Reverse column A, take the cumsum, then reverse again:
df['C'] = df.loc[::-1, 'A'].cumsum()[::-1]
import pandas as pd
df = pd.DataFrame(
{'A': [False, True, False, False, False, True, False, True],
'B': [0.03771, 0.315414, 0.33248, 0.445505, 0.580156, 0.741551, 0.796944, 0.817563],},
index=[6, 2, 4, 7, 3, 1, 5, 0])
df['C'] = df.loc[::-1, 'A'].cumsum()[::-1]
print(df)
yields
A B C
6 False 0.037710 3
2 True 0.315414 3
4 False 0.332480 2
7 False 0.445505 2
3 False 0.580156 2
1 True 0.741551 2
5 False 0.796944 1
0 True 0.817563 1
Alternatively, you could count the number of True
s in column A
and subtract the (shifted) cumsum:
In [113]: df['A'].sum()-df['A'].shift(1).fillna(0).cumsum()
Out[113]:
6 3
2 3
4 2
7 2
3 2
1 2
5 1
0 1
Name: A, dtype: object
But this is significantly slower. Using IPython to perform the benchmark:
In [116]: df = pd.DataFrame({'A':np.random.randint(2, size=10**5).astype(bool)})
In [117]: %timeit df['A'].sum()-df['A'].shift(1).fillna(0).cumsum()
10 loops, best of 3: 19.8 ms per loop
In [118]: %timeit df.loc[::-1, 'A'].cumsum()[::-1]
1000 loops, best of 3: 701 μs per loop