Pandas DataFrame
A Pandas DataFrame is a two-dimensional table-like structure in Python where data is arranged in rows and columns. It’s one of the most commonly used tools for handling data and makes it easy to organize, analyze and manipulate data. It can store different types of data such as numbers, text and dates across its columns. The main parts of a DataFrame are:
- Data: Actual values in the table.
- Rows: Labels that identify each row.
- Columns: Labels that define each data category.
In this article, we’ll see the key components of a DataFrame and see how to work with it to make data analysis easier and more efficient.
Creating a Pandas DataFrame
Pandas allows us to create a DataFrame from many data sources. We can create DataFrames directly from Python objects like lists and dictionaries or by reading data from external files like CSV, Excel or SQL databases.
Here are some ways by which we create a dataframe:
1. Creating DataFrame using a List
If we have a simple list of data, we can easily create a DataFrame by passing that list to the pd.DataFrame() function.
import pandas as pd
lst = ['Geeks', 'For', 'Geeks', 'is',
'portal', 'for', 'Geeks']
df = pd.DataFrame(lst)
print(df)
Output:
2. Creating DataFrame from dict of ndarray/lists
We can create a DataFrame from a dictionary where the keys are column names and the values are lists or arrays.
- All arrays/lists must have the same length.
- If an index is provided, it must match the length of the arrays.
- If no index is provided, Pandas will use a default range index (0, 1, 2, …).
import pandas as pd
data = {'Name':['Tom', 'nick', 'krish', 'jack'],
'Age':[20, 21, 19, 18]}
df = pd.DataFrame(data)
print(df)
Output:
For more details refer to Creating a Pandas DataFrame.
Working With Rows and Columns in Pandas DataFrame
We can perform basic operations on rows/columns like selecting, deleting, adding and renaming.
1. Column Selection
In Order to select a column in Pandas DataFrame, we can either access the columns by calling them by their columns name.
import pandas as pd
data = {'Name':['Jai', 'Princi', 'Gaurav', 'Anuj'],
'Age':[27, 24, 22, 32],
'Address':['Delhi', 'Kanpur', 'Allahabad', 'Kannauj'],
'Qualification':['Msc', 'MA', 'MCA', 'Phd']}
df = pd.DataFrame(data)
print(df[['Name', 'Qualification']])
Output:
2. Row Selection
Pandas provide unique methods for selecting rows from a Data frame. DataFrame.loc[] method is used for label-based selection
Here we’ll be using nba.csv dataset in below examples for better understanding.
import pandas as pd
data = pd.read_csv("/content/nba.csv", index_col ="Name")
first = data.loc["Avery Bradley"]
second = data.loc["R.J. Hunter"]
print(first, "\n\n\n", second)
Output:
For more Details refer to Dealing with Rows and Columns
Indexing and Selecting Data in Pandas DataFrame
Indexing in pandas means simply selecting particular rows and columns of data from a DataFrame. It allows us to access subsets of data such as:
- Selecting all rows and some columns.
- Selecting some rows and all columns.
- Selecting a specific subset of rows and columns.
Indexing can also be known as Subset Selection.
1. Indexing a Dataframe using indexing operator []
The indexing operator [] is the basic way to select data in Pandas. We can use this operator to access columns from a DataFrame. This method allows us to retrieve one or more columns. The .loc and .iloc indexers also use the indexing operator to make selections.
In order to select a single column, we simply put the name of the column in-between the brackets.
import pandas as pd
data = pd.read_csv("/content/nba.csv", index_col ="Name")
first = data["Age"]
print(first)
Output:
2. Indexing a DataFrame using .loc[ ]
The .loc method is used to select data by label. This means it uses the row and column labels to access specific data points. .loc[] is versatile because it can select both rows and columns simultaneously based on labels.
In order to select a single row using .loc[], we put a single row label in a .loc function.
import pandas as pd
data = pd.read_csv("/content/nba.csv", index_col ="Name")
first = data.loc["Avery Bradley"]
second = data.loc["R.J. Hunter"]
print(first, "\n\n\n", second)
Output:
3. Indexing a DataFrame using .iloc[ ]
The .iloc() method allows us to select data based on integer position. Unlike .loc[] (which uses labels) .iloc[] requires us to specify row and column positions as integers (0-based indexing).
In order to select a single row using .iloc[], we can pass a single integer to .iloc[] function.
import pandas as pd
data = pd.read_csv("/content/nba.csv", index_col ="Name")
row2 = data.iloc[3]
print(row2)
Output:
For more Details refer
Working with Missing Data
Missing Data can occur when no information is available for one or more items or for an entire row/column. In Pandas missing data is represented as NaN (Not a Number). Missing data can be problematic in real-world datasets where data is incomplete. Pandas provides several methods to handle such missing data effectively:
1. Checking for Missing Values using isnull() and notnull()
To check for missing values (NaN) we can use two useful functions:
- isnull(): It returns True for NaN (missing) values and False otherwise.
- notnull(): It returns the opposite, True for non-missing values and False for NaN values.
import pandas as pd
import numpy as np
dict = {'First Score':[100, 90, np.nan, 95],
'Second Score': [30, 45, 56, np.nan],
'Third Score':[np.nan, 40, 80, 98]}
df = pd.DataFrame(dict)
df.isnull()
Output:
2. Filling Missing Values using fillna(), replace() and interpolate()
In order to fill null values in a datasets, we use fillna(), replace() and interpolate() function these function replace NaN values with some value of their own. All these function help in filling a null values in datasets of a DataFrame. Interpolate() function is used to fill NA values in the dataframe but it uses various interpolation technique to fill the missing values rather than hard-coding the value.
import pandas as pd
import numpy as np
dict = {'First Score':[100, 90, np.nan, 95],
'Second Score': [30, 45, 56, np.nan],
'Third Score':[np.nan, 40, 80, 98]}
df = pd.DataFrame(dict)
df.fillna(0)
3. Dropping Missing Values using dropna()
If we want to remove rows or columns with missing data we can use the dropna() method. This method is flexible which allows us to drop rows or columns depending on the configuration.
import pandas as pd
import numpy as np
dict = {'First Score':[100, 90, np.nan, 95],
'Second Score': [30, np.nan, 45, 56],
'Third Score':[52, 40, 80, 98],
'Fourth Score':[np.nan, np.nan, np.nan, 65]}
df = pd.DataFrame(dict)
df
Output:
Now we drop rows with at least one Nan value (Null value).
import pandas as pd
import numpy as np
dict = {'First Score':[100, 90, np.nan, 95],
'Second Score': [30, np.nan, 45, 56],
'Third Score':[52, 40, 80, 98],
'Fourth Score':[np.nan, np.nan, np.nan, 65]}
df = pd.DataFrame(dict)
df.dropna()
Output:
For more Details refer to Working with Missing Data in Pandas.
Iterating over rows and columns
Iteration refers to the process of accessing each item one at a time. In Pandas, it means iterating through rows or columns in a DataFrame to access or manipulate the data. We can iterate over rows and columns to extract values or perform operations on each item.
1. Iterating Over Rows
There are several ways to iterate over the rows of a Pandas DataFrame and three common methods are:
- iteritems()
- iterrows()
- itertuples()
Each method provides different ways to iterate over the rows which depends on our specific needs.
import pandas as pd
dict = {'name':["aparna", "pankaj", "sudhir", "Geeku"],
'degree': ["MBA", "BCA", "M.Tech", "MBA"],
'score':[90, 40, 80, 98]}
df = pd.DataFrame(dict)
print(df)
Output:
Here we apply iterrows() function in order to get a each element of rows.
import pandas as pd
dict = {'name':["aparna", "pankaj", "sudhir", "Geeku"],
'degree': ["MBA", "BCA", "M.Tech", "MBA"],
'score':[90, 40, 80, 98]}
df = pd.DataFrame(dict)
for i, j in df.iterrows():
print(i, j)
print()
Output:
2. Iterating Over Columns
In order to iterate over columns, we need to create a list of dataframe columns and then iterating through that list to pull out the dataframe columns.
import pandas as pd
dict = {'name':["aparna", "pankaj", "sudhir", "Geeku"],
'degree': ["MBA", "BCA", "M.Tech", "MBA"],
'score':[90, 40, 80, 98]}
df = pd.DataFrame(dict)
print(df)
Output:
Now here we iterate through columns in order to iterate through columns we first create a list of dataframe columns and then iterate through list.
columns = list(df)
for i in columns:
print (df[i][2])
Output:
For more Details refer to Iterating over rows and columns in Pandas DataFrame
DataFrame Methods for Working with Data
Pandas has a variety of methods for manipulating data in a DataFrame. Here's are some useful DataFrame methods:
| FUNCTION | DESCRIPTION |
|---|---|
| index() | Method returns index (row labels) of the DataFrame |
| insert() | Method inserts a column into a DataFrame |
| add() | Method returns addition of dataframe and other, element-wise (binary operator add) |
| sub() | Method returns subtraction of dataframe and other element-wise (binary operator sub) |
| mul() | Method returns multiplication of dataframe and other, element-wise (binary operator mul) |
| div() | Method returns floating division of dataframe and other element-wise (binary operator truediv) |
| unique() | Method extracts the unique values in the dataframe |
| nunique() | Method returns count of the unique values in the dataframe |
| value_counts() | Method counts the number of times each unique value occurs within the Series |
| columns() | Method returns the column labels of the DataFrame |
| axes() | Method returns a list representing the axes of the DataFrame |
| isnull() | Method creates a Boolean Series for extracting rows with null values |
| notnull() | Method creates a Boolean Series for extracting rows with non-null values |
| isin() | Method extracts rows from a DataFrame where a column value exists in a predefined collection |
| dtypes() | Method returns a Series with the data type of each column. The result’s index is the original DataFrame’s columns |
| astype() | Method converts the data types in a Series |
| values() | Method returns a Numpy representation of the DataFrame i.e only the values in the DataFrame will be returned, the axes labels will be removed |
| sort_values() | Method sorts a data frame in Ascending or Descending order of passed Column |
| sort_index() | Method sorts the values in a DataFrame based on their index positions or labels instead of their values but sometimes a data frame is made out of two or more data frames and hence later index can be changed using this method |
| loc[] | Method retrieves rows based on index label |
| iloc[] | Method retrieves rows based on index position |
| ix[] | Method retrieves DataFrame rows based on either index label or index position. This method combines the best features of the .loc[] and .iloc[] methods |
| rename() | Method is called on a DataFrame to change the names of the index labels or column names |
| drop() | Method is used to delete rows or columns from a DataFrame |
| pop() | Method is used to delete rows or columns from a DataFrame |
| sample() | Method pulls out a random sample of rows or columns from a DataFrame |
| nsmallest() | Method pulls out the rows with the smallest values in a column |
| nlargest() | Method pulls out the rows with the largest values in a column |
| shape() | Method returns a tuple representing the dimensionality of the DataFrame |
| ndim() | Method returns an ‘int’ representing the number of axes / array dimensions. Returns 1 if Series, otherwise returns 2 if DataFrame |
| dropna() | Method allows the user to analyze and drop Rows/Columns with Null values in different ways |
| fillna() | Method manages and let the user replace NaN values with some value of their own |
| rank() | Values in a Series can be ranked in order with this method |
| query() | Method is an alternate string-based syntax for extracting a subset from a DataFrame |
| copy() | Method creates an independent copy of a pandas object |
| duplicated() | Method creates a Boolean Series and uses it to extract rows that have duplicate values |
| drop_duplicates() | Method is an alternative option to identifying duplicate rows and removing them through filtering |
| set_index() | Method sets the DataFrame index (row labels) using one or more existing columns |
| reset_index() | Method resets index of a Data Frame. This method sets a list of integer ranging from 0 to length of data as index |
| where() | Method is used to check a Data Frame for one or more condition and return the result accordingly. By default, the rows not satisfying the condition are filled with NaN value |
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