Computer programs are great to use for automating and repeating tasks so that we don’t have to. One way to repeat similar tasks is through using loops. We’ll be covering Python’s while loop in this tutorial.
A while
loop implements the repeated execution of code based on a given Boolean condition. The code that is in a while
block will execute as long as the while
statement evaluates to True.
You can think of the while
loop as a repeating conditional statement. After an if
statement, the program continues to execute code, but in a while
loop, the program jumps back to the start of the while statement until the condition is False.
As opposed to for loops that execute a certain number of times, while
loops are conditionally based, so you don’t need to know how many times to repeat the code going in.
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.)
In Python, while
loops are constructed like so:
while [a condition is True]:
[do something]
The something that is being done will continue to be executed until the condition that is being assessed is no longer true.
Let’s create a small program that executes a while
loop. In this program, we’ll ask for the user to input a password. While going through this loop, there are two possible outcomes:
while
loop will exit.while
loop will continue to execute.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.
We’ll create a file called password.py
in our text editor of choice, and begin by initializing the variable password
as an empty string:
password = ''
The empty string will be used to take in input from the user within the while
loop.
Now, we’ll construct the while
statement along with its condition:
password = ''
while password != 'password':
Here, the while
is followed by the variable password
. We are looking to see if the variable password
is set to the string password
(based on the user input later), but you can choose whichever string you’d like.
This means that if the user inputs the string password
, then the loop will stop and the program will continue to execute any code outside of the loop. However, if the string that the user inputs is not equal to the string password
, the loop will continue.
Next, we’ll add the block of code that does something within the while
loop:
password = ''
while password != 'password':
print('What is the password?')
password = input()
Inside of the while
loop, the program runs a print statement that prompts for the password. Then the variable password
is set to the user’s input with the input()
function.
The program will check to see if the variable password
is assigned to the string password
, and if it is, the while
loop will end. Let’s give the program another line of code for when that happens:
password = ''
while password != 'password':
print('What is the password?')
password = input()
print('Yes, the password is ' + password + '. You may enter.')
The last print()
statement is outside of the while
loop, so when the user enters password
as the password, they will see the final print statement outside of the loop.
However, if the user never enters the word password
, they will never get to the last print()
statement and will be stuck in an infinite loop.
An infinite loop occurs when a program keeps executing within one loop, never leaving it. To exit out of infinite loops on the command line, press CTRL + C
.
Save the program and run it:
- python password.py
You’ll be prompted for a password, and then may test it with various possible inputs. Here is sample output from the program:
OutputWhat is the password?
hello
What is the password?
sammy
What is the password?
PASSWORD
What is the password?
password
Yes, the password is password. You may enter.
Keep in mind that strings are case sensitive unless you also use a string function to convert the string to all lower-case (for example) before checking.
Now that we understand the general premise of a while
loop, let’s create a command-line guessing game that uses a while
loop effectively. To best understand how this program works, you should also read about using conditional statements and converting data types.
First, we’ll create a file called guess.py
in our text editor of choice. We want the computer to come up with random numbers for the user to guess, so we’ll import the random
module with an import
statement. If you’re unfamiliar with this package, you can learn more about generating random numbers from the Python docs.
import random
Next, we’ll assign a random integer to the variable number
, and keep it in the range of 1 through 25 (inclusive), in the hope that it does not make the game too difficult.
import random
number = random.randint(1, 25)
At this point, we can get into our while
loop, first initializing a variable and then creating the loop.
import random
number = random.randint(1, 25)
number_of_guesses = 0
while number_of_guesses < 5:
print('Guess a number between 1 and 25:')
guess = input()
guess = int(guess)
number_of_guesses = number_of_guesses + 1
if guess == number:
break
We’ve initialized the variable number_of_guesses
at 0, so that we increase it with each iteration of our loop so that we don’t have an infinite loop. Then we added the while
statement so that the number_of_guesses
is limited to 5 total. After the fifth guess, the user will return to the command line, and for now, if the user enters something other than an integer, they’ll receive an error.
Within the loop, we added a print()
statement to prompt the user to enter a number, which we took in with the input()
function and set to the guess
variable. Then, we converted guess
from a string to an integer.
Before the loop is over, we also want to increase the number_of_guesses
variable by 1 so that we can iterate through the loop 5 times.
Finally, we write a conditional if
statement to see if the guess
that the user made is equivalent to the number
that the computer generated, and if so we use a break
statement to come out of the loop.
The program is fully functioning, and we can run it with the following command:
- python guess.py
Though it works, right now the user never knows if their guess is correct and they can guess the full 5 times without ever knowing if they got it right. Sample output of the current program looks like the following:
OutputGuess a number between 1 and 25:
11
Guess a number between 1 and 25:
19
Guess a number between 1 and 25:
22
Guess a number between 1 and 25:
3
Guess a number between 1 and 25:
8
Let’s add some conditional statements outside of the loop so that the user is given feedback as to whether they correctly guess the number or not. These will go at the end of our current file.
import random
number = random.randint(1, 25)
number_of_guesses = 0
while number_of_guesses < 5:
print('Guess a number between 1 and 25:')
guess = input()
guess = int(guess)
number_of_guesses = number_of_guesses + 1
if guess == number:
break
if guess == number:
print('You guessed the number in ' + str(number_of_guesses) + ' tries!')
else:
print('You did not guess the number. The number was ' + str(number))
At this point, the program will tell the user if they got the number right or wrong, which may not happen until the end of the loop when the user is out of guesses.
To give the user a little help along the way, let’s add a few more conditional statements into the while
loop. These can tell the user whether their number was too low or too high, so that they can be more likely to guess the correct number. We’ll add these before our if guess == number
line
import random
number = random.randint(1, 25)
number_of_guesses = 0
while number_of_guesses < 5:
print('Guess a number between 1 and 25:')
guess = input()
guess = int(guess)
number_of_guesses = number_of_guesses + 1
if guess < number:
print('Your guess is too low')
if guess > number:
print('Your guess is too high')
if guess == number:
break
if guess == number:
print('You guessed the number in ' + str(number_of_guesses) + ' tries!')
else:
print('You did not guess the number. The number was ' + str(number))
When we run the program again with python guess.py
, we see that the user gets more guided assistance in their guessing. So, if the randomly-generated number is 12
and the user guesses 18
, they will be told that their guess is too high, and they can adjust their next guess accordingly.
There is more that can be done to improve the code, including error handling for when the user does not input an integer, but in this example we see a while
loop at work in a short command-line program.
This tutorial went over how while
loops work in Python and how to construct them. While loops continue to loop through a block of code provided that the condition set in the while
statement is True.
From here, you can continue to learn about looping by reading tutorials on for loops and break, continue, and pass statements.
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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.
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.)
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Thank you, Lisa! Nice game :)
I would add this block after “guess = input()” to check user’s input:
Thanks for the we explained code…Here is what I did on the same. I added error handling for inputs. the small game runs by calling a function…
def input_number(): import random
input_number()