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I've created a pandas dataframe reading it from a in the following way (file.sav is an IDL structure created on a different machine. The creates a standard python dictionary):

from scipy import io
import pandas as p
import numpy as np
tmp=io.readsav('file.sav', python_dict = True)

the dataframe contains a set of values (from file.sav) and as indices a series of integers of the form 19999,20000,30000 etc. Now I would like to take a subset of these indices, says


for some reasons I get errors of the form

raise ValueError('Cannot index with multidimensional key')

plus other and at the end

ValueError: Big-endian buffer not supported on little-endian compiler

But I've checked that both the machine I'm working on and the machine which has created the file.sav are both little endian. So I don't think this is the problem.

share|improve this question
Can you post file.sav somewhere where we can try it? Or, better yet, a small section of file.sav that reproduces the error? – Dan Allan Sep 3 '13 at 19:05
does df.loc[19999:20001] work? do you really have a multi-index (meaning an index comprised of several columns)? – Paul H Sep 3 '13 at 19:09
I made a dummy file.sav available here You can try on your self. Now shots is between 20000 and 20099. Actually the system suggested by Paul H works but the problem is that I would like to use indices which are not consecutive. Maybe the name of the question is incorrect. Actually I would like to take a subset of rows of the dataframe – Nicola Vianello Sep 3 '13 at 19:21
up vote 4 down vote accepted

Your input file is big endian. see here to transform it:

Compare before and after

In [7]: df.dtypes
a        >f4
b        >f4
c        >f4
shots    >f4
dtype: object

In [9]: df.apply(lambda x: x.values.byteswap().newbyteorder())
<class 'pandas.core.frame.DataFrame'>
Int64Index: 100 entries, 20000 to 20099
Data columns (total 4 columns):
a        100  non-null values
b        100  non-null values
c        100  non-null values
shots    100  non-null values
dtypes: float32(4)

In [10]: df.apply(lambda x: x.values.byteswap().newbyteorder()).dtypes
a        float32
b        float32
c        float32
shots    float32
dtype: object

Also set the index AFTER you do this (e.g. don't do it in the constructor)

share|improve this answer
Actually you are right. I have checked the type of endian on both the machines as sys.byteorder with the same answer as little. So I thought this was not the problem. Actually do you have an idea of the more pythonic way to convert the tmp (which is a python dictionary) to little endian? – Nicola Vianello Sep 3 '13 at 21:13
you can what I do in the apply, its operating on the numpy arrays directly. I don't think readsav can do this conversion. – Jeff Sep 3 '13 at 21:41
Ok I found a way. Actually it was a little tricky (at least for me) to preserve the fact that tmp is a dictionary. But I found a workaround (maybe not the best one). Thanks a lot – Nicola Vianello Sep 3 '13 at 21:50 can do the conversion after its a frame in any event (and we may introduce a method to do this directly in 0.13)) – Jeff Sep 3 '13 at 22:04

From your comments, I would approach the problem in the following way:

values_i_want = [19999, 20000, 20005, 20007]
subset = x: x[0] in values_i_want)

if your dataframe is very large (sounds like it is), the select method will probably be pretty slow. In that case, another approach would be to loop through values_i_want taking cross sections (df.xs(val, level=0) and appending them to an output dataframe. In other words (untested):

for n, val in enumerate(values_i_want):
    if n == 0:
         subset = df.xs(val, level=0)
         subset = subset.append(df.xs(val, level=0))

Not sure if that'll be any faster. But it's worth trying if the select approach is too slow.

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