150

In Pandas, when I select a label that only has one entry in the index I get back a Series, but when I select an entry that has more then one entry I get back a data frame.

Why is that? Is there a way to ensure I always get back a data frame?

In [1]: import pandas as pd

In [2]: df = pd.DataFrame(data=range(5), index=[1, 2, 3, 3, 3])

In [3]: type(df.loc[3])
Out[3]: pandas.core.frame.DataFrame

In [4]: type(df.loc[1])
Out[4]: pandas.core.series.Series

8 Answers 8

165

Granted that the behavior is inconsistent, but I think it's easy to imagine cases where this is convenient. Anyway, to get a DataFrame every time, just pass a list to loc. There are other ways, but in my opinion this is the cleanest.

In [2]: type(df.loc[[3]])
Out[2]: pandas.core.frame.DataFrame

In [3]: type(df.loc[[1]])
Out[3]: pandas.core.frame.DataFrame
9
  • 7
    Thanks. Worth noting that this returns a DataFrame even if the label isn't in the index.
    – Job Evers
    Dec 4, 2013 at 19:48
  • 8
    FYI, with a non-duplicate index, and a single indexer (e.g. a single label), you will ALWAYS get back a Series, its only because you have duplicates in the index that it is a DataFrame.
    – Jeff
    Dec 4, 2013 at 20:00
  • 1
    Note that there is a yet another gotcha: if using the suggested workaround, and there are no matching rows, the result will be a DataFrame with a single row, all NaN. Nov 4, 2014 at 11:19
  • 2
    Paul, what version of pandas are you using? On the latest version, I get a KeyError when I try .loc[[nonexistent_label]].
    – Dan Allan
    Nov 6, 2014 at 16:58
  • 2
    Using a list in .loc is much slower than without it. To be still readable but also much faster, better use df.loc[1:1]
    – Jonathan
    May 26, 2019 at 22:30
33

The TLDR

When using loc

df.loc[:] = Dataframe

df.loc[int] = Dataframe if you have more than one column and Series if you have only 1 column in the dataframe

df.loc[:, ["col_name"]] = Dataframe if you have more than one row and Series if you have only 1 row in the selection

df.loc[:, "col_name"] = Series

Not using loc

df["col_name"] = Series

df[["col_name"]] = Dataframe

4
  • 3
    This is incorrect. df.loc[:, ["col_name"]] would return a series if only one row is selected.
    – MrR
    Apr 26, 2021 at 19:09
  • right, if the dataframe consisted of just a single row, since the : selects all rows Apr 29, 2021 at 9:22
  • 1
    so since one is concerned with the type of the results, perhaps you could add different sections specifying that the type is different depending on the cardinality of the results.
    – MrR
    Apr 29, 2021 at 16:23
  • df.loc[int] returns a series, unless rows of df are not indexed with unique integers. (Not sure if this is version dependent behavior.)
    – Confounded
    Oct 19, 2023 at 3:40
20

You have an index with three index items 3. For this reason df.loc[3] will return a dataframe.

The reason is that you don't specify the column. So df.loc[3] selects three items of all columns (which is column 0), while df.loc[3,0] will return a Series. E.g. df.loc[1:2] also returns a dataframe, because you slice the rows.

Selecting a single row (as df.loc[1]) returns a Series with the column names as the index.

If you want to be sure to always have a DataFrame, you can slice like df.loc[1:1]. Another option is boolean indexing (df.loc[df.index==1]) or the take method (df.take([0]), but this used location not labels!).

3
  • 4
    Thats the behavior I would expect. I don't understand the design decision for single rows to get converted into a series - why not a data frame with one row?
    – Job Evers
    Dec 4, 2013 at 19:14
  • 1
    Ah, why selecting a single row returns a Series, I don't really know.
    – joris
    Dec 4, 2013 at 19:24
  • df.loc[1:1] is faster than df.loc[[1]]
    – Winand
    Feb 16, 2023 at 12:36
8

Use df['columnName'] to get a Series and df[['columnName']] to get a Dataframe.

1
  • 1
    Beware that takes a copy of the original df.
    – smci
    May 25, 2019 at 0:08
5

You wrote in a comment to joris' answer:

"I don't understand the design decision for single rows to get converted into a series - why not a data frame with one row?"

A single row isn't converted in a Series.
It IS a Series: No, I don't think so, in fact; see the edit

The best way to think about the pandas data structures is as flexible containers for lower dimensional data. For example, DataFrame is a container for Series, and Panel is a container for DataFrame objects. We would like to be able to insert and remove objects from these containers in a dictionary-like fashion.

http://pandas.pydata.org/pandas-docs/stable/overview.html#why-more-than-1-data-structure

The data model of Pandas objects has been choosen like that. The reason certainly lies in the fact that it ensures some advantages I don't know (I don't fully understand the last sentence of the citation, maybe it's the reason)

.

Edit : I don't agree with me

A DataFrame can't be composed of elements that would be Series, because the following code gives the same type "Series" as well for a row as for a column:

import pandas as pd

df = pd.DataFrame(data=[11,12,13], index=[2, 3, 3])

print '-------- df -------------'
print df

print '\n------- df.loc[2] --------'
print df.loc[2]
print 'type(df.loc[1]) : ',type(df.loc[2])

print '\n--------- df[0] ----------'
print df[0]
print 'type(df[0]) : ',type(df[0])

result

-------- df -------------
    0
2  11
3  12
3  13

------- df.loc[2] --------
0    11
Name: 2, dtype: int64
type(df.loc[1]) :  <class 'pandas.core.series.Series'>

--------- df[0] ----------
2    11
3    12
3    13
Name: 0, dtype: int64
type(df[0]) :  <class 'pandas.core.series.Series'>

So, there is no sense to pretend that a DataFrame is composed of Series because what would these said Series be supposed to be : columns or rows ? Stupid question and vision.

.

Then what is a DataFrame ?

In the previous version of this answer, I asked this question, trying to find the answer to the Why is that? part of the question of the OP and the similar interrogation single rows to get converted into a series - why not a data frame with one row? in one of his comment,
while the Is there a way to ensure I always get back a data frame? part has been answered by Dan Allan.

Then, as the Pandas' docs cited above says that the pandas' data structures are best seen as containers of lower dimensional data, it seemed to me that the understanding of the why would be found in the characteristcs of the nature of DataFrame structures.

However, I realized that this cited advice must not be taken as a precise description of the nature of Pandas' data structures.
This advice doesn't mean that a DataFrame is a container of Series.
It expresses that the mental representation of a DataFrame as a container of Series (either rows or columns according the option considered at one moment of a reasoning) is a good way to consider DataFrames, even if it isn't strictly the case in reality. "Good" meaning that this vision enables to use DataFrames with efficiency. That's all.

.

Then what is a DataFrame object ?

The DataFrame class produces instances that have a particular structure originated in the NDFrame base class, itself derived from the PandasContainer base class that is also a parent class of the Series class.
Note that this is correct for Pandas until version 0.12. In the upcoming version 0.13, Series will derive also from NDFrame class only.

# with pandas 0.12

from pandas import Series
print 'Series  :\n',Series
print 'Series.__bases__  :\n',Series.__bases__

from pandas import DataFrame
print '\nDataFrame  :\n',DataFrame
print 'DataFrame.__bases__  :\n',DataFrame.__bases__

print '\n-------------------'

from pandas.core.generic import NDFrame
print '\nNDFrame.__bases__  :\n',NDFrame.__bases__

from pandas.core.generic import PandasContainer
print '\nPandasContainer.__bases__  :\n',PandasContainer.__bases__

from pandas.core.base import PandasObject
print '\nPandasObject.__bases__  :\n',PandasObject.__bases__

from pandas.core.base import StringMixin
print '\nStringMixin.__bases__  :\n',StringMixin.__bases__

result

Series  :
<class 'pandas.core.series.Series'>
Series.__bases__  :
(<class 'pandas.core.generic.PandasContainer'>, <type 'numpy.ndarray'>)

DataFrame  :
<class 'pandas.core.frame.DataFrame'>
DataFrame.__bases__  :
(<class 'pandas.core.generic.NDFrame'>,)

-------------------

NDFrame.__bases__  :
(<class 'pandas.core.generic.PandasContainer'>,)

PandasContainer.__bases__  :
(<class 'pandas.core.base.PandasObject'>,)

PandasObject.__bases__  :
(<class 'pandas.core.base.StringMixin'>,)

StringMixin.__bases__  :
(<type 'object'>,)

So my understanding is now that a DataFrame instance has certain methods that have been crafted in order to control the way data are extracted from rows and columns.

The ways these extracting methods work are described in this page: http://pandas.pydata.org/pandas-docs/stable/indexing.html#indexing
We find in it the method given by Dan Allan and other methods.

Why these extracting methods have been crafted as they were ?
That's certainly because they have been appraised as the ones giving the better possibilities and ease in data analysis.
It's precisely what is expressed in this sentence:

The best way to think about the pandas data structures is as flexible containers for lower dimensional data.

The why of the extraction of data from a DataFRame instance doesn't lies in its structure, it lies in the why of this structure. I guess that the structure and functionning of the Pandas' data structure have been chiseled in order to be as much intellectually intuitive as possible, and that to understand the details, one must read the blog of Wes McKinney.

5
  • 1
    FYI, DataFrame is NOT an ndarray sub-class, neither is a Series (starting 0.13, prior to that it was though). These are more dict-like that anything.
    – Jeff
    Dec 4, 2013 at 21:38
  • Thank you to inform me. I really appreciate because I am new in the learning of Pandas. But I need more information to understand well. Why is it written in the docs that a Series is a subclass of ndarray ?
    – eyquem
    Dec 4, 2013 at 21:42
  • it was before 0.13 (releasing shortly), here are dev docs: pandas.pydata.org/pandas-docs/dev/dsintro.html#series
    – Jeff
    Dec 4, 2013 at 21:50
  • OK. Thank you very much. However it doesn't change the basis of my reasoning and understanding, does it ? - In Pandas inferior to 0.13 , DataFrame and other Pandas' objects different from Series: what are they subclass of ?
    – eyquem
    Dec 4, 2013 at 22:21
  • @Jeff Thank you. I modified my answer after your information. I would be pleased to know what you think of my edit.
    – eyquem
    Dec 5, 2013 at 1:53
3

If the objective is to get a subset of the data set using the index, it is best to avoid using loc or iloc. Instead you should use syntax similar to this :

df = pd.DataFrame(data=range(5), index=[1, 2, 3, 3, 3])
result = df[df.index == 3] 
isinstance(result, pd.DataFrame) # True

result = df[df.index == 1]
isinstance(result, pd.DataFrame) # True
2
  • The syntax result = df[df.index == idx] is a really nice option; fit my purposes perfectly.
    – ghukill
    Dec 7, 2021 at 10:02
  • this then avoids entire performance benefit of having hashmap/indexed index in the first place
    – Zak
    Feb 22 at 19:58
3

every time we put [['column name']] it returns Pandas DataFrame object, if we put ['column name'] we got Pandas Series object

0

If you also select on the index of the dataframe then the result can be either a DataFrame or a Series or it can be a Series or a scalar (single value).

This function ensures that you always get a list from your selection (if the df, index and column are valid):

def get_list_from_df_column(df, index, column):
    df_or_series = df.loc[index,[column]] 
    # df.loc[index,column] is also possible and returns a series or a scalar
    if isinstance(df_or_series, pd.Series):
        resulting_list = df_or_series.tolist() #get list from series
    else:
        resulting_list = df_or_series[column].tolist() 
        # use the column key to get a series from the dataframe
    return(resulting_list)

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