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I'm using Pandas library for remote sensing time series analysis. Eventually I would like to save my DataFrame to csv by using chunk-sizes, but I run into a little issue. My code generates 6 NumPy arrays that I convert to Pandas Series. Each of these Series contains a lot of items

>>> prcpSeries.shape

I would like to add the Series into a Pandas DataFram (df) so I can save them chunk by chunk to a csv file.

d = {'prcp': pd.Series(prcpSeries),
     'tmax': pd.Series(tmaxSeries),
     'tmin': pd.Series(tminSeries),
     'ndvi': pd.Series(ndviSeries),
     'lstm': pd.Series(lstmSeries),
     'evtm': pd.Series(evtmSeries)}

df = pd.DataFrame(d)
outFile ='F:/data/output/run1/_'+str(i)+'.out'
df.to_csv(outFile, header = False, chunksize = 1000)
d = None
df = None

But my code get stuck at following line giving a Memory Error

df = pd.DataFrame(d)

Any suggestions? Is it possible to fill the Pandas DataFrame chunk by chunk?

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Can you make a DataFrame from a single column: pd.DataFrane({'tmax': pd.Series(tmaxSeries)})? –  Andy Hayden Jun 18 '13 at 9:37
yes, that works –  Mattijn Jun 18 '13 at 9:48
create a frame with the first series, and add them sequentially, e.g. df = DataFrame({'prcp' : pd.Series(prcpSeries) }); df['tmax'] = pd.Series(tmaxSeries). You should probably write it to a HDF5 in any event, see: pandas.pydata.org/pandas-docs/dev/io.html#hdf5-pytables –  Jeff Jun 18 '13 at 11:29
@Jeff I was wondering if that might work, but wasn't sure how to test it... (need this ;) ) –  Andy Hayden Jun 18 '13 at 11:50
When you are passing a dict (even if the values are Series), I think copies are made. If you do iteratively (and argument is a series), then no copy –  Jeff Jun 18 '13 at 12:50

1 Answer 1

up vote 7 down vote accepted

If you know each of these are the same length then you could create the DataFrame directly from the array and then append each column:

df = pd.DataFrame(prcpSeries, columns=['prcp'])
df['tmax'] = tmaxSeries

Note: you can also use the to_frame method (which allows you to (optionally) pass a name - which is useful if the Series doesn't have one):

df = prcpSeries.to_frame(name='prcp')

However, if they are variable length then this will lose some data (any arrays which are longer than prcpSeries). An alternative here is to create each as a DataFrame and then perform an outer join (using concat):

df1 = pd.DataFrame(prcpSeries, columns=['prcp'])
df2 = pd.DataFrame(tmaxSeries, columns=['tmax'])

df = pd.concat([df1, df2, ...], join='outer', axis=1)

For example:

In [21]: dfA = pd.DataFrame([1,2], columns=['A'])

In [22]: dfB = pd.DataFrame([1], columns=['B'])

In [23]: pd.concat([dfA, dfB], join='outer', axis=1)
   A   B
0  1   1
1  2 NaN
share|improve this answer
Thanks Andy and Jeff! I've to use the first method with appending each column, since the second approach gets an Memory Error at the line of df = pd.concat(etc.). I know the series with the longest length and will use that one to initialise the DataFrame. –  Mattijn Jun 19 '13 at 2:46
One caveat: I'm using pandas version 0.14.1 and when I try to coerce a Series object to a DataFrame object, if I specify columns = ['my_column_name'] in the pandas.DataFrame() call, the resulting object is an empty DataFrame. When I dropped the columns argument, the resulting DataFrame was as expected. –  Jubbles Dec 31 '14 at 18:57
@Jubbles Thanks for mentioning this, perhaps it's cleaner to use the to_frame method here (I'm not sure this was available when I wrote the original answer) - I've updated this answer to mention that. I will have a look to see if this no longer works in 0.14+, I will have a check later to see. –  Andy Hayden Jan 4 at 18:54

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