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I wish to compare the output of multiple model runs, calculating these values:

  1. Difference between current period revenue and previous period
  2. Difference between actual current period revenue and forecasted current period revenue

I have experimented with multi-indexes, and suspect the answer lies in that direction with some creative shift(). However, I'm afraid I've mangled the problem through a haphazard application of various pivot/melt/groupby experiments. Perhaps you can help me figure out how to turn this:

import pandas as pd

ids = [1,2,3] * 5
year = ['2013', '2013', '2013', '2014', '2014', '2014', '2014', '2014', '2014', '2015', '2015', '2015', '2015', '2015', '2015']
run = ['actual','actual','actual','forecast','forecast','forecast','actual','actual','actual','forecast','forecast','forecast','actual','actual','actual']

revenue = [10,20,20,30,50,90,10,40,50,120,210,150,130,100,190]

change_from_previous_year = ['NA','NA','NA',20,30,70,0,20,30,90,160,60,120,60,140]
change_from_forecast = ['NA','NA','NA','NA','NA','NA',-20,-10,-40,'NA','NA','NA',30,-110,40]

d = {'ids':ids, 'year':year, 'run':run, 'revenue':revenue}

df = pd.DataFrame(data=d, columns=['ids','year','run','revenue'])
print df

    ids  year       run  revenue
0     1  2013    actual       10
1     2  2013    actual       20
2     3  2013    actual       20
3     1  2014  forecast       30
4     2  2014  forecast       50
5     3  2014  forecast       90
6     1  2014    actual       10
7     2  2014    actual       40
8     3  2014    actual       50
9     1  2015  forecast      120
10    2  2015  forecast      210
11    3  2015  forecast      150
12    1  2015    actual      130
13    2  2015    actual      100
14    3  2015    actual      190

....into this:

    ids  year       run  revenue chg_from_prev_year chg_from_forecast
0     1  2013    actual       10                 NA                NA
1     2  2013    actual       20                 NA                NA
2     3  2013    actual       20                 NA                NA
3     1  2014  forecast       30                 20                NA
4     2  2014  forecast       50                 30                NA
5     3  2014  forecast       90                 70                NA
6     1  2014    actual       10                  0               -20
7     2  2014    actual       40                 20               -10
8     3  2014    actual       50                 30               -40
9     1  2015  forecast      120                 90                NA
10    2  2015  forecast      210                160                NA
11    3  2015  forecast      150                 60                NA
12    1  2015    actual      130                120                30
13    2  2015    actual      100                 60              -110
14    3  2015    actual      190                140                40

EDIT-- I get pretty close with this:

df['prev_year'] = df.groupby(['ids','run']).shift(1)['revenue']
df['chg_from_prev_year'] = df['revenue'] - df['prev_year']

df['curr_forecast'] = df.groupby(['ids','year']).shift(1)['revenue']
df['chg_from_forecast'] = df['revenue'] - df['curr_forecast']

The only thing missed (as expected) is the comparison between 2014 forecast & 2013 actual. I could just duplicate the 2013 run in the dataset, calculate the chg_from_prev_year for 2014 forecast, and hide/delete the unwanted data from the final dataframe.

share|improve this question

1 Answer 1

Firstly to get the change from previous year, do a shift on each of the groups:

In [11]: g = df.groupby(['ids', 'run'])

In [12]: df['chg_from_prev_year'] = g['revenue'].apply(lambda x: x - x.shift())

The next part is more complicated, I think you need to do a pivot_table for the next part:

In [13]: df1 = df.pivot_table('revenue', ['ids', 'year'], 'run')

In [14]: df1
Out[14]:
run       actual  forecast
ids year
1   2013      10       NaN
    2014      10        30
    2015     130       120
2   2013      20       NaN
    2014      40        50
    2015     100       210
3   2013      20       NaN
    2014      50        90
    2015     190       150

In [15]: g1 = df1.groupby(level='ids', as_index=False)

In [16]: out_by = g1.apply(lambda x: x['actual'] - x['forecast'])

In [17]: out_by  # hello levels bug, fixed in 0.13/master... yesterday :)
Out[17]:
ids  ids  year
1    1    2013    NaN
          2014    -20
          2015     10
2    2    2013    NaN
          2014    -10
          2015   -110
3    3    2013    NaN
          2014    -40
          2015     40
dtype: float64

Which is the results which you want, but not in the correct format (see below [31] if you're not too fussed)... the following seems like a bit of a hack (to put it mildly), but here goes:

In [21]: df2 = df.set_index(['ids', 'year', 'run'])

In [22]: out_by.index = out_by.index.droplevel(0)

In [23]: out_by_df = pd.DataFrame(out_by, columns=['revenue'])

In [24]: out_by_df['run'] = 'forecast'

In [25]: df2['chg_from_forecast'] = out_by_df.set_index('run', append=True)['revenue']

and we're done...

In [26]: df2.reset_index()
Out[26]:
    ids  year       run  revenue  chg_from_prev_year  chg_from_forecast
0     1  2013    actual       10                 NaN                NaN
1     2  2013    actual       20                 NaN                NaN
2     3  2013    actual       20                 NaN                NaN
3     1  2014  forecast       30                 NaN                -20
4     2  2014  forecast       50                 NaN                -10
5     3  2014  forecast       90                 NaN                -40
6     1  2014    actual       10                   0                NaN
7     2  2014    actual       40                  20                NaN
8     3  2014    actual       50                  30                NaN
9     1  2015  forecast      120                  90                 10
10    2  2015  forecast      210                 160               -110
11    3  2015  forecast      150                  60                 40
12    1  2015    actual      130                 120                NaN
13    2  2015    actual      100                  60                NaN
14    3  2015    actual      190                 140                NaN

Note: I think the first 6 results of chg_from_prev_year should be NaN.

However, I think you may be better off keeping it as a pivot:

In [31]: df3 = df.pivot_table(['revenue', 'chg_from_prev_year'], ['ids', 'year'], 'run')

In [32]: df3['chg_from_forecast'] = g1.apply(lambda x: x['actual'] - x['forecast']).values

In [33]: df3
Out[33]:
          revenue            chg_from_prev_year            chg_from_forecast
run        actual  forecast              actual  forecast
ids year
1   2013       10       NaN                 NaN       NaN                NaN
    2014       10        30                   0       NaN                -20
    2015      130       120                 120        90                 10
2   2013       20       NaN                 NaN       NaN                NaN
    2014       40        50                  20       NaN                -10
    2015      100       210                  60       160               -110
3   2013       20       NaN                 NaN       NaN                NaN
    2014       50        90                  30       NaN                -40
    2015      190       150                 140        60                 40
share|improve this answer
    
For a brief moment after reading see below [31] I thought, "Wow, Andy is going a bit overboard with the footnotes for a SO answer." –  TomAugspurger Aug 27 '13 at 20:24
    
@TomAugspurger just going a bit overboard... :) (I remember thinking that was a weird sentence!) –  Andy Hayden Aug 27 '13 at 20:35

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