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Full Stack FastAPI, React, and MongoDB

You're reading from   Full Stack FastAPI, React, and MongoDB Build Python web applications with the FARM stack

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Product type Paperback
Published in Sep 2022
Publisher Packt
ISBN-13 9781803231822
Length 336 pages
Edition 1st Edition
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Author (1):
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Marko Aleksendrić Marko Aleksendrić
Author Profile Icon Marko Aleksendrić
Marko Aleksendrić
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Table of Contents (17) Chapters Close

Preface 1. Part 1 – Introduction to the FARM Stack and the Components
2. Chapter 1: Web Development and the FARM Stack FREE CHAPTER 3. Chapter 2: Setting Up the Document Store with MongoDB 4. Chapter 3: Getting Started with FastAPI 5. Chapter 4: Setting Up a React Workflow 6. Part 2 – Parts of the Stack Working Together
7. Chapter 5: Building the Backend for Our Application 8. Chapter 6: Building the Frontend of the Application 9. Chapter 7: Authentication and Authorization 10. Part 3 – Deployment and Final Thoughts
11. Chapter 8: Server-Side Rendering and Image Processing with FastAPI and Next.js 12. Chapter 9: Building a Data Visualization App with the FARM Stack 13. Chapter 10: Caching with Redis and Deployment on Ubuntu (DigitalOcean) and Netlify 14. Chapter 11: Useful Resources and Project Ideas 15. Index 16. Other Books You May Enjoy

What is the FARM stack and how does it fit together?

It is important to understand that stacks aren’t really special – they are just sets of technologies that cover different parts of a modern web app, blend well together, and enable us to satisfy certain criteria while building web apps. To have a functional web application or site, we need to have a system consisting of the following:

  • An operating system: Usually, this is Unix/Linux-based.
  • A database layer: A SQL or NoSQL solution. In our case, we will use MongoDB.
  • A web server: Apache and Nginx are quite popular, but we will talk about Python solutions for FastAPI, such as Uvicorn or Hypercorn.
  • A development environment: PHP, Node.js/JavaScript, .NET, or Python.

Optionally, and more often than not, we could also add a frontend library or framework (such as Vue.js, Angular, React, or Svelte) since the vast majority of web development companies benefit from adopting one in terms of consistency, development speed, and standards compliance. And let’s face it – it is 2022, and you just cannot afford to handcraft your user interfaces without a library or a framework.

Let’s list the most famous stacks or, at the very least, some of those that have a popular acronym:

  • MERN: MongoDB + Express.js + React + Node.js is still probably one of the most popular ones today. Developers can be comfortable and never leave JavaScript, except when they need to write some style sheets. With the addition of React Native for mobile apps and something like Electron.js for desktop apps, a product can encompass virtually every platform while relying solely on JavaScript.
  • MEAN: MongoDB + Express.js + Angular.js + Node.js is similar to the previously mentioned MERN, with Angular.js managing the frontend in a more structured Model–View–Controller (MVC) way.
  • PERN: Postgres + Express.js + React + Node.js is for those who want the stability and features of a Postgres relational database. Often, it is used in conjunction with an object-relational mapper.
  • LAMP: Linux + Apache + MySQL + PHP is probably the first acronym to gain popularity and one of the most perused in the past 20 years.

The first three stacks run on the Node.js platform (a server-run JavaScript V8 engine) and have a web framework in common – although Express.js is the most popular, there are excellent alternatives in the Node.js universe, such as Koa.js, Fastify.js, or some more structured ones such as Nest.js.

One popular, and very interesting, Python-based combination is using the Django web framework and the excellent Django REST Framework (DRF), which is a toolkit for building REST APIs in a modern and logical way. Django itself is very mature and popular among Python developers and offers flexibility and development speed along with some typical Django goodies: an admin site, the possibility of customizing and serializing REST responses, the option to choose between functional and class-based views, and more.

The choice of the stack should be heavily conditioned by the type and the scope of the project at hand. Startups, but also small internal tools, can often benefit from agile, rapid development with flexibility and potential scalability down the road. Additionally, time-to-market, the availability of developers (the talent pool), and the maintainability and support of individual layers play a key role in the process of stack selection.

FARM is a new acronym, and there aren’t many resources covering it as a whole, though there are excellent resources on MongoDB and React, which have a great degree of adoption and maturity. On the other hand, FastAPI is much newer but provides excellent online documentation.

Let’s dissect this funny acronym. FA stands for FastAPI – a very interesting and, in technology years, brand-new Python web framework. R stands for React, which is, arguably, the most popular UI library, while M denotes the data layer – MongoDB, which is, arguably, the most popular NoSQL database available today. I honestly don’t know if the acronym started as a joke, but it sure sounds great.

The main objective of this chapter is to get you acquainted with the included technologies at a high level and compare them with the alternatives. We will try to set the ground for a simple project that we will be building throughout the book – a used automobile sales website – and then add some functionality while trying to implement some of the best practices in all of the areas. At the end of the chapter, you should hopefully become interested (maybe even excited!) in the proposed technology mix and be able to evaluate whether this type of setup could benefit your future projects and whether it is something useful to add to your web developer’s toolkit.

The following diagram provides a high-level overview of the moving parts involved in the FARM stack:

Figure 1.1 – A Diagram of the FARM stack with its components

Figure 1.1 – A Diagram of the FARM stack with its components

As you can see from the preceding diagram, the FARM stack is composed of three layers. The user performs an action using the client, which, in our case, will be based on React – this ultimately creates a bundle of HTML, CSS, and JavaScript. This user action (a mouse click, a form submit, or some other event) then triggers an HTTP request (such as GET, POST, PUT, or another HTTP verb with a payload) that gets processed by our REST API service (FastAPI).

The Python part is centered around FastAPI and optional dependencies and is served by uvicorn – a fast Python-based server. The backend is responsible for dispatching the appropriate database calls to MongoDB using various commands - queries (such as findOne, find, create, update, and more) and leveraging the MongoDB aggregation framework. The results obtained from the database are interpreted by FastAPI through the Python driver of choice (Motor), converted from BSON into appropriate Python data structures, and finally, output from the REST API server in the form of plain JSON.

Since we will use Motor, which is an asynchronous Python driver for MongoDB, these calls will be handled asynchronously. Finally, returning to the diagram and the arrow denoted by JSON, the data is fed to the UI where it is handled by React and used to update the interface, render the necessary components, and synchronize the UI with React’s virtual DOM tree.

In the following sections, we will go over the motivations behind the birth of the FARM stack. Additionally, we will go over each component and the features that make it a good fit in more detail. After a brief introduction to the benefits of the stack as a whole, I will provide a high overview of each choice and underline the benefits that it can provide to a modern web development workflow.

Why the FARM stack?

I truly believe that the flexibility and simplicity of the stack, along with the components comprising it, could give you a real boost in terms of development speed, extensibility, and maintainability while allowing for scalability (due to the distributed nature of MongoDB on the one hand and the async nature of FastAPI on the other hand) down the road, which might prove crucial should your product need to evolve and become bigger than it was initially supposed to be. The ideal scenario would probably be a small-to-medium-scale web app that you could play with and find the time to experiment with a bit. Finally, I believe that developers and analysts alike could greatly benefit from Python’s ecosystem and extensibility through a rich ecosystem of modules that encompasses virtually every human activity that includes some type of computing.

Evolution in Web Development

The beginning of the 2020s saw an interesting blurring of the borders between classical web development and other types of computing. Data science has lost some of its mystique, much of the science of it has been turned into a craft, and it has descended into the plebs and the not-so-scientifically inclined developers. Now, algorithms such as linear regressions, clustering, even neural networks, and ensemble methods are very easy to embed even in the most mundane systems in order to gain a feature, to achieve a slight performance gain, or add a simple recommendation engine. The visualization toolbox has moved online and classical workhorses such as Ggplot2 (for R) and D3.js, which require a thorough understanding of the underlying technologies, are now being given a run for their money by various combinations of D3.js and Svelte or React, SVG or Canvas - based solutions and more; for example, full-blown Python and React web application frameworks specialized for data visualization such as Plotly - Dash, Streamlit, or simple yet powerful solutions such as Chart.js.

Alternatively, if you just need to create a company or portfolio website with structured content, you can choose from the plethora of popular JAMstack solutions. JAMstack is a relatively new web development paradigm based on not-so-new components – JavaScript, API(s), and Markup (JAM) – and enables developers to develop faster web solutions, achieving blazing performance and a non-techie-friendly admin interface.

Additionally, web hosting costs have rapidly decreased in the last decade and several cloud-based companies have drastically lowered the technical barrier to web development and the creation of internet-based products. In this book we will examine many cloud-based systems that can handle parts of the system well.

Having provided a brief introduction to the contemporary and novel challenges of modern web development, it is time to introduce our database system of choice – MongoDB.

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Full Stack FastAPI, React, and MongoDB
Published in: Sep 2022
Publisher: Packt
ISBN-13: 9781803231822
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