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In my line of work I am often given a large csv file with no information at all regarding the contents or formats. I am trying to develop a workflow to automatically infer both the datatypes of the columns as well as the maximum-string lengths for object dtypes with the end goal of storing the formatted dataset in an HDFStore. I am looking for help to come up with the best practice for this scenario. I have something that works, but it seems inefficient:

The data for this example can be found here: http://www.kaggle.com/c/loan-default-prediction/data

import pandas as pd

# first pass to determine file formats using pd.read_csv inference
fmts = []
chunker = pd.read_csv('../data/train.csv', chunksize=10000)

for chunk in chunker:
    fmts.append(chunk.dtypes)

fmts = reduce(lambda x,y: x.combine(y, max), fmts)

This previous snippet accumulates the inferred dtypes for each chunk and then reduces them taking the max:

In[1]:fmts[:10]
Out[1]: 
id      int64
f1      int64
f2      int64
f3    float64
f4      int64
f5      int64
f6      int64
f7    float64
f8    float64
f9    float64
dtype: object

So step one is complete. I have created a list of data types that can be passed to read_csv on subsequent runs. Now to find the maximum length of the object columns which will be stored as string in the HDFStore:

# second pass now get max lengths of objects
objs = fmts[fmts == 'object'].index
cnvt = {obj : str for obj in objs}
lens = []

chunker = pd.read_csv('../data/train.csv', chunksize=10000,
                      converters=cnvt, usecols=objs)
for chunk in chunker:
    for col in chunk:
        lens.append(chunk.apply(lambda x: max(x.apply(len))))

# reduce the lens into one
lens = dict(reduce(lambda x,y: x.combine(y, max), lens))

I now have a dictionary where the columns of type object are the keys and the maximum cell length across all chunks is the value:

In[2]:lens
Out[2]: 
{'f137': 20,
 'f138': 26,
 'f206': 20,
 'f207': 27,
 'f276': 20,
 'f277': 27,
 'f338': 26,
 'f390': 32,
 'f391': 42,
 'f419': 20,
 'f420': 26,
 'f466': 19,
 'f469': 27,
 'f472': 35,
 'f534': 27,
 'f537': 35,
 'f626': 32,
 'f627': 42,
 'f695': 22,
 'f698': 22}

My final step is to then use the inferred formats and lengths to store everything in an HDFStore table:

# Lastly loop through once more to append to an HDFStore table!
store = pd.HDFStore("../data/train.h5")

chunker = pd.read_csv('../data/train.csv', chunksize=10000, dtype=dict(fmts))
for chunk in chunker:
    store.append('train', chunk, min_itemsize=lens)

Does this workflow make sense? What do others do to work with large datasets that don't fit in memory and need to be stored on disk in an HDFStore?

share|improve this question
    
Its 'easier' to simply set a max string size that you know you won't violate, and just use float types; then you don't really need even to do this. Its a tad inefficient for strings, but compression helps. –  Jeff Jan 25 '14 at 18:07
    
How do I determine which columns are objects, though? Should I still make the first pass to determine the inferred column types and just forget the second pass to calculate lengths of object columns? –  Zelazny7 Jan 25 '14 at 18:20
    
You don't need to if you simply pass a min_itemsize=40 (or whatever number is 'big enough'), this will apply to all object columns, alternatively, you can use: df.dtypes to see which are object (the values are the dtype) –  Jeff Jan 25 '14 at 18:37
    
Furthermore, say that you decide that the resultant file size is too big because you are using a really large min_itemsize; after your file is written, have another routine to post-process it (to create another one), which uses the max column size. I often have a pipeline things to do with a hdf file; some require all of the data know in advance (so I chunk thru it and do what I need), then in the next step use that info to create a new file and write it. Unless you are really at a space premium, use of compression and a reasonable guess at min_itemsize should prob work. –  Jeff Jan 25 '14 at 18:41
    
I think the problem I have is that by using chunksize and writing to an HDFStore, the column dtypes can be different. Something that looks like a float in the first chunk, might be an object in the next. That's the problem I was having and trying to overcome by determining the true data types ahead of time. –  Zelazny7 Jan 25 '14 at 22:26

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