Tutorial

How To Define Functions in Python 3

How To Define Functions in Python 3

Introduction

A function is a block of instructions that performs an action and, once defined, can be reused. Functions make code more modular, allowing you to use the same code over and over again.

Python has a number of built-in functions that you may be familiar with, including:

  • print() which will print an object to the terminal
  • int() which will convert a string or number data type to an integer data type
  • len() which returns the length of an object

Function names include parentheses and may include parameters.

In this tutorial, we’ll go over how to define your own functions to use in your coding projects.

Prerequisites

You should have Python 3 installed and a programming environment set up on your computer or server. If you don’t have a programming environment set up, you can refer to the installation and setup guides for a local programming environment or for a programming environment on your server appropriate for your operating system (Ubuntu, CentOS, Debian, etc.)

Defining a Function

Let’s start with turning the classic “Hello, World!” program into a function.

We’ll create a new text file in our text editor of choice, and call the program hello.py. Then, we’ll define the function.

A function is defined by using the def keyword, followed by a name of your choosing, followed by a set of parentheses which hold any parameters the function will take (they can be empty), and ending with a colon.

Info: To follow along with the example code in this tutorial, open a Python interactive shell on your local system by running the python3 command. Then you can copy, paste, or edit the examples by adding them after the >>> prompt.

In this case, we’ll define a function named hello():

hello.py
def hello():

This sets up the initial statement for creating a function.

From here, we’ll add a second line with a 4-space indent to provide the instructions for what the function does. In this case, we’ll be printing Hello, World! to the console:

hello.py
def hello():
    print("Hello, World!")

Our function is now fully defined, but if we run the program at this point, nothing will happen since we didn’t call the function.

So, outside of our defined function block, let’s call the function with hello():

hello.py
def hello():
    print("Hello, World!")

hello()

Now, let’s run the program:

  1. python hello.py

You should receive the following output:

Output
Hello, World!

Functions can be more complicated than the hello() function we defined above. For example, we can use for loops, conditional statements, and more within our function block.

For example, the function defined below utilizes a conditional statement to check if the input for the name variable contains a vowel, then uses a for loop to iterate over the letters in the name string.

names.py
# Define function names()
def names():
    # Set up name variable with input
    name = str(input('Enter your name: '))
    # Check whether name has a vowel
    if set('aeiou').intersection(name.lower()):
        print('Your name contains a vowel.')
    else:
        print('Your name does not contain a vowel.')

    # Iterate over name
    for letter in name:
        print(letter)

# Call the function
names()

The names() function we defined above sets up a conditional statement and a for loop, showing how code can be organized within a function definition. However, depending on what we intend with our program and how we want to set up our code, we may want to define the conditional statement and the for loop as two separate functions.

Defining functions within a program makes our code modular and reusable so that we can call the same functions without rewriting them.

Working with Parameters

So far we have looked at functions with empty parentheses that do not take arguments, but we can define parameters in function definitions within their parentheses.

A parameter is a named entity in a function definition, specifying an argument that the function can accept.

Let’s create a small program that takes in parameters x, y, and z. We’ll create a function that adds the parameters together in different configurations. The sums of these will be printed by the function. Then we’ll call the function and pass numbers into the function.

add_numbers.py
def add_numbers(x, y, z):
    a = x + y
    b = x + z
    c = y + z
    print(a, b, c)

add_numbers(1, 2, 3)

We passed the number 1 in for the x parameter, 2 in for the y parameter, and 3 in for the z parameter. These values correspond with each parameter in the order they are given.

The program is essentially doing the following math based on the values we passed to the parameters:

a = 1 + 2
b = 1 + 3
c = 2 + 3

The function also prints a, b, and c, and based on the math above we would expect a to be equal to 3, b to be 4, and c to be 5. Let’s run the program:

  1. python add_numbers.py
Output
3 4 5

When we pass 1, 2, and 3 as parameters to the add_numbers() function, we receive the expected output.

Parameters are arguments that are typically defined as variables within function definitions. They can be assigned values when you run the method, passing the arguments into the function.

Keyword Arguments

In addition to calling parameters in order, you can use keyword arguments in a function call, in which the caller identifies the arguments by the parameter name.

When you use keyword arguments, you can use parameters out of order because the Python interpreter will use the keywords provided to match the values to the parameters.

Let’s create a function that will show us profile information for a user. We’ll pass parameters to it in the form of username (intended as a string), and followers (intended as an integer).

profile.py
# Define function with parameters
def profile_info(username, followers):
    print("Username: " + username)
    print("Followers: " + str(followers))

Within the function definition statement, username and followers are contained in the parentheses of the profile_info() function. The block of the function prints out information about the user as strings, making use of the two parameters.

Now, we can call the function and assign parameters to it:

profile.py
def profile_info(username, followers):
    print("Username: " + username)
    print("Followers: " + str(followers))

# Call function with parameters assigned as above
profile_info("sammyshark", 945)

# Call function with keyword arguments
profile_info(username="AlexAnglerfish", followers=342)

In the first function call, we have filled in the information with a username of sammyshark and followers being 945, in the second function call we used keyword arguments, assigning values to the argument variables.

Let’s run the program:

  1. python profile.py
Output
Username: sammyshark Followers: 945 Username: AlexAnglerfish Followers: 342

The output shows us the usernames and numbers of followers for both users.

This also permits us to modify the order of the parameters, as in this example of the same program with a different call:

profile.py
def profile_info(username, followers):
    print("Username: " + username)
    print("Followers: " + str(followers))

# Change order of parameters
profile_info(followers=820, username="cameron-catfish")

When we run the program again with the python profile.py command, we’ll receive the following output:

Output
Username: cameron-catfish Followers: 820

Because the function definition maintains the same order of print() statements, if we use keyword arguments, it does not matter which order we pass them into the function call.

Default Argument Values

We can also provide default values for one or both of the parameters. Let’s create a default value for the followers parameter with a value of 1:

profile.py
def profile_info(username, followers=1):
    print("Username: " + username)
    print("Followers: " + str(followers))

Now, we can run the function with only the username function assigned, and the number of followers will automatically default to 1. We can also still change the number of followers if we would like.

profile.py
def profile_info(username, followers=1):
    print("Username: " + username)
    print("Followers: " + str(followers))

profile_info(username="JOctopus")
profile_info(username="sammyshark", followers=945)

When we run the program with the python profile.py command, we’ll receive the following output:

Output
Username: JOctopus Followers: 1 Username: sammyshark Followers: 945

Providing default parameters with values can let us skip defining values for each argument that already has a default.

Returning a Value

You can pass a parameter value into a function, and a function can also produce a value.

A function can produce a value with the return statement, which will exit a function and optionally pass an expression back to the caller. If you use a return statement with no arguments, the function will return None.

So far, we have used the print() statement instead of the return statement in our functions. Let’s create a program that instead of printing will return a variable.

In a new text file called square.py, we’ll create a program that squares the parameter x and returns the variable y. We issue a call to print the result variable, which is formed by running the square() function with 3 passed into it.

square.py
def square(x):
    y = x ** 2
    return y

result = square(3)
print(result)

We can run the program and receive the output:

  1. python square.py
Output
9

The integer 9 is returned as output, which is what we would expect by asking Python to find the square of 3.

To further understand how the return statement works, we can comment out the return statement in the program:

square.py
def square(x):
    y = x ** 2
    # return y

result = square(3)
print(result)

Now, let’s run the program again:

  1. python square.py
Output
None

Without using the return statement here, the program cannot return a value so the value defaults to None.

As another example, in the add_numbers.py program above, we could swap out the print() statement for a return statement.

add_numbers.py
def add_numbers(x, y, z):
    a = x + y
    b = x + z
    c = y + z
    return a, b, c

sums = add_numbers(1, 2, 3)
print(sums)

Outside of the function, we set the variable sums equal to the result of the function taking in 1, 2, and 3 as we did above. Then we called a print of the sums variable.

Let’s run the program again now that it has the return statement:

  1. python add_numbers.py
Output
(3, 4, 5)

We receive the same numbers 3, 4, and 5 as output that we received previously by using the print() statement in the function. This time it is delivered as a tuple because the return statement’s expression list has at least one comma.

Functions exit immediately when they hit a return statement, whether or not they’re returning a value.

return_loop.py
def loop_five():
    for x in range(0, 25):
        print(x)
        if x == 5:
            # Stop function at x == 5
            return
    print("This line will not execute.")

loop_five()

Using the return statement within the for loop ends the function, so the line that is outside of the loop will not run. If, instead, we had used a break statement, only the loop would have exited at that time, and the last print() line would run.

The return statement exits a function, and may return a value when issued with a parameter.

Using main() as a Function

Although in Python you can call the function at the bottom of your program and it will run (as we have done in the examples above), many programming languages (like C++ and Java) require a main function in order to execute. Including a main() function, though not required, can structure our Python programs in a logical way that puts the most important components of the program into one function. It can also make our programs easier for non-Python programmers to read.

We’ll start with adding a main() function to the hello.py program above. We’ll keep our hello() function, and then define a main() function:

hello.py
def hello():
    print("Hello, World!")

def main():

Within the main() function, let’s include a print() statement to let us know that we’re in the main() function. Additionally, let’s call the hello() function within the main() function:

hello.py
def hello():
    print("Hello, World!")


def main():
    print("This is the main function")
    hello()

Finally, at the bottom of the program we’ll call the main() function:

hello.py
def hello():
    print("Hello, World!")

def main():
    print("This is the main function.")
    hello()

main()

At this point, we can run our program:

  1. python hello.py

We’ll receive the following output:

Output
This is the main function. Hello, World!

Because we called the hello() function within main() and then only called main() to run, the Hello, World! text printed only once, after the string that told us we were in the main function.

Next we’re going to be working with multiple functions, so it is worth reviewing the variable scope of global and local variables. If you define a variable within a function block, you’ll only be able to use that variable within that function. If you would like to use variables across functions it may be better to declare a global variable.

In Python, '__main__' is the name of the scope where top-level code will execute. When a program is run from standard input, a script, or from an interactive prompt, its __name__ is set equal to '__main__'.

Because of this, there is a convention to use the following construction:

if __name__ == '__main__':
    # Code to run when this is the main program here

This lets program files be used either:

  • as the main program and run what follows the if statement
  • as a module and not run what follows the if statement.

Any code that is not contained within this statement will be executed upon running. If you’re using your program file as a module, the code that is not in this statement will also execute upon its import while running the secondary file.

Let’s expand on our names.py program above, and create a new file called more_names.py. In this program we’ll declare a global variable and modify our original names() function so that the instructions are in two discrete functions.

The first function, has_vowel() will check to see if the name string contains a vowel.

The second function print_letters() will print each letter of the name string.

more_names.py
# Declare global variable name for use in all functions
name = str(input('Enter your name: '))


# Define function to check if name contains a vowel
def has_vowel():
    if set('aeiou').intersection(name.lower()):
        print('Your name contains a vowel.')
    else:
        print('Your name does not contain a vowel.')


# Iterate over letters in name string
def print_letters():
    for letter in name:
        print(letter)

With this set up, let’s define the main() function which will contain a call to both the has_vowel() and the print_letters() functions.

more_names.py
# Declare global variable name for use in all functions
name = str(input('Enter your name: '))


# Define function to check if name contains a vowel
def has_vowel():
    if set('aeiou').intersection(name.lower()):
        print('Your name contains a vowel.')
    else:
        print('Your name does not contain a vowel.')


# Iterate over letters in name string
def print_letters():
    for letter in name:
        print(letter)


# Define main method that calls other functions
def main():
    has_vowel()
    print_letters()

Finally, we’ll add the if __name__ == '__main__': construction at the bottom of the file. For our purposes, since we have put all the functions we would like to do in the main() function, we’ll call the main() function following this if statement.

more_names.py
# Declare global variable name for use in all functions
name = str(input('Enter your name: '))


# Define function to check if name contains a vowel
def has_vowel():
    if set('aeiou').intersection(name.lower()):
        print('Your name contains a vowel.')
    else:
        print('Your name does not contain a vowel.')


# Iterate over letters in name string
def print_letters():
    for letter in name:
        print(letter)


# Define main method that calls other functions
def main():
    has_vowel()
    print_letters()


# Execute main() function
if __name__ == '__main__':
    main()

We can now run the program:

  1. python more_names.py

The program will show the same output as the names.py program, but here the code is more organized and can be used in a modular way without modification.

If you did not want to declare a main() function, you alternatively could have ended the program like this:

more_names.py
...
if __name__ == '__main__':
    has_vowel()
    print_letters()

Using main() as a function and the if __name__ == '__main__': statement can organize your code in a logical way, making it more readable and modular.

Conclusion

Functions are code blocks of instructions that perform actions within a program, helping to make our code reusable and modular.

To learn more about how to make your code more modular, you can read our guide on How To Write Modules in Python 3.

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Tutorial Series: How To Code in Python

Python is a flexible and versatile programming language that can be leveraged for many use cases, with strengths in scripting, automation, data analysis, machine learning, and back-end development. It is a great tool for both new learners and experienced developers alike.

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6 Comments


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This is a great tutorial, but I still don’t quite understand what __name__ and '__main__' are used for. In the line

if __name__ == '__main__':
    main()

in more_names.py, what is the purpose of including if __name__ == '__main__':? Why wouldn’t we just plainly call the main() function as in hello.py?

very helpful…keep up !!

Hello! I’m completely new with Python. I’m using PyCharm to edit and compile. My problem is that I have created a very simple function in the text editor and when I’m trying to use it with some arguments, it give an error.

In the text file kelvin.py I have:

def kelvin(tc):
    tk = tc + 273.15
    return tk

Python Console:

kelvin(23)
Traceback (most recent call last):
  File "<input>", line 1, in <module>
NameError: name 'kelvin' is not defined

Thanks for your time!!

Thank you so much. This helped me a lot!

A tutorial on transforming Python3.6 into an executable .exe file would be great.

In this line:

 name = str(input('Enter your name: '))

There is no need to call str() here, it’s already a string:

 name = input('Enter your name: ')
 print(type(name))

Output:

Enter your name: Sveta
<class 'str'>

Also, this for loop :

for x in range(0, 25):

doesn’t require 0 in range(0,25), you can just write it as range(25)

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