNA                                970
        TXAR    MLNB                                356
                NMFJ                                904
        VQYG    NPON                                504
                QPKQ                                948
...
[50000 rows x 1 columns]

Array method of finding percentage:

# Initial grouping (basically a sorted version of df)
PreGroupby_df = df.groupby(["Group 1","Group 2","Final Group"]).agg({'Numbers I want as percents': 'sum'}).reset_index()
# Get the sum of values for the "final group", append "_Sum" to it's column name, and change it into a dataframe (.reset_index)
SumGroup_df = df.groupby(["Group 1","Group 2"]).agg({'Numbers I want as percents': 'sum'}).add_suffix('_Sum').reset_index()
# Merge the two dataframes
Percents_df = pd.merge(PreGroupby_df, SumGroup_df)
# Divide the two columns
Percents_df["Percent of Final Group"] = Percents_df["Numbers I want as percents"] / Percents_df["Numbers I want as percents_Sum"] * 100
# Drop the extra _Sum column
Percents_df.drop(["Numbers I want as percents_Sum"], inplace=True, axis=1)

This method takes about ~0.15 seconds

Top answer method (using lambda function):

state_office = df.groupby(['Group 1','Group 2','Final Group']).agg({'Numbers I want as percents': 'sum'})
state_pcts = state_office.groupby(level=['Group 1','Group 2']).apply(lambda x: 100 * x / float(x.sum()))

This method takes about ~21 seconds to produce the same result.

The result:

      Group 1 Group 2 Final Group  Numbers I want as percents  Percent of Final Group
0        AAAH    AQYR        RMCH                         847               82.312925
1        AAAH    AQYR        XDCL                         182               17.687075
2        AAAH    DQGO        ALVF                         132               12.865497
3        AAAH    DQGO        AVPH                         894               87.134503
4        AAAH    OVGH        NVOO                         650               43.132050
5        AAAH    OVGH        VKQP                         857               56.867950
6        AAAH    VNLY        HYFW                         884               65.336290
7        AAAH    VNLY        MOYH                         469               34.663710
8        AAAH    XOOC        GIDS                         168               23.595506
9        AAAH    XOOC        HTOY                         544               76.404494
7

The most elegant way to find percentages across columns or index is to use pd.crosstab.

Sample Data

df = pd.DataFrame({'state': ['CA', 'WA', 'CO', 'AZ'] * 3,
               'office_id': list(range(1, 7)) * 2,
               'sales': [np.random.randint(100000, 999999) for _ in range(12)]})

The output dataframe is like this

print(df)

        state   office_id   sales
    0   CA  1   764505
    1   WA  2   313980
    2   CO  3   558645
    3   AZ  4   883433
    4   CA  5   301244
    5   WA  6   752009
    6   CO  1   457208
    7   AZ  2   259657
    8   CA  3   584471
    9   WA  4   122358
    10  CO  5   721845
    11  AZ  6   136928

Just specify the index, columns and the values to aggregate. The normalize keyword will calculate % across index or columns depending upon the context.

result = pd.crosstab(index=df['state'], 
                     columns=df['office_id'], 
                     values=df['sales'], 
                     aggfunc='sum', 
                     normalize='index').applymap('{:.2f}%'.format)




print(result)
office_id   1   2   3   4   5   6
state                       
AZ  0.00%   0.20%   0.00%   0.69%   0.00%   0.11%
CA  0.46%   0.00%   0.35%   0.00%   0.18%   0.00%
CO  0.26%   0.00%   0.32%   0.00%   0.42%   0.00%
WA  0.00%   0.26%   0.00%   0.10%   0.00%   0.63%
6

You can sum the whole DataFrame and divide by the state total:

# Copying setup from Paul H answer
import numpy as np
import pandas as pd
np.random.seed(0)
df = pd.DataFrame({'state': ['CA', 'WA', 'CO', 'AZ'] * 3,
               'office_id': list(range(1, 7)) * 2,
               'sales': [np.random.randint(100000, 999999) for _ in range(12)]})
# Add a column with the sales divided by state total sales.
df['sales_ratio'] = (df / df.groupby(['state']).transform(sum))['sales']

df

Returns

    office_id   sales state  sales_ratio
0           1  405711    CA     0.193319
1           2  535829    WA     0.347072
2           3  217952    CO     0.198743
3           4  252315    AZ     0.192500
4           5  982371    CA     0.468094
5           6  459783    WA     0.297815
6           1  404137    CO     0.368519
7           2  222579    AZ     0.169814
8           3  710581    CA     0.338587
9           4  548242    WA     0.355113
10          5  474564    CO     0.432739
11          6  835831    AZ     0.637686

But note that this only works because all columns other than state are numeric, enabling summation of the entire DataFrame. For example, if office_id is character instead, you get an error:

df.office_id = df.office_id.astype(str)
df['sales_ratio'] = (df / df.groupby(['state']).transform(sum))['sales']

TypeError: unsupported operand type(s) for /: 'str' and 'str'

2
  • I edited to note that this only works when all columns except the groupby column are numeric. But it is otherwise quite elegant. Is there a way to make it work with other str columns?
    – Max Ghenis
    Jan 25, 2017 at 19:18
  • Not as far as I know: stackoverflow.com/questions/34099684/…
    – iggy
    Jan 27, 2017 at 3:22
6
import numpy as np
import pandas as pd
np.random.seed(0)
df = pd.DataFrame({'state': ['CA', 'WA', 'CO', 'AZ'] * 3,
               'office_id': list(range(1, 7)) * 2,
               'sales': [np.random.randint(100000, 999999) for _ in range(12)]})

df.groupby(['state', 'office_id'])['sales'].sum().rename("weightage").groupby(level = 0).transform(lambda x: x/x.sum())
df.reset_index()

Output:

    state   office_id   weightage
0   AZ  2   0.169814
1   AZ  4   0.192500
2   AZ  6   0.637686
3   CA  1   0.193319
4   CA  3   0.338587
5   CA  5   0.468094
6   CO  1   0.368519
7   CO  3   0.198743
8   CO  5   0.432739
9   WA  2   0.347072
10  WA  4   0.355113
11  WA  6   0.297815

3

I think this would do the trick in 1 line:

df.groupby(['state', 'office_id']).sum().transform(lambda x: x/np.sum(x)*100)
2
  • I believe it takes all the columns of the dataset. in this case, there is only one. If you have several and want to perform this operation on a singe one, just specify it after the groupby expression: df.groupby(['state', 'office_id'])[[YOUR COLUMN NAME HERE]].etcetc if you want to keep the other columns untouched, just re-assigned the specific columns
    – louisD
    Oct 9, 2018 at 18:12
  • @louisD: I very much like your approach of trying to keep it short. Unfortunately, when I try to reassign the column as you suggested, I get two errors :"ValueError: Buffer dtype mismatch, expected 'Python object' but got 'long long'" , and additionally (during handling of the first exception): "TypeError: incompatible index of inserted column with frame index" The code I used was the following: df['percent'] = df.groupby(['state', 'office_id']).sum().transform(lambda x: x/np.sum(x)*100) Therefore, I'll post a separate answer to fix this. Apr 18, 2019 at 6:58
1

Simple way I have used is a merge after the 2 groupby's then doing simple division.

import numpy as np
import pandas as pd
np.random.seed(0)
df = pd.DataFrame({'state': ['CA', 'WA', 'CO', 'AZ'] * 3,
               'office_id': list(range(1, 7)) * 2,
               'sales': [np.random.randint(100000, 999999) for _ in range(12)]})

state_office = df.groupby(['state', 'office_id'])['sales'].sum().reset_index()
state = df.groupby(['state'])['sales'].sum().reset_index()
state_office = state_office.merge(state, left_on='state', right_on ='state', how = 'left')
state_office['sales_ratio'] = 100*(state_office['sales_x']/state_office['sales_y'])

   state  office_id  sales_x  sales_y  sales_ratio
0     AZ          2   222579  1310725    16.981365
1     AZ          4   252315  1310725    19.250033
2     AZ          6   835831  1310725    63.768601
3     CA          1   405711  2098663    19.331879
4     CA          3   710581  2098663    33.858747
5     CA          5   982371  2098663    46.809373
6     CO          1   404137  1096653    36.851857
7     CO          3   217952  1096653    19.874290
8     CO          5   474564  1096653    43.273852
9     WA          2   535829  1543854    34.707233
10    WA          4   548242  1543854    35.511259
11    WA          6   459783  1543854    29.781508
1
df = pd.DataFrame({'state': ['CA', 'WA', 'CO', 'AZ'] * 3,
               'office_id': list(range(1, 7)) * 2,
               'sales': [np.random.randint(100000, 999999)
                         for _ in range(12)]})

grouped = df.groupby(['state', 'office_id'])
100*grouped.sum()/df[["state","sales"]].groupby('state').sum()

Returns:

sales
state   office_id   
AZ  2   54.587910
    4   33.009225
    6   12.402865
CA  1   32.046582
    3   44.937684
    5   23.015735
CO  1   21.099989
    3   31.848658
    5   47.051353
WA  2   43.882790
    4   10.265275
    6   45.851935
1

As someone who is also learning pandas I found the other answers a bit implicit as pandas hides most of the work behind the scenes. Namely in how the operation works by automatically matching up column and index names. This code should be equivalent to a step by step version of @exp1orer's accepted answer

With the df, I'll call it by the alias state_office_sales:

                  sales
state office_id        
AZ    2          839507
      4          373917
      6          347225
CA    1          798585
      3          890850
      5          454423
CO    1          819975
      3          202969
      5          614011
WA    2          163942
      4          369858
      6          959285

state_total_sales is state_office_sales grouped by total sums in index level 0 (leftmost).

In:   state_total_sales = df.groupby(level=0).sum()
      state_total_sales

Out: 
       sales
state   
AZ     2448009
CA     2832270
CO     1495486
WA     595859

Because the two dataframes share an index-name and a column-name pandas will find the appropriate locations through shared indexes like:

In:   state_office_sales / state_total_sales

Out:  

                   sales
state   office_id   
AZ      2          0.448640
        4          0.125865
        6          0.425496
CA      1          0.288022
        3          0.322169
        5          0.389809
CO      1          0.206684
        3          0.357891
        5          0.435425
WA      2          0.321689
        4          0.346325
        6          0.331986

To illustrate this even better, here is a partial total with a XX that has no equivalent. Pandas will match the location based on index and column names, where there is no overlap pandas will ignore it:

In:   partial_total = pd.DataFrame(
                      data   =  {'sales' : [2448009, 595859, 99999]},
                      index  =             ['AZ',    'WA',   'XX' ]
                      )
      partial_total.index.name = 'state'


Out:  
         sales
state
AZ       2448009
WA       595859
XX       99999
In:   state_office_sales / partial_total

Out: 
                   sales
state   office_id   
AZ      2          0.448640
        4          0.125865
        6          0.425496
CA      1          NaN
        3          NaN
        5          NaN
CO      1          NaN
        3          NaN
        5          NaN
WA      2          0.321689
        4          0.346325
        6          0.331986

This becomes very clear when there are no shared indexes or columns. Here missing_index_totals is equal to state_total_sales except that it has a no index-name.

In:   missing_index_totals = state_total_sales.rename_axis("")
      missing_index_totals

Out:  
       sales
AZ     2448009
CA     2832270
CO     1495486
WA     595859
In:   state_office_sales / missing_index_totals 

Out:  ValueError: cannot join with no overlapping index names
1
df.groupby('state').office_id.value_counts(normalize = True)

I used value_counts method, but it returns percentage like 0.70 and 0.30, not like a 70 and 30.

1
  • I think the request is for a percentage of the sales sum. This solution gives a percentage of sales counts. Otherwise this is a good approach. Add .mul(100) to convert fraction to percentage. df.groupby('state')['office_id'].value_counts(normalize = True).mul(100)
    – Turanga1
    Jun 23, 2022 at 21:16
0

One-line solution:

df.join(
    df.groupby('state').agg(state_total=('sales', 'sum')),
    on='state'
).eval('sales / state_total')

This returns a Series of per-office ratios -- can be used on it's own or assigned to the original Dataframe.

0

Here is what you require.

Explanation:

  1. groupby() multiple attributes
  2. Sorting is not necessary, however will be easy to view
  3. Assign a column, we catch entire DF in lambda and groups on category or use groupby(level=0) which means the first column.

I have also timed it, hence you see groupby(level=0) is faster because it leverages groupby() from previous step.

You can pick either solution, whichever suits you best. Either:

(
    df_xls.groupby(['Category','Sub-Category']).agg({'Sales': 'sum'})

    .sort_values(['Category','Sales'],ascending=[True,False])

    .assign(Sales_pct=lambda x: 100*x / (x.groupby(level=0).transform('sum')))
)

or:

(
    df_xls.groupby(['Category','Sub-Category']).agg({'Sales': 'sum'})

    .sort_values(['Category','Sales'],ascending=[True,False])

    .assign(Sales_pct=lambda x: 100*x / (x.groupby(['Category']).transform('sum')))
)

and the results: enter image description here

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

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