# plyr or dplyr in Python

This is more of a conceptual question, I do not have a specific problem.

I am learning python for data analysis, but I am very familiar with R - one of the great things about R is plyr (and of course ggplot2) and even better dplyr. Pandas of course has split-apply as well however in R I can do things like (in dplyr, a bit different in plyr, and I can see now how dplyr mimics the . notation from object programming)

``````   data %.% group_by(c(.....)) %.% summarise(new1 = ...., new2 = ...., ..... newn=....)
``````

in which I create multiple summary calculations at the same time

How do I do that in python, because

``````df[...].groupby(.....).sum() only sums columns,
``````

while on R I can have one mean, one sum, one special function, etc. on one call

I realize I can do all my operations separately and merge them, and that is fine if I am using python, but when it comes down to choosing a tool, any line of code you do not have to type and check and validate adds up in time

in addition, in dplyr you can also add mutate statements as well, so it seems to me it is way more powerful - so what am I missing about pandas or python -

My goal is to learn, I have spent a lot of effort to learn python and it is a worthy investment, but still the question remains

I think you're looking for the agg function, which is applied to groupby objects.

From the docs:

``````In [48]: grouped = df.groupby('A')

In [49]: grouped['C'].agg([np.sum, np.mean, np.std])
Out[49]:
sum      mean       std
A
bar  0.443469  0.147823  0.301765
foo  2.529056  0.505811  0.96
``````
• That seems more of a comment than an answer. But on the other hand no reproducible exampel was offered, so .... perhaps. As an R user I was amused to see that the `agg`-function is not very much like the R aggregate function. – 42- Nov 12 '14 at 3:06
• OP asked for a way to apply multiple aggregate functions at the same time. A short answer is still an answer. – szxk Nov 12 '14 at 3:08
• On the cited page, it looked like `grouped.agg()` might have been needed. – 42- Nov 12 '14 at 3:11
• Okay, will clean up answer with an example – szxk Nov 12 '14 at 3:12
• thanks for the answer, i do not need a real example as it is right I did not provide an actual problem. I clearly stated it was a conceptual question – user1617979 Nov 12 '14 at 12:06

I'm also a big fan of dplyr for R and am working to improve my knowledge of Pandas. Since you don't have a specific problem, I'd suggest checking out the post below that breaks down the entire introductory dplyr vignette and shows how all of it can be done with Pandas.

For example, the author demonstrates chaining with the pipe operator in R:

`````` flights %>%
group_by(year, month, day) %>%
select(arr_delay, dep_delay) %>%
summarise(
arr = mean(arr_delay, na.rm = TRUE),
dep = mean(dep_delay, na.rm = TRUE)
) %>%
filter(arr > 30 | dep > 30)
``````

And here is the Pandas implementation:

``````flights.groupby(['year', 'month', 'day'])
[['arr_delay', 'dep_delay']]
.mean()
.query('arr_delay > 30 | dep_delay > 30')
``````

There are many more comparisons of how to implement dplyr like operations with Pandas at the original post. http://nbviewer.ipython.org/gist/TomAugspurger/6e052140eaa5fdb6e8c0

• While this may answer the question, it would be preferable to include the essential parts of the answer here (e.g. an example addressing the question's sample problem?), and provide the link for reference. – Nathan Tuggy Apr 12 '15 at 2:51
• Answer edited to include information about chaining, which is necessary for the original poster's point about performing multiple summary calculations. – lgallen Apr 12 '15 at 3:46

One could simply use dplyr from Python.

There is an interface to `dplyr` in rpy2 (introduced with rpy2-2.7.0) that lets you write things like:

``````dataf = (DataFrame(mtcars).
filter('gear>3').
mutate(powertoweight='hp*36/wt').
group_by('gear').
summarize(mean_ptw='mean(powertoweight)'))
``````

There is an example in the documentation. This part of the doc is (also) a jupyter notebook. Look for the links near the top of page.

An other answer to the question is comparing R's dplyr and pandas (see @lgallen). That same R one-liner chaining dplyr statements write's essentially the same in rpy2's interface to dplyr.

R:

``````flights %>%
group_by(year, month, day) %>%
select(arr_delay, dep_delay) %>%
summarise(
arr = mean(arr_delay, na.rm = TRUE),
dep = mean(dep_delay, na.rm = TRUE)
) %>%
filter(arr > 30 | dep > 30)
``````

Python+rpy2:

``````(DataFrame(flights).
group_by('year', 'month', 'day').
select('arr_delay', 'dep_delay').
summarize(arr = 'mean(arr_delay, na.rm=TRUE)',
dep = 'mean(dep_delay, na.rm=TRUE)').
filter('arr > 30 | dep > 30'))
``````
• But then you aren't even using native pandas dataframes anymore right? – Allen Wang Oct 31 '16 at 15:20
• @AllenWang There are tools to shuttle between in-memory R data frames and pandas data frame (converters in rpy2). Beside that, the notion of native pandas dataframes might be less strict than it seems when one is considering persistent data frames (HDF5, (remote) SQL table(s), feather) as they can be accessed from Python/pandas or R (therefore Python/rpy2) as data frames in their respective worlds. – lgautier Oct 31 '16 at 16:30

The most similar way to use dplyr in python, is with the dfply package. Here is an example.

R dplyr

``````library(nycflights13)
library(dplyr)

flights %>%
filter(hour > 10) %>% # step 1
mutate(speed = distance / (air_time * 60)) %>% # step 2
group_by(origin) %>% # step 3a
summarize(mean_speed = sprintf("%0.6f",mean(speed, na.rm = T))) %>% # step 3b
arrange(desc(mean_speed)) # step 4

# A tibble: 3 x 2
origin mean_speed
<chr>  <chr>
1 EWR    0.109777
2 JFK    0.109427
3 LGA    0.107362
``````

Python dfply

``````from dfply import *
import pandas as pd

(flight_data >>
mask(X.hour > 10) >> # step 1
mutate(speed = X.distance / (X.air_time * 60)) >> # step 2
group_by(X.origin) >> # step 3a
summarize(mean_speed = X.speed.mean()) >> # step 3b
arrange(X.mean_speed, ascending=False) # step 4
)

Out[1]:
origin  mean_speed
0    EWR    0.109777
1    JFK    0.109427
2    LGA    0.107362
``````

Python Pandas

``````flight_data.loc[flight_data['hour'] > 10, 'speed'] = flight_data['distance'] / (flight_data['air_time'] * 60)
result = flight_data.groupby('origin', as_index=False)['speed'].mean()
result.sort_values('speed', ascending=False)

Out[2]:
origin     speed
0    EWR  0.109777
1    JFK  0.109427
2    LGA  0.107362
``````

• One option is to install `ggplot` (in python \$ pip install ggplot), which includes different databases like `mtcars`, there are numerous examples of the use of dplyr with this database. – Rafael Díaz Feb 7 at 17:25