In [1]: import pandas as pd
This tutorial uses the Titanic data set, stored as CSV. The data consists of the following data columns:
PassengerId: Id of every passenger.
Survived: This feature have value 0 and 1. 0 for not survived and 1 for survived.
Pclass: There are 3 classes: Class 1, Class 2 and Class 3.
Name: Name of passenger.
Sex: Gender of passenger.
Age: Age of passenger.
SibSp: Indication that passenger have siblings and spouse.
Parch: Whether a passenger is alone or have family.
Ticket: Ticket number of passenger.
Fare: Indicating the fare.
Cabin: The cabin of passenger.
Embarked: The embarked category.
In [2]: titanic = pd.read_csv("data/titanic.csv") In [3]: titanic.head() Out[3]: PassengerId Survived Pclass Name ... Ticket Fare Cabin Embarked 0 1 0 3 Braund, Mr. Owen Harris ... A/5 21171 7.2500 NaN S 1 2 1 1 Cumings, Mrs. John Bradley (Florence Briggs Th... ... PC 17599 71.2833 C85 C 2 3 1 3 Heikkinen, Miss. Laina ... STON/O2. 3101282 7.9250 NaN S 3 4 1 1 Futrelle, Mrs. Jacques Heath (Lily May Peel) ... 113803 53.1000 C123 S 4 5 0 3 Allen, Mr. William Henry ... 373450 8.0500 NaN S [5 rows x 12 columns]
What is the average age of the Titanic passengers?
In [4]: titanic["Age"].mean() Out[4]: 29.69911764705882
Different statistics are available and can be applied to columns with numerical data. Operations in general exclude missing data and operate across rows by default.
What is the median age and ticket fare price of the Titanic passengers?
In [5]: titanic[["Age", "Fare"]].median() Out[5]: Age 28.0000 Fare 14.4542 dtype: float64
The statistic applied to multiple columns of a DataFrame (the selection of two columns return a DataFrame, see the subset data tutorial) is calculated for each numeric column.
DataFrame
The aggregating statistic can be calculated for multiple columns at the same time. Remember the describe function from first tutorial tutorial?
describe
In [6]: titanic[["Age", "Fare"]].describe() Out[6]: Age Fare count 714.000000 891.000000 mean 29.699118 32.204208 std 14.526497 49.693429 min 0.420000 0.000000 25% 20.125000 7.910400 50% 28.000000 14.454200 75% 38.000000 31.000000 max 80.000000 512.329200
Instead of the predefined statistics, specific combinations of aggregating statistics for given columns can be defined using the DataFrame.agg() method:
DataFrame.agg()
In [7]: titanic.agg( ...: { ...: "Age": ["min", "max", "median", "skew"], ...: "Fare": ["min", "max", "median", "mean"], ...: } ...: ) ...: Out[7]: Age Fare min 0.420000 0.000000 max 80.000000 512.329200 median 28.000000 14.454200 skew 0.389108 NaN mean NaN 32.204208
Details about descriptive statistics are provided in the user guide section on descriptive statistics.
What is the average age for male versus female Titanic passengers?
In [8]: titanic[["Sex", "Age"]].groupby("Sex").mean() Out[8]: Age Sex female 27.915709 male 30.726645
As our interest is the average age for each gender, a subselection on these two columns is made first: titanic[["Sex", "Age"]]. Next, the groupby() method is applied on the Sex column to make a group per category. The average age for each gender is calculated and returned.
titanic[["Sex", "Age"]]
groupby()
Sex
Calculating a given statistic (e.g. mean age) for each category in a column (e.g. male/female in the Sex column) is a common pattern. The groupby method is used to support this type of operations. More general, this fits in the more general split-apply-combine pattern:
mean
groupby
split-apply-combine
Split the data into groups
Apply a function to each group independently
Combine the results into a data structure
The apply and combine steps are typically done together in pandas.
In the previous example, we explicitly selected the 2 columns first. If not, the mean method is applied to each column containing numerical columns:
In [9]: titanic.groupby("Sex").mean() Out[9]: PassengerId Survived Pclass Age SibSp Parch Fare Sex female 431.028662 0.742038 2.159236 27.915709 0.694268 0.649682 44.479818 male 454.147314 0.188908 2.389948 30.726645 0.429809 0.235702 25.523893
It does not make much sense to get the average value of the Pclass. if we are only interested in the average age for each gender, the selection of columns (rectangular brackets [] as usual) is supported on the grouped data as well:
Pclass
[]
In [10]: titanic.groupby("Sex")["Age"].mean() Out[10]: Sex female 27.915709 male 30.726645 Name: Age, dtype: float64
Note
The Pclass column contains numerical data but actually represents 3 categories (or factors) with respectively the labels ‘1’, ‘2’ and ‘3’. Calculating statistics on these does not make much sense. Therefore, pandas provides a Categorical data type to handle this type of data. More information is provided in the user guide Categorical data section.
Categorical
What is the mean ticket fare price for each of the sex and cabin class combinations?
In [11]: titanic.groupby(["Sex", "Pclass"])["Fare"].mean() Out[11]: Sex Pclass female 1 106.125798 2 21.970121 3 16.118810 male 1 67.226127 2 19.741782 3 12.661633 Name: Fare, dtype: float64
Grouping can be done by multiple columns at the same time. Provide the column names as a list to the groupby() method.
A full description on the split-apply-combine approach is provided in the user guide section on groupby operations.
What is the number of passengers in each of the cabin classes?
In [12]: titanic["Pclass"].value_counts() Out[12]: 3 491 1 216 2 184 Name: Pclass, dtype: int64
The value_counts() method counts the number of records for each category in a column.
value_counts()
The function is a shortcut, as it is actually a groupby operation in combination with counting of the number of records within each group:
In [13]: titanic.groupby("Pclass")["Pclass"].count() Out[13]: Pclass 1 216 2 184 3 491 Name: Pclass, dtype: int64
Both size and count can be used in combination with groupby. Whereas size includes NaN values and just provides the number of rows (size of the table), count excludes the missing values. In the value_counts method, use the dropna argument to include or exclude the NaN values.
size
count
NaN
value_counts
dropna
The user guide has a dedicated section on value_counts , see page on discretization.
Aggregation statistics can be calculated on entire columns or rows
groupby provides the power of the split-apply-combine pattern
value_counts is a convenient shortcut to count the number of entries in each category of a variable
A full description on the split-apply-combine approach is provided in the user guide pages about groupby operations.