How To Use Web Forms in a Flask Application | DigitalOcean (2023)

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Web forms, such as text fields and text areas, give users the ability to send data to your application to use it to perform an action, or to send larger areas of text to the application. For example, in a social media application, you might give users a box where they can add new content to their pages. Another example is a login page, where you would give the user a text field to enter their username and a password field to enter their password. The server (your Flask application in this case) uses the data the user submits and either signs them in if the data is valid, or responds with a message like Invalid credentials! to inform the user that the data they submitted is not correct.

Flask is a lightweight Python web framework that provides useful tools and features for creating web applications in the Python Language. In this tutorial, you’ll build a small web application that demonstrates how to use web forms. The application will have a page for displaying messages that are stored in a Python list, and a page for adding new messages. You’ll also use message flashing to inform users of an error when they submit invalid data.


  • A local Python 3 programming environment, follow the tutorial for your distribution in How To Install and Set Up a Local Programming Environment for Python 3 series. In this tutorial, we’ll call the project directory flask_app.

  • An understanding of basic Flask concepts, such as routes, view functions, and templates. If you are not familiar with Flask, check out How to Create Your First Web Application Using Flask and Python and How to Use Templates in a Flask Application.

  • An understanding of basic HTML concepts. You can review our How To Build a Website with HTML tutorial series for background knowledge.

Step 1 — Displaying Messages

In this step, you’ll create a Flask application with an index page for displaying messages that are stored in a list of Python dictionaries.

First open a new file called for editing:

  1. nano

Add the following code inside the file to create a Flask server with a single route:


from flask import Flask, render_templateapp = Flask(__name__)messages = [{'title': 'Message One', 'content': 'Message One Content'}, {'title': 'Message Two', 'content': 'Message Two Content'} ]@app.route('/')def index(): return render_template('index.html', messages=messages)

Save and close the file.

In this file, you first import the Flask class and the render_template() function from the flask package. You then use the Flask class to create a new application instance called app, passing the special __name__ variable, which is needed for Flask to set up some paths behind the scenes. Rendering templates is covered in the tutorial How To Use Templates in a Flask Application.

You then create a global Python list called messages, which has Python dictionaries inside it. Each dictionary has two keys: title for the title of the message, and content for the message content. This is a simplified example of a data storage method; in a real-world scenario, you’d use a database that permanently saves the data and allows you to manipulate it more efficiently.

After creating the Python list, you use the @app.route() decorator to create a view function called index(). In it, you return a call to the render_template() function, which indicates to Flask that the route should display an HTML template. You name this template index.html (you’ll create it later), and you pass a variable called messages to it. This variable holds the messages list you previously declared as a value and makes it available to the HTML template. View functions are covered in the tutorial How To Create Your First Web Application Using Flask and Python 3.

Next, create a templates folder in your flask_app directory where Flask searches for templates, then open a template file called base.html, which will have code that other templates will inherit to avoid code repetition:

  1. mkdir templates
  2. nano templates/base.html

Add the following code inside the base.html file to create the base template with a navbar and a content block:


(Video) Python and Flask - Web Forms with Flask-wtf

<!DOCTYPE html><html lang="en"><head> <meta charset="UTF-8"> <title>{% block title %} {% endblock %} - FlaskApp</title> <style> .message { padding: 10px; margin: 5px; background-color: #f3f3f3 } nav a { color: #d64161; font-size: 3em; margin-left: 50px; text-decoration: none; } </style></head><body> <nav> <a href="{{ url_for('index') }}">FlaskApp</a> <a href="#">About</a> </nav> <hr> <div class="content"> {% block content %} {% endblock %} </div></body></html>

Save and close the file.

This base template has all the HTML boilerplate you’ll need to reuse in your other templates. The title block will be replaced to set a title for each page, and the content block will be replaced with the content of each page. The navigation bar has two links, one for the index page where you use the url_for() helper function to link to the index() view function, and the other for an About page if you choose to include one in your application.

Next, open a template called index.html. This is the template you referenced in the file:

  1. nano templates/index.html

Add the following code to it:


{% extends 'base.html' %}{% block content %} <h1>{% block title %} Messages {% endblock %}</h1> {% for message in messages %} <div class='message'> <h3>{{ message['title'] }}</h3> <p>{{ message['content'] }}</p> </div> {% endfor %}{% endblock %}

Save and close the file.

In this code, you extend the base.html template and replace the contents of the content block. You use an <h1> heading that also serves as a title.

You use a Jinja for loop in the line {% for message in messages %} to go through each message in the messages list. You use a <div> tag to contain the message’s title and content. You display the title in an <h3> heading and the content in a <p> tag.

While in your flask_app directory with your virtual environment activated, tell Flask about the application ( in this case) using the FLASK_APP environment variable:

  1. export FLASK_APP=app

Then set the FLASK_ENV environment variable to development to run the application in development mode and get access to the debugger. For more information about the Flask debugger, see How To Handle Errors in a Flask Application. Use the following commands to do this (on Windows, use set instead of export):

  1. export FLASK_ENV=development

Next, run the application:

  1. flask run

With the development server running, visit the following URL using your browser:

You’ll see the messages in the messages list displayed on the index page:

How To Use Web Forms in a Flask Application | DigitalOcean (1)

Now that you have set up your web application and displayed the messages, you’ll need a way to allow users to add new messages to the index page. This is done through web forms, which you’ll set up in the next step.

Step 2 — Setting Up Forms

In this step, you will create a page in your application that allows users to add new messages into the list of messages via a web form.

Leave the development server running and open a new terminal window.

(Video) Web Forms With Flask - Python and Flask #4

First, open your file:

  1. nano

Add the following route to the end of the file:


# ...@app.route('/create/', methods=('GET', 'POST'))def create(): return render_template('create.html')

Save and close the file.

This /create route has the methods parameter with the tuple ('GET', 'POST') to accept both GET and POST requests. GET and POST are HTTP methods. By default, only GET requests are accepted, which are used to retrieve data, such as asking the server for an index page or an About page. POST requests are used to submit data to a specific route, which often changes the data on the server.

In this example, you will ask for the create page using a GET request. The Create page will have a web form with input fields and a Submit button. When a user fills in the web form and clicks the Submit button, a POST request gets sent to the /create route. There you handle the request, validate the submitted data to ensure the user has not submitted an empty form, and add it to the messages list.

The create() view function currently does only one thing: render a template called create.html when it receives a regular GET request. You will now create this template, then edit the function to handle POST requests in the next step.

Open a new template file called create.html:

  1. nano templates/create.html

Add the following code to it:


{% extends 'base.html' %}{% block content %} <h1>{% block title %} Add a New Message {% endblock %}</h1> <form method="post"> <label for="title">Title</label> <br> <input type="text" name="title" placeholder="Message title" value="{{ request.form['title'] }}"></input> <br> <label for="content">Message Content</label> <br> <textarea name="content" placeholder="Message content" rows="15" cols="60" >{{ request.form['content'] }}</textarea> <br> <button type="submit">Submit</button> </form>{% endblock %}

Save and close the file.

In this code, you extend the base.html template and replace the content block with an <h1> heading that serves as a title for the page. In the <form> tag, you set the method attribute to post so the form data gets sent to the server as a POST request.

In the form, you have a text input field named title; this is the name you’ll use on the application to access the title form data. You give the <input> tag a value of {{ request.form['title'] }}. This is useful to restore the data the user enters so it does not get lost when things go wrong. For example, if the user forgets to fill in the required content text area, a request gets sent to the server and an error message will come back as a response, but the data in the title will not be lost because it will be saved on the request global object, and can be accessed via request.form['title'].

After the title input field, you add a text area named content with the value {{ request.form['content'] }} for the same reasons mentioned previously.

Last, you have a Submit button at the end of the form.

Now, with the development server running, use your browser to navigate to the /create route:

You will see an “Add a New Message” page with an input field for a message title, a text area for the message’s content, and a Submit button.

(Video) 2-Web App Development - HTML Forms with Python Flask

How To Use Web Forms in a Flask Application | DigitalOcean (2)

This form submits a POST request to your create() view function. However, there is no code to handle a POST request in the function yet, so nothing happens after filling in the form and submitting it. In the next step, you’ll handle the incoming POST request when a form is submitted. You’ll check whether the submitted data is valid (not empty), and add the message title and content to the messages list.

Step 3 — Handling Form Requests

In this step, you will handle form requests on the application side. You’ll access the form data the user submits via the form you created in the previous step and add it to the list of messages. You’ll also use message flashing to inform users when they submit invalid data. The flash message will only be shown once and will disappear on the next request (if you navigate to another page for example).

Open the file for editing:

  1. nano

First, you’ll import the following from the Flask framework:

  • The global request object to access incoming request data that will be submitted via the HTML form you built in the last step.
  • The url_for() function to generate URLs.
  • The flash() function to flash a message when a request is processed (to inform the user that everything went well, or to inform them of an issue if the submitted data is not valid).
  • The redirect() function to redirect the client to a different location.

Add these imports to the first line in the file:


from flask import Flask, render_template, request, url_for, flash, redirect# ...

The flash() function stores flashed messages in the client’s browser session, which requires setting a secret key. This secret key is used to secure sessions, which allow Flask to remember information from one request to another, such as moving from the new message page to the index page. The user can access the information stored in the session, but cannot modify it unless they have the secret key, so you must never allow anyone to access your secret key. See the Flask documentation for sessions for more information.

The secret key should be a long random string. You can generate a secret key using the os module with the os.urandom() method, which returns a string of random bytes suitable for cryptographic use. To get a random string using it, open a new terminal and open the Python interactive shell using the following command:

  1. python

In the Python interactive shell, import the os module from the standard library and call the os.urandom() method as follows:

  1. import os
  2. os.urandom(24).hex()

You’ll get a string similar to the following:



You can use the string you get as your secret key.

To set the secret key, add a SECRET_KEY configuration to your application via the app.config object. Add it directly following the app definition before defining the messages variable:


# = Flask(__name__)app.config['SECRET_KEY'] = 'your secret key'messages = [{'title': 'Message One', 'content': 'Message One Content'}, {'title': 'Message Two', 'content': 'Message Two Content'} ]# ...

Next, modify the create() view function to look exactly as follows:


(Video) Python and Flask - Getting data from Web Forms

# ...@app.route('/create/', methods=('GET', 'POST'))def create(): if request.method == 'POST': title = request.form['title'] content = request.form['content'] if not title: flash('Title is required!') elif not content: flash('Content is required!') else: messages.append({'title': title, 'content': content}) return redirect(url_for('index')) return render_template('create.html')

In the if statement you ensure that the code following it is only executed when the request is a POST request via the comparison request.method == 'POST'.

You then extract the submitted title and content from the request.form object that gives you access to the form data in the request. If the title is not provided, the condition if not title would be fulfilled. In that case, you display a message to the user informing them that the title is required using the flash() function. This adds the message to a flashed messages list. You will later display these messages on the page as part of the base.html template. Similarly, if the content is not provided, the condition elif not content will be fulfilled. If so, you add the 'Content is required!' message to the list of flashed messages.

If the title and the content of the message are properly submitted, you use the line messages.append({'title': title, 'content': content}) to add a new dictionary to the messages list, with the title and content the user provided. Then you use the redirect() function to redirect users to the index page. You use the url_for() function to link to the index page.

Save and close the file.

Now, navigate to the /create route using your web browser:

Fill in the form with a title of your choice and some content. Once you submit the form, you will see the new message listed on the index page.

Lastly, you’ll display flashed messages and add a link for the “New Message” page to the navigation bar in the base.html template to have easy access to this new page. Open the base template file:

  1. nano templates/base.html

Edit the file by adding a new <a> tag after the FlaskApp link in the navigation bar inside the <nav> tag. Then add a new for loop directly above the content block to display the flashed messages below the navigation bar. These messages are available in the special get_flashed_messages() function Flask provides. Then add a class attribute called alert to each message and give it some CSS properties inside the <style> tag:


<!DOCTYPE html><html lang="en"><head> <meta charset="UTF-8"> <title>{% block title %} {% endblock %} - FlaskApp</title> <style> .message { padding: 10px; margin: 5px; background-color: #f3f3f3 } nav a { color: #d64161; font-size: 3em; margin-left: 50px; text-decoration: none; } .alert { padding: 20px; margin: 5px; color: #970020; background-color: #ffd5de; } </style></head><body> <nav> <a href="{{ url_for('index') }}">FlaskApp</a> <a href="{{ url_for('create') }}">Create</a> <a href="#">About</a> </nav> <hr> <div class="content"> {% for message in get_flashed_messages() %} <div class="alert">{{ message }}</div> {% endfor %} {% block content %} {% endblock %} </div></body></html>

Save and close the file, and then reload in your browser. The navigation bar will now have a “Create” item that links to the /create route.

To see how flash messages work, go to the “Create” page, and click the Submit button without filling the two fields. You’ll receive a message that looks like this:

How To Use Web Forms in a Flask Application | DigitalOcean (3)

Go back to the index page and you’ll see that the flashed messages below the navigation bar disappear, even though they are displayed as part of the base template. If they weren’t flashed messages, they would be displayed on the index page too, because it also inherits from the base template.

Try submitting the form with a title but no content. You’ll see the message “Content is required!”. Click the FlaskApp link in the navigation bar to go back to the index page, then click the Back button to come back to the Create page. You’ll see that the message content is still there. This only works if you click the Back button, because it saves the previous request. Clicking the Create link in the navigation bar will send a new request, which clears the form, and as a result, the flashed message will disappear.

You now know how to receive user input, how to validate it, and how to add it to a data source.

Note:The messages you add to the messages list will disappear whenever the server is stopped, because Python lists are only saved in memory, to save your messages permanently, you will need to use a database like SQLite. Check out How To Use the sqlite3 Module in Python 3 to learn how to use SQLite with Python.


You created a Flask application where users can add messages to a list of messages displayed on the index page. You created a web form, handled the data the user submits via the form, and added it to your messages list. You also used flash messages to inform the user when they submit invalid data.

(Video) Web Forms With WTF! - Flask Fridays #5

If you would like to read more about Flask, check out the other tutorials in the Flask series.


1. Basic processing of web forms using Python Flask and Jinja temlates
(Mike Colbert)
2. Forms with Flask - Python on the web - Learning Flask Series Pt 7
(Julian Nash)
3. Flask Tutorial #4 - HTTP Methods (GET/POST) & Retrieving Form Data
(Tech With Tim)
4. Learn Flask from scratch - 6 Using Web forms
(Ssali Jonathan)
5. Python Website Full Tutorial - Flask, Authentication, Databases & More
(Tech With Tim)
6. Flask Tutorial #1 - How to Make Websites with Python
(Tech With Tim)
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