I have the following data frame in IPython, where each row is a single stock:

In [261]: bdata
<class 'pandas.core.frame.DataFrame'>
Int64Index: 21210 entries, 0 to 21209
Data columns:
BloombergTicker      21206  non-null values
Company              21210  non-null values
Country              21210  non-null values
MarketCap            21210  non-null values
PriceReturn          21210  non-null values
SEDOL                21210  non-null values
yearmonth            21210  non-null values
dtypes: float64(2), int64(1), object(4)

I want to apply a groupby operation that computes cap-weighted average return across everything, per each date in the "yearmonth" column.

This works as expected:

In [262]: bdata.groupby("yearmonth").apply(lambda x: (x["PriceReturn"]*x["MarketCap"]/x["MarketCap"].sum()).sum())
201204      -0.109444
201205      -0.290546

But then I want to sort of "broadcast" these values back to the indices in the original data frame, and save them as constant columns where the dates match.

In [263]: dateGrps = bdata.groupby("yearmonth")

In [264]: dateGrps["MarketReturn"] = dateGrps.apply(lambda x: (x["PriceReturn"]*x["MarketCap"]/x["MarketCap"].sum()).sum())
TypeError                                 Traceback (most recent call last)
/mnt/bos-devrnd04/usr6/home/espears/ws/Research/Projects/python-util/src/util/<ipython-input-264-4a68c8782426> in <module>()
----> 1 dateGrps["MarketReturn"] = dateGrps.apply(lambda x: (x["PriceReturn"]*x["MarketCap"]/x["MarketCap"].sum()).sum())

TypeError: 'DataFrameGroupBy' object does not support item assignment

I realize this naive assignment should not work. But what is the "right" Pandas idiom for assigning the result of a groupby operation into a new column on the parent dataframe?

In the end, I want a column called "MarketReturn" than will be a repeated constant value for all indices that have matching date with the output of the groupby operation.

One hack to achieve this would be the following:

marketRetsByDate  = dateGrps.apply(lambda x: (x["PriceReturn"]*x["MarketCap"]/x["MarketCap"].sum()).sum())

bdata["MarketReturn"] = np.repeat(np.NaN, len(bdata))

for elem in marketRetsByDate.index.values:
    bdata["MarketReturn"][bdata["yearmonth"]==elem] = marketRetsByDate.ix[elem]

But this is slow, bad, and unPythonic.

  • You are assigning back to your grouped object instead of your original frame. – Wouter Overmeire Aug 30 '12 at 16:24
  • 2
    I know that and I said so directly below the error, where I said: "I realize this naive assignment should not work. But what is the "right" Pandas idiom for assigning the result of a groupby operation into a new column on the parent dataframe?" Doing the assignment with my original data frame on the LHS doesn't work either, and is even less intuitive that adding the column at the GroupBy-object level. – ely Aug 30 '12 at 16:26
In [97]: df = pandas.DataFrame({'month': np.random.randint(0,11, 100), 'A': np.random.randn(100), 'B': np.random.randn(100)})

In [98]: df.join(df.groupby('month')['A'].sum(), on='month', rsuffix='_r')
           A         B  month       A_r
0  -0.040710  0.182269      0 -0.331816
1  -0.004867  0.642243      1  2.448232
2  -0.162191  0.442338      4  2.045909
3  -0.979875  1.367018      5 -2.736399
4  -1.126198  0.338946      5 -2.736399
5  -0.992209 -1.343258      1  2.448232
6  -1.450310  0.021290      0 -0.331816
7  -0.675345 -1.359915      9  2.722156
| improve this answer | |
  • This still requires me to save out the groupby computation, rather than having the assignment directly on the LHS on the line where I perform the groupby operation. Apply might be a bit better than the loop in my hack at the bottom of the question, but they are basically the same idea. – ely Aug 30 '12 at 17:36
  • Join can do this, but you will need to rename the added column. In this case A_r is new_col. – Wouter Overmeire Aug 30 '12 at 18:45
  • The join example at the bottom does work, but it's not presented clearly. If you feel like deleting the first part of the answer and making the latter part a little more clear, I will upvote in addition to accepting. – ely Sep 8 '12 at 16:50
  • 12
    I removed the first approach. To be honest i feel like the code speaks for itself, feel free to edit if you want to add some explanation or references to the docs. I`m not really into the so voting system, just here to support pandas a bit. – Wouter Overmeire Sep 8 '12 at 20:30
  • 1
    I spent a long time looking for this answer, bit of a necro post but thanks! +1 – Dan Carter Jul 5 '17 at 15:35

While I'm still exploring all of the incredibly smart ways that apply concatenates the pieces it's given, here's another way to add a new column in the parent after a groupby operation.

In [236]: df
  yearmonth    return
0    201202  0.922132
1    201202  0.220270
2    201202  0.228856
3    201203  0.277170
4    201203  0.747347

In [237]: def add_mkt_return(grp):
   .....:     grp['mkt_return'] = grp['return'].sum()
   .....:     return grp

In [238]: df.groupby('yearmonth').apply(add_mkt_return)
  yearmonth    return  mkt_return
0    201202  0.922132    1.371258
1    201202  0.220270    1.371258
2    201202  0.228856    1.371258
3    201203  0.277170    1.024516
4    201203  0.747347    1.024516
| improve this answer | |

As a general rule when using groupby(), if you use the .transform() function pandas will return a table with the same length as your original. When you use other functions like .sum() or .first() then pandas will return a table where each row is a group.

I'm not sure how this works with apply but implementing elaborate lambda functions with transform can be fairly tricky so the strategy that I find most helpful is to create the variables I need, place them in the original dataset and then do my operations there.

If I understand what you're trying to do correctly (I apologize if I'm mistaken) first you can calculate the total market cap for each group:

bdata['group_MarketCap'] = bdata.groupby('yearmonth')['MarketCap'].transform('sum')

This will add a column called "group_MarketCap" to your original data which would contain the sum of market caps for each group. Then you can calculate the weighted values directly:

bdata['weighted_P'] = bdata['PriceReturn'] * (bdata['MarketCap']/bdata['group_MarketCap'])

And finally you would calculate the weighted average for each group using the same transform function:

bdata['MarketReturn'] = bdata.groupby('yearmonth')['weighted_P'].transform('sum')

I tend to build my variables this way. Sometimes you can pull off putting it all in a single command but that doesn't always work with groupby() because most of the time pandas needs to instantiate the new object to operate on it at the full dataset scale (i.e. you can't add two columns together if one doesn't exist yet).

Hope this helps :)

| improve this answer | |

May I suggest the transform method (instead of aggregate)? If you use it in your original example it should do what you want (the broadcasting).

| improve this answer | |
  • My understanding was that transform produces an object that looks like the one it was passed. So if you transform a DataFrame, you don't just get back a column, you get back a DataFrame. Whereas in my case, I want to append a new result to the original data frame. Or are you saying that I should write a separate function that takes a data frame, computes the new column, and appends the new column, and then transform with that function? – ely Sep 9 '12 at 23:41
  • 2
    I agree, transform is a better choice, df['A-month-sum'] = df.groupby('month')['A'].transform(sum) – Wouter Overmeire Sep 10 '12 at 7:43
  • But why would it be better? It does the same, no? Is it faster? – K.-Michael Aye Feb 28 '13 at 2:29
  • 1
    IMHO, transform looks cleaner. I don't have EMS data to confirm this, but this might work (though the lambda function might have to be modified): bdata['mkt_return'] = bdata.groupby("yearmonth").transform(lambda x: (x["PriceReturn"]*x["MarketCap"]/x["MarketCap"].sum()).sum()) – cd98 Dec 2 '13 at 19:46
  • 1
    correct me if I'm wrong, transform does not allow one to operate on multiple columns after groupby, e.g. df.groupby('col_3')[['col_1','col_2']].transform(lambda x: ((1-x.col_1.mean()) - x.col_2.std())) will throw an error complaining that 'no attribute XXX' – Jason Goal Jan 31 '19 at 23:16

I did not find a way to make assignment to the original dataframe. So I just store the results from the groups and concatenate them. Then we sort the concatenated dataframe by index to get the original order as the input dataframe. Here is a sample code:

In [10]: df = pd.DataFrame({'month': np.random.randint(0,11, 100), 'A': np.random.randn(100), 'B': np.random.randn(100)})

In [11]: df.head()
   month         A         B
0      4 -0.029106 -0.904648
1      2 -2.724073  0.492751
2      7  0.732403  0.689530
3      2  0.487685 -1.017337
4      1  1.160858 -0.025232

In [12]: res = []

In [13]: for month, group in df.groupby('month'):
    ...:     new_df = pd.DataFrame({
    ...:         'A^2+B': group.A ** 2 + group.B,
    ...:         'A+B^2': group.A + group.B**2
    ...:     })
    ...:     res.append(new_df)

In [14]: res = pd.concat(res).sort_index()

In [15]: res.head()
      A^2+B     A+B^2
0 -0.903801  0.789282
1  7.913327 -2.481270
2  1.225944  1.207855
3 -0.779501  1.522660
4  1.322360  1.161495

This method is pretty fast and extensible. You can derive any feature here.

| improve this answer | |

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