- Python - Home
- Python - Overview
- Python - History
- Python - Features
- Python vs C++
- Python - Hello World Program
- Python - Application Areas
- Python - Interpreter
- Python - Environment Setup
- Python - Virtual Environment
- Python - Basic Syntax
- Python - Variables
- Python - Data Types
- Python - Type Casting
- Python - Unicode System
- Python - Literals
- Python - Operators
- Python - Arithmetic Operators
- Python - Comparison Operators
- Python - Assignment Operators
- Python - Logical Operators
- Python - Bitwise Operators
- Python - Membership Operators
- Python - Identity Operators
- Python - Operator Precedence
- Python - Comments
- Python - User Input
- Python - Numbers
- Python - Booleans
- Python - Control Flow
- Python - Decision Making
- Python - If Statement
- Python - If else
- Python - Nested If
- Python - Match-Case Statement
- Python - Loops
- Python - for Loops
- Python - for-else Loops
- Python - While Loops
- Python - break Statement
- Python - continue Statement
- Python - pass Statement
- Python - Nested Loops
- Python Functions & Modules
- Python - Functions
- Python - Default Arguments
- Python - Keyword Arguments
- Python - Keyword-Only Arguments
- Python - Positional Arguments
- Python - Positional-Only Arguments
- Python - Arbitrary Arguments
- Python - Variables Scope
- Python - Function Annotations
- Python - Modules
- Python - Built in Functions
- Python Strings
- Python - Strings
- Python - Slicing Strings
- Python - Modify Strings
- Python - String Concatenation
- Python - String Formatting
- Python - Escape Characters
- Python - String Methods
- Python - String Exercises
- Python Lists
- Python - Lists
- Python - Access List Items
- Python - Change List Items
- Python - Add List Items
- Python - Remove List Items
- Python - Loop Lists
- Python - List Comprehension
- Python - Sort Lists
- Python - Copy Lists
- Python - Join Lists
- Python - List Methods
- Python - List Exercises
- Python Tuples
- Python - Tuples
- Python - Access Tuple Items
- Python - Update Tuples
- Python - Unpack Tuples
- Python - Loop Tuples
- Python - Join Tuples
- Python - Tuple Methods
- Python - Tuple Exercises
- Python Sets
- Python - Sets
- Python - Access Set Items
- Python - Add Set Items
- Python - Remove Set Items
- Python - Loop Sets
- Python - Join Sets
- Python - Copy Sets
- Python - Set Operators
- Python - Set Methods
- Python - Set Exercises
- Python Dictionaries
- Python - Dictionaries
- Python - Access Dictionary Items
- Python - Change Dictionary Items
- Python - Add Dictionary Items
- Python - Remove Dictionary Items
- Python - Dictionary View Objects
- Python - Loop Dictionaries
- Python - Copy Dictionaries
- Python - Nested Dictionaries
- Python - Dictionary Methods
- Python - Dictionary Exercises
- Python Arrays
- Python - Arrays
- Python - Access Array Items
- Python - Add Array Items
- Python - Remove Array Items
- Python - Loop Arrays
- Python - Copy Arrays
- Python - Reverse Arrays
- Python - Sort Arrays
- Python - Join Arrays
- Python - Array Methods
- Python - Array Exercises
- Python File Handling
- Python - File Handling
- Python - Write to File
- Python - Read Files
- Python - Renaming and Deleting Files
- Python - Directories
- Python - File Methods
- Python - OS File/Directory Methods
- Python - OS Path Methods
- Object Oriented Programming
- Python - OOPs Concepts
- Python - Classes & Objects
- Python - Class Attributes
- Python - Class Methods
- Python - Static Methods
- Python - Constructors
- Python - Access Modifiers
- Python - Inheritance
- Python - Polymorphism
- Python - Method Overriding
- Python - Method Overloading
- Python - Dynamic Binding
- Python - Dynamic Typing
- Python - Abstraction
- Python - Encapsulation
- Python - Interfaces
- Python - Packages
- Python - Inner Classes
- Python - Anonymous Class and Objects
- Python - Singleton Class
- Python - Wrapper Classes
- Python - Enums
- Python - Reflection
- Python Errors & Exceptions
- Python - Syntax Errors
- Python - Exceptions
- Python - try-except Block
- Python - try-finally Block
- Python - Raising Exceptions
- Python - Exception Chaining
- Python - Nested try Block
- Python - User-defined Exception
- Python - Logging
- Python - Assertions
- Python - Built-in Exceptions
- Python Multithreading
- Python - Multithreading
- Python - Thread Life Cycle
- Python - Creating a Thread
- Python - Starting a Thread
- Python - Joining Threads
- Python - Naming Thread
- Python - Thread Scheduling
- Python - Thread Pools
- Python - Main Thread
- Python - Thread Priority
- Python - Daemon Threads
- Python - Synchronizing Threads
- Python Synchronization
- Python - Inter-thread Communication
- Python - Thread Deadlock
- Python - Interrupting a Thread
- Python Networking
- Python - Networking
- Python - Socket Programming
- Python - URL Processing
- Python - Generics
- Python Libraries
- NumPy Tutorial
- Pandas Tutorial
- SciPy Tutorial
- Matplotlib Tutorial
- Django Tutorial
- OpenCV Tutorial
- Python Miscellenous
- Python - Date & Time
- Python - Maths
- Python - Iterators
- Python - Generators
- Python - Closures
- Python - Decorators
- Python - Recursion
- Python - Reg Expressions
- Python - PIP
- Python - Database Access
- Python - Weak References
- Python - Serialization
- Python - Templating
- Python - Output Formatting
- Python - Performance Measurement
- Python - Data Compression
- Python - CGI Programming
- Python - XML Processing
- Python - GUI Programming
- Python - Command-Line Arguments
- Python - Docstrings
- Python - JSON
- Python - Sending Email
- Python - Further Extensions
- Python - Tools/Utilities
- Python - GUIs
- Python Advanced Concepts
- Python - Abstract Base Classes
- Python - Custom Exceptions
- Python - Higher Order Functions
- Python - Object Internals
- Python - Memory Management
- Python - Metaclasses
- Python - Metaprogramming with Metaclasses
- Python - Mocking and Stubbing
- Python - Monkey Patching
- Python - Signal Handling
- Python - Type Hints
- Python - Automation Tutorial
- Python - Humanize Package
- Python - Context Managers
- Python - Coroutines
- Python - Descriptors
- Python - Diagnosing and Fixing Memory Leaks
- Python - Immutable Data Structures
- Python Useful Resources
- Python - Questions & Answers
- Python - Interview Questions & Answers
- Python - Online Quiz
- Python - Quick Guide
- Python - Reference
- Python - Cheatsheet
- Python - Projects
- Python - Useful Resources
- Python - Discussion
- Python Compiler
- NumPy Compiler
- Matplotlib Compiler
- SciPy Compiler
Python enumerate() Function
The Python enumerate() function is used to access each item from an iterable object. This function accepts an iterable object and returns it as an enumerate object. It also adds a counter to each iterable item to streamline the process of iteration.
The counter serves as an index to each item of the iterable which helps in traversing. Remember, an iterable is an object that enables us to access its items by iterating over them.
The enumerate() function is one of the built-in functions and does not require any module to import.
Syntax
The following is the syntax for the python enumerate() function.
enumerate(iterable, startIndex)
Parameters
The following is the parameter of the python enumerate() function −
iterable − This parameter indicates an iterable object such as a list, tuple, dictionary, or set.
startIndex − It specifies the starting index of iterable object. It is an optional parameter whose default value is 0.
Return Value
The python enumerate() function returns enumerated object.
enumerate() Function Examples
Practice the following examples to understand the use of enumerate() function in Python:
Example: Use of enumerate() Function
The following is an example of the Python enumerate() function. In this, we have created a list and, trying to access its each element using the enumerate() function.
fruitLst = ["Grapes", "Apple", "Banana", "Kiwi"]
newLst = list(enumerate(fruitLst))
print("The newly created list:")
print(newLst)
On executing the above program, the following output is generated −
The newly created list: [(0, 'Grapes'), (1, 'Apple'), (2, 'Banana'), (3, 'Kiwi')]
Example: enumerate() Function With 'start' Parameter
If we specify the starting index for the enumeration, the index number will start from the specified value of index. In the code below, we are specifying 1 as the start index.
fruitLst = ["Grapes", "Apple", "Banana", "Kiwi"]
newLst = list(enumerate(fruitLst, start=1))
print("The newly created list:")
print(newLst)
The following is the output obtained by executing the above program −
The newly created list: [(1, 'Grapes'), (2, 'Apple'), (3, 'Banana'), (4, 'Kiwi')]
Example: enumerate() Function With for Loop
The enumerate() function can also be combined with the for loop to access the element in a list as demonstrated in the following example.
fruitLst = ["Grapes", "Apple", "Banana", "Kiwi"]
print("The newly created list:")
for index, fruit in enumerate(fruitLst):
print(f"Index: {index}, Value: {fruit}")
The following output is obtained by executing the above program −
The newly created list: Index: 0, Value: Grapes Index: 1, Value: Apple Index: 2, Value: Banana Index: 3, Value: Kiwi
Example: enumerate() Function With List of Tuples
In the below example, we are creating a list of tuples and applying the enumerate() function to display all the elements of the list.
fruits = [(8, "Grapes"), (10, "Apple"), (9, "Banana"), (12, "Kiwi")]
for index, (quantity, fruit) in enumerate(fruits):
print(f"Index: {index}, Quantity: {quantity}, Fruit: {fruit}")
The above program, on executing, displays the following output -
Index: 0, Quantity: 8, Fruit: Grapes Index: 1, Quantity: 10, Fruit: Apple Index: 2, Quantity: 9, Fruit: Banana Index: 3, Quantity: 12, Fruit: Kiwi