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Suppose I have a nested dictionary 'user_dict' with structure:

Level 1: UserId (Long Integer)

Level 2: Category (String)

Level 3: Assorted Attributes (floats, ints, etc..)

For example, an entry of this dictionary would be:

user_dict[12] = {
    "Category 1": {"att_1": 1, 
                   "att_2": "whatever"},
    "Category 2": {"att_1": 23, 
                   "att_2": "another"}}

each item in "user_dict" has the same structure and "user_dict" contains a large number of items which I want to feed to a pandas DataFrame, constructing the series from the attributes. In this case a hierarchical index would be useful for the purpose.

Specifically, my question is whether there exists a way to to help the DataFrame constructor understand that the series should be built from the values of the "level 3" in the dictionary?

If I try something like:

df = pandas.DataFrame(users_summary)

The items in "level 1" (the user id's) are taken as columns, which is the opposite of what I want to achieve (have user id's as index).

I know I could construct the series after iterating over the dictionary entries, but if there is a more direct way this would be very useful. A similar question would be asking whether it is possible to construct a pandas DataFrame from json objects listed in a file.

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1  
It would probably be appreciated if you could look at some of your old questions and increase your accept rate. –  Sam Mussmann Nov 26 '12 at 23:45

2 Answers 2

up vote 9 down vote accepted

Up to two level nesting you can use pd.DataFrame.from_dict(), for three level nesting i used two steps.

In [57]: user_dict
Out[57]:
{12: {'Category 1': {'att_1': 1, 'att_2': 'whatever'},
  'Category 2': {'att_1': 23, 'att_2': 'another'}},
 15: {'Category 1': {'att_1': 10, 'att_2': 'foo'},
  'Category 2': {'att_1': 30, 'att_2': 'bar'}}}

In [58]: user_ids = []

In [59]: frames = []

In [60]: for user_id, d in user_dict.iteritems():
   ....:     user_ids.append(user_id)
   ....:     frames.append(pd.DataFrame.from_dict(d, orient='index'))

In [61]: pd.concat(frames, keys=user_ids)
Out[61]:
               att_1     att_2
12 Category 1      1  whatever
   Category 2     23   another
15 Category 1     10       foo
   Category 2     30       bar
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Awesome, thank you! build dataframes for each user and concat, very clever! –  vladimir montealegre Nov 27 '12 at 16:04
    
Is there a reasonable way to generalise this to work with arbitrary depth ragged lists? e.g. lists to an arbitrary depth, where some branches may be shorter than others, and a None or nan is used when shorter branches don't reach the end? –  naught101 Nov 11 '13 at 5:59
    
Have you looked at pandas json support (io tools) and normalization? pandas.pydata.org/pandas-docs/dev/io.html#normalization –  Wouter Overmeire Nov 12 '13 at 10:40

So I used to use a for loop for iterating through the dictionary as well, but one thing I've found that works much faster is to convert to a panel and then to a dataframe. Say you have a dictionary d

import pandas as pd
d
{'RAY Index': {datetime.date(2014, 11, 3): {'PX_LAST': 1199.46,
'PX_OPEN': 1200.14},
datetime.date(2014, 11, 4): {'PX_LAST': 1195.323, 'PX_OPEN': 1197.69},
datetime.date(2014, 11, 5): {'PX_LAST': 1200.936, 'PX_OPEN': 1195.32},
datetime.date(2014, 11, 6): {'PX_LAST': 1206.061, 'PX_OPEN': 1200.62}},
'SPX Index': {datetime.date(2014, 11, 3): {'PX_LAST': 2017.81,
'PX_OPEN': 2018.21},
datetime.date(2014, 11, 4): {'PX_LAST': 2012.1, 'PX_OPEN': 2015.81},
datetime.date(2014, 11, 5): {'PX_LAST': 2023.57, 'PX_OPEN': 2015.29},
datetime.date(2014, 11, 6): {'PX_LAST': 2031.21, 'PX_OPEN': 2023.33}}}

The command

pd.Panel(d)
<class 'pandas.core.panel.Panel'>
Dimensions: 2 (items) x 2 (major_axis) x 4 (minor_axis)
Items axis: RAY Index to SPX Index
Major_axis axis: PX_LAST to PX_OPEN
Minor_axis axis: 2014-11-03 to 2014-11-06

where pd.Panel(d)[item] yields a dataframe

pd.Panel(d)['SPX Index']
2014-11-03  2014-11-04  2014-11-05 2014-11-06
PX_LAST 2017.81 2012.10 2023.57 2031.21
PX_OPEN 2018.21 2015.81 2015.29 2023.33

You can then hit the command to_frame() to turn it into a dataframe. I use reset_index as well to turn the major and minor axis into columns rather than have them as indices.

pd.Panel(d).to_frame().reset_index()
major   minor      RAY Index    SPX Index
PX_LAST 2014-11-03  1199.460    2017.81
PX_LAST 2014-11-04  1195.323    2012.10
PX_LAST 2014-11-05  1200.936    2023.57
PX_LAST 2014-11-06  1206.061    2031.21
PX_OPEN 2014-11-03  1200.140    2018.21
PX_OPEN 2014-11-04  1197.690    2015.81
PX_OPEN 2014-11-05  1195.320    2015.29
PX_OPEN 2014-11-06  1200.620    2023.33

Finally, if you don't like the way the frame looks you can use the transpose function of panel to change the appearance before calling to_frame() see documentation here http://pandas.pydata.org/pandas-docs/dev/generated/pandas.Panel.transpose.html

Just as an example

pd.Panel(d).transpose(2,0,1).to_frame().reset_index()
major        minor  2014-11-03  2014-11-04  2014-11-05  2014-11-06
RAY Index   PX_LAST 1199.46    1195.323     1200.936    1206.061
RAY Index   PX_OPEN 1200.14    1197.690     1195.320    1200.620
SPX Index   PX_LAST 2017.81    2012.100     2023.570    2031.210
SPX Index   PX_OPEN 2018.21    2015.810     2015.290    2023.330

Hope this helps.

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