Questions are at the end, in **bold**. But first, let's set up some data:

```
import numpy as np
import pandas as pd
from itertools import product
np.random.seed(1)
team_names = ['Yankees', 'Mets', 'Dodgers']
jersey_numbers = [35, 71, 84]
game_numbers = [1, 2]
observer_names = ['Bill', 'John', 'Ralph']
observation_types = ['Speed', 'Strength']
row_indices = list(product(team_names, jersey_numbers, game_numbers, observer_names, observation_types))
observation_values = np.random.randn(len(row_indices))
tns, jns, gns, ons, ots = zip(*row_indices)
data = pd.DataFrame({'team': tns, 'jersey': jns, 'game': gns, 'observer': ons, 'obstype': ots, 'value': observation_values})
data = data.set_index(['team', 'jersey', 'game', 'observer', 'obstype'])
data = data.unstack(['observer', 'obstype'])
data.columns = data.columns.droplevel(0)
```

this gives:

I want to pluck out a subset of this DataFrame for subsequent analysis. Say I wanted to slice out the rows where the `jersey`

number is 71. I don't really like the idea of using `xs`

to do this. When you do a cross section via `xs`

you lose the column you selected on. If I run:

```
data.xs(71, axis=0, level='jersey')
```

then I get back the right rows, but I lose the `jersey`

column.

Also, `xs`

doesn't seem like a great solution for the case where I want a few different values from the `jersey`

column. I think a much nicer solution is the one found here:

```
data[[j in [71, 84] for t, j, g in data.index]]
```

You could even filter on a combination of jerseys and teams:

```
data[[j in [71, 84] and t in ['Dodgers', 'Mets'] for t, j, g in data.index]]
```

Nice!

**So the question: how can I do something similar for selecting a subset of columns.** For example, say I want only the columns representing data from Ralph. How can I do that without using `xs`

? Or what if I wanted only the columns with `observer in ['John', 'Ralph']`

? Again, I'd really prefer a solution that keeps all the levels of the row and column indices in the result...just like the boolean indexing examples above.

I can do what I want, and even combine selections from both the row and column indices. But the only solution I've found involves some real gymnastics:

```
data[[j in [71, 84] and t in ['Dodgers', 'Mets'] for t, j, g in data.index]]\
.T[[obs in ['John', 'Ralph'] for obs, obstype in data.columns]].T
```

And thus the second question: **is there a more compact way to do what I just did above?**

boldedthe specific questions above. More generally: I think I've shown some powerful but syntactically ugly recipes above. I was hopeful that there would be a more direct way to accomplish what I did up there. Specifically, I am looking for a method that will restrict the rows based on the values in one or more of the row indices and simultaneously restrict the columns based on the values in one or more of the column indices. Very much hoping someone can suggest a more natural approach. – 8one6 Dec 24 '13 at 4:24`drop_level=False`

to avoid losing the`Jersey`

column. And note that instead of the transpositions, you could write`data.loc[[j in [71, 84] and t in ['Dodgers', 'Mets'] for t, j, g in data.index], [obs in ['John', 'Ralph'] for obs, obstype in data.columns]]`

. – DSM Dec 24 '13 at 5:48slowhere... Seems like this could be good feature request. – Andy Hayden Dec 24 '13 at 5:54`df.fx(rows={"jersey": [71], "team": ["Dodgers", "Mets"]}, columns={"observer": ["John", "Ralph"]})`

which basically did what's desired here. – DSM Dec 24 '13 at 6:013more comments