Using loops in computer programming allows us to automate and repeat similar tasks multiple times. In this tutorial, we’ll be covering Python’s for loop.
A for
loop implements the repeated execution of code based on a loop counter or loop variable. This means that for
loops are used most often when the number of iterations is known before entering the loop, unlike while loops which are conditionally based.
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.)
For Loops
In Python, for
loops are constructed like so:
for [iterating variable] in [sequence]:
[do something]
The something
that is being done will be executed until the sequence is over.
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.
Let’s look at a for
loop that iterates through a range of values:
for i in range(0,5):
print(i)
When we run this program, the output generates this:
0
1
2
3
4
This for
loop sets up i
as its iterating variable, and the sequence exists in the range of 0 to 5.
Then within the loop we print out one integer per loop iteration. Keep in mind that in programming we tend to begin at index 0, so that is why although 5 numbers are printed out, they range from 0-4.
You’ll commonly see and use for
loops when a program needs to repeat a block of code a number of times.
For Loops using range()
One of Python’s built-in immutable sequence types is range()
. In loops, range()
is used to control how many times the loop will be repeated.
When working with range()
, you can pass between 1 and 3 integer arguments to it:
start
states the integer value at which the sequence begins, if this is not included then start
begins at 0
stop
is always required and is the integer that is counted up to but not included
step
sets how much to increase (or decrease in the case of negative numbers) the next iteration, if this is omitted then step
defaults to 1
We’ll review some examples of passing different arguments to range()
.
First, let’s only pass the stop
argument, so that our sequence set up is range(stop)
:
for i in range(6):
print(i)
In the program above, the stop
argument is 6, so the code will iterate from 0-6 (exclusive of 6):
0
1
2
3
4
5
Next, we’ll look at range(start, stop)
, with values passed for when the iteration should start and for when it should stop:
for i in range(20,25):
print(i)
Here, the range goes from 20 (inclusive) to 25 (exclusive), so the output is the following:
20
21
22
23
24
The step
argument of range()
is similar to specifying stride while slicing strings in that it can be used to skip values within the sequence.
With all three arguments, step
comes in the final position: range(start, stop, step)
. First, let’s use a step
with a positive value:
for i in range(0,15,3):
print(i)
In this case, the for
loop is set up so that the numbers from 0 to 15 print out, but at a step
of 3, so that only every third number is printed, like so:
0
3
6
9
12
We can also use a negative value for our step
argument to iterate backwards, but we’ll have to adjust our start
and stop
arguments accordingly:
for i in range(100,0,-10):
print(i)
Here, 100 is the start
value, 0 is the stop
value, and -10
is the range, so the loop begins at 100 and ends at 0, decreasing by 10 with each iteration. This occurs in the output:
100
90
80
70
60
50
40
30
20
10
When programming in Python, for
loops often make use of the range()
sequence type as its parameters for iteration.
For Loops using Sequential Data Types
Lists and other data sequence types can also be leveraged as iteration parameters in for
loops. Rather than iterating through a range()
, you can define a list and iterate through that list.
We’ll assign a list to a variable, and then iterate through the list:
sharks = ['hammerhead', 'great white', 'dogfish', 'frilled', 'bullhead', 'requiem']
for shark in sharks:
print(shark)
In this case, we are printing out each item in the list. Though we used the variable shark
, we could have called the variable any other valid variable name and we would get the same output:
hammerhead
great white
dogfish
frilled
bullhead
requiem
The output above shows that the for
loop iterated through the list, and printed each item from the list per line.
Lists and other sequence-based data types like strings and tuples are common to use with loops because they are iterable. You can combine these data types with range()
to add items to a list, for example:
sharks = ['hammerhead', 'great white', 'dogfish', 'frilled', 'bullhead', 'requiem']
for item in range(len(sharks)):
sharks.append('shark')
print(sharks)
['hammerhead', 'great white', 'dogfish', 'frilled', 'bullhead', 'requiem', 'shark', 'shark', 'shark', 'shark', 'shark', 'shark']
Here, we have added a placeholder string of 'shark'
for each item of the length of the sharks
list.
You can also use a for
loop to construct a list from scratch:
integers = []
for i in range(10):
integers.append(i)
print(integers)
In this example, the list integers
is initialized empty, but the for
loop populates the list like so:
[0, 1, 2, 3, 4, 5, 6, 7, 8, 9]
Similarly, we can iterate through strings:
sammy = 'Sammy'
for letter in sammy:
print(letter)
S
a
m
m
y
Iterating through tuples is done in the same format as iterating through lists or strings above.
When iterating through a dictionary, it’s important to keep the key : value structure in mind to ensure that you are calling the correct element of the dictionary. Here is an example that calls both the key and the value:
sammy_shark = {'name': 'Sammy', 'animal': 'shark', 'color': 'blue', 'location': 'ocean'}
for key in sammy_shark:
print(key + ': ' + sammy_shark[key])
name: Sammy
animal: shark
location: ocean
color: blue
When using dictionaries with for
loops, the iterating variable corresponds to the keys of the dictionary, and dictionary_variable[iterating_variable]
corresponds to the values. In the case above, the iterating variable key
was used to stand for key, and sammy_shark[key]
was used to stand for the values.
Loops are often used to iterate and manipulate sequential data types.
Nested For Loops
Loops can be nested in Python, as they can with other programming languages.
A nested loop is a loop that occurs within another loop, structurally similar to nested if
statements. These are constructed like so:
for [first iterating variable] in [outer loop]: # Outer loop
[do something] # Optional
for [second iterating variable] in [nested loop]: # Nested loop
[do something]
The program first encounters the outer loop, executing its first iteration. This first iteration triggers the inner, nested loop, which then runs to completion. Then the program returns back to the top of the outer loop, completing the second iteration and again triggering the nested loop. Again, the nested loop runs to completion, and the program returns back to the top of the outer loop until the sequence is complete or a break or other statement disrupts the process.
Let’s implement a nested for
loop so we can take a closer look. In this example, the outer loop will iterate through a list of integers called num_list
, and the inner loop will iterate through a list of strings called alpha_list
.
num_list = [1, 2, 3]
alpha_list = ['a', 'b', 'c']
for number in num_list:
print(number)
for letter in alpha_list:
print(letter)
When we run this program, we’ll receive the following output:
1
a
b
c
2
a
b
c
3
a
b
c
The output illustrates that the program completes the first iteration of the outer loop by printing 1
, which then triggers completion of the inner loop, printing a
, b
, c
consecutively. Once the inner loop has completed, the program returns to the top of the outer loop, prints 2
, then again prints the inner loop in its entirety (a
, b
, c
), etc.
Nested for
loops can be useful for iterating through items within lists composed of lists. In a list composed of lists, if we employ just one for
loop, the program will output each internal list as an item:
list_of_lists = [['hammerhead', 'great white', 'dogfish'],[0, 1, 2],[9.9, 8.8, 7.7]]
for list in list_of_lists:
print(list)
['hammerhead', 'great white', 'dogfish']
[0, 1, 2]
[9.9, 8.8, 7.7]
In order to access each individual item of the internal lists, we’ll implement a nested for
loop:
list_of_lists = [['hammerhead', 'great white', 'dogfish'],[0, 1, 2],[9.9, 8.8, 7.7]]
for list in list_of_lists:
for item in list:
print(item)
hammerhead
great white
dogfish
0
1
2
9.9
8.8
7.7
When we utilize a nested for
loop we are able to iterate over the individual items contained in the lists.
We can see nested for
loops working in use in a working program in our tutorial on the Natural Language Processing Toolkit (NLTK).
Conclusion
This tutorial went over how for
loops work in Python and how to construct them. For loops continue to loop through a block of code provided a certain number of times.
From here, you can continue to learn about looping by reading tutorials on while loops and break, continue, and pass statements.
To work with for
loops in projects, follow along with the following tutorials:
How To Create a Twitterbot with Python 3 and the Tweepy Library
How To Work with Language Data in Python 3 using the Natural Language Toolkit NLTK
How To Graph Word Frequency Using matplotlib with Python 3