问题
I have a dataset of trader transactions where the variable of interest is Buy/Sell which is binary and takes on the value of 1 f the transaction was a buy and 0 if it is a sell. An example looks as follows:
Trader Buy/Sell
A 1
A 0
B 1
B 1
B 0
C 1
C 0
C 0
I would like to calculate the net Buy/Sell for each trader such that if the trader had more than 50% of trades as a buy, he would have a Buy/Sell of 1, if he had less than 50% buy then he would have a Buy/Sell of 0 and if it were exactly 50% he would have NA (and would be disregarded in future calculations).
So for trader A, the buy proportion is (number of buys)/(total number of trader) = 1/2 = 0.5 which gives NA.
For trader B it is 2/3 = 0.67 which gives a 1
For trader C it is 1/3 = 0.33 which gives a 0
The table should look like this:
Trader Buy/Sell
A NA
B 1
C 0
Ultimately i want to compute the total aggregated number of buys, which in this case is 1, and the aggregated total number of trades (disregarding NAs) which in this case is 2. I am not interested in the second table, I am just interested in the aggregated number of buys and the aggregated total number (count) of Buy/Sell.
How can I do this in Pandas?
回答1:
import numpy as np
import pandas as pd
df = pd.DataFrame({'Buy/Sell': [1, 0, 1, 1, 0, 1, 0, 0],
'Trader': ['A', 'A', 'B', 'B', 'B', 'C', 'C', 'C']})
grouped = df.groupby(['Trader'])
result = grouped['Buy/Sell'].agg(['sum', 'count'])
means = grouped['Buy/Sell'].mean()
result['Buy/Sell'] = np.select(condlist=[means>0.5, means<0.5], choicelist=[1, 0],
default=np.nan)
print(result)
yields
Buy/Sell sum count
Trader
A NaN 1 2
B 1 2 3
C 0 1 3
My original answer used a custom aggregator, categorize:
def categorize(x):
m = x.mean()
return 1 if m > 0.5 else 0 if m < 0.5 else np.nan
result = df.groupby(['Trader'])['Buy/Sell'].agg([categorize, 'sum', 'count'])
result = result.rename(columns={'categorize' : 'Buy/Sell'})
While calling a custom function may be convenient, performance is often
significantly slower when you use a custom function compared to the built-in
aggregators (such as groupby/agg/mean). The built-in aggregators are
Cythonized, while the custom functions reduce performance to plain Python
for-loop speeds.
The difference in speed is particularly significant when the number of groups is large. For example, with a 10000-row DataFrame with 1000 groups,
import numpy as np
import pandas as pd
np.random.seed(2017)
N = 10000
df = pd.DataFrame({
'Buy/Sell': np.random.randint(2, size=N),
'Trader': np.random.randint(1000, size=N)})
def using_select(df):
grouped = df.groupby(['Trader'])
result = grouped['Buy/Sell'].agg(['sum', 'count'])
means = grouped['Buy/Sell'].mean()
result['Buy/Sell'] = np.select(condlist=[means>0.5, means<0.5], choicelist=[1, 0],
default=np.nan)
return result
def categorize(x):
m = x.mean()
return 1 if m > 0.5 else 0 if m < 0.5 else np.nan
def using_custom_function(df):
result = df.groupby(['Trader'])['Buy/Sell'].agg([categorize, 'sum', 'count'])
result = result.rename(columns={'categorize' : 'Buy/Sell'})
return result
using_select is over 50x faster than using_custom_function:
In [69]: %timeit using_custom_function(df)
10 loops, best of 3: 132 ms per loop
In [70]: %timeit using_select(df)
100 loops, best of 3: 2.46 ms per loop
In [71]: 132/2.46
Out[71]: 53.65853658536585
来源:https://stackoverflow.com/questions/26812763/applying-a-custom-groupby-aggregate-function-to-output-a-binary-outcome-in-panda