Why does pandas make a distinction between a Series and a single-column DataFrame?
In other words: what is the reason of existence of the Series class?
I'm mainly using time series with datetime index, maybe that helps to set the context.
6 Answers
Quoting the Pandas docs
pandas.DataFrame(data=None, index=None, columns=None, dtype=None, copy=False)Two-dimensional size-mutable, potentially heterogeneous tabular data structure with labeled axes (rows and columns). Arithmetic operations align on both row and column labels. Can be thought of as a dict-like container for Series objects. The primary pandas data structure.
So, the Series is the data structure for a single column of a DataFrame, not only conceptually, but literally, i.e. the data in a DataFrame is actually stored in memory as a collection of Series.
Analogously: We need both lists and matrices, because matrices are built with lists. Single row matricies, while equivalent to lists in functionality still cannot exist without the list(s) they're composed of.
They both have extremely similar APIs, but you'll find that DataFrame methods always cater to the possibility that you have more than one column. And, of course, you can always add another Series (or equivalent object) to a DataFrame, while adding a Series to another Series involves creating a DataFrame.
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3Thanks for your answer. My question was inspired by a bug in my code when a selection on a dataframe suddenly returned a series instead and I could not access the columns attribute. I'm not the only one confused: stackoverflow.com/questions/16782323/…– saroeleOct 13, 2014 at 7:51
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12You cannot conclude anything about the actual internal data structure of a
DataFramefromCan be thought of as a dict-like container for Series objects. In fact, it's currently stored as aBlockManager(which is an implementation detail you should not rely on). Dec 22, 2015 at 15:26 -
21I may be pedantic, but I don't see the OP's question of WHY series exist answered. I see an answer describing the relationship between series and dataframes, but not an answer explaining why we should want to have a series as a separate data type as opposed to being a special case of a dataframe (namely one with only one column). Jan 10, 2019 at 12:56
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2IMO, this argues that Series is a leaky abstraction, and argues that Series should not be exposed to the user. Instead, one column DataFrames would be more useful.– rsmith54Sep 23, 2021 at 20:03
from the pandas doc http://pandas.pydata.org/pandas-docs/stable/dsintro.html Series is a one-dimensional labeled array capable of holding any data type. To read data in form of panda Series:
import pandas as pd
ds = pd.Series(data, index=index)
DataFrame is a 2-dimensional labeled data structure with columns of potentially different types.
import pandas as pd
df = pd.DataFrame(data, index=index)
In both of the above index is list
for example: I have a csv file with following data:
,country,popuplation,area,capital
BR,Brazil,10210,12015,Brasile
RU,Russia,1025,457,Moscow
IN,India,10458,457787,New Delhi
To read above data as series and data frame:
import pandas as pd
file_data = pd.read_csv("file_path", index_col=0)
d = pd.Series(file_data.country, index=['BR','RU','IN'] or index = file_data.index)
output:
>>> d
BR Brazil
RU Russia
IN India
df = pd.DataFrame(file_data.area, index=['BR','RU','IN'] or index = file_data.index )
output:
>>> df
area
BR 12015
RU 457
IN 457787
answered Aug 19, 2016 at 8:22
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2I didn't downvote, but your code doesn't work. You may want to change
file_datatobrics, add a US line to the csv, and change['BR'....'US']tobrics.index. Perhaps correctpupuplation.– RolfBlyJul 26, 2018 at 14:04 -
@RolfBly: Thank you for pointing out those mistakes. It was silly on my part to make them. I have changed them. Thank you! And regarding reading that just an example I took hence random values. Jul 27, 2018 at 9:58
Series is a one-dimensional labeled array capable of holding any data type (integers, strings, floating point numbers, Python objects, etc.). The axis labels are collectively referred to as the index. The basic method to create a Series is to call:
s = pd.Series(data, index=index)
DataFrame is a 2-dimensional labeled data structure with columns of potentially different types. You can think of it like a spreadsheet or SQL table, or a dict of Series objects.
d = {'one' : pd.Series([1., 2., 3.], index=['a', 'b', 'c']),
two' : pd.Series([1., 2., 3., 4.], index=['a', 'b', 'c', 'd'])}
df = pd.DataFrame(d)
Series is a one-dimensional object that can hold any data type such as integers, floats and strings e.g
import pandas as pd
x = pd.Series([A,B,C])
0 A
1 B
2 C
The first column of Series is known as index i.e 0,1,2 the second column is your actual data i.e A,B,C
DataFrames is two-dimensional object that can hold series, list, dictionary
df=pd.DataFrame(rd(5,4),['A','B','C','D','E'],['W','X','Y','Z'])
A DataFrame is often described as
a 2-dimensional labeled data structure with columns of potentially different types. You can think of it like a spreadsheet or SQL table
Because of this definition, we may look at the data as cells, like in an Excel spreadsheet, which has rows with a row number and and columns with a column header. Because of this simplistic view, the underlying data structure may be a bit surprising.
The DataFrame actually consists of Index objects for the axes labels (row and column labels) and Series objects for the column data.
The Series object provides encapsulation for each of the column data (which is held in a one dimensional numpy.ndarray), with row labels and the column label.
So a single column DataFrame will have one underlying Series object for the column data.
See DataFrame data structure for a simple example with a visual representation of the underlying data structure.
Import cars data
import pandas as pd
cars = pd.read_csv('cars.csv', index_col = 0)
Here is how the cars.csv file looks.
Print out drives_right column as Series:
print(cars.loc[:,"drives_right"])
US True
AUS False
JAP False
IN False
RU True
MOR True
EG True
Name: drives_right, dtype: bool
The single bracket version gives a Pandas Series, the double bracket version gives a Pandas DataFrame.
Print out drives_right column as DataFrame
print(cars.loc[:,["drives_right"]])
drives_right
US True
AUS False
JAP False
IN False
RU True
MOR True
EG True
Adding a Series to another Series creates a DataFrame.
DataFrameas adictofSeries(though that isn't the current implementation), it's still unclear why you would ever return aSeriesobject instead of aDataFrame(ie conceptually adictwith one entry).