Progressive web apps (PWAs) are web applications that are regular web pages or websites, but can appear to the user like traditional applications or native mobile applications. The application type attempts to combine features offered by most modern browsers with the benefits of mobile experience.
Video Progressive web app
Background
Since around 2005 web development technologies have shifted from static to dynamic documents driven by server (PHP, ASP.NET) and client side (e.g. Ajax) tools, and responsive web design. Despite an early push for web-based apps based on these technologies on devices such as the 2007 iPhone, attempts at web-apps failed by comparison to native-apps. Native apps provided a better user experience and booted faster compared to having to load in a browser at runtime. Packaged resources and direct access to hardware allowed native apps to perform much faster and to provide more features. By the mid 2010s, however, continued enhancements in HTML5, CSS3, and JavaScript, significantly more capable and standards compliant web browsers, along with powerful processors such as the A10 and Snapdragon 821 made performant hybrid-apps a viable alternative.
Hybrid apps
Hybrid apps mimic the native mobile UX, and need an App store download. As such they consume storage. The combination of markup, styling sheets, and scripts enable custom interactive page elements without the use of closed systems such as Flash. Partially running in a mobile browser, hybrids did not have a URL, supported a rich user interface and access to system capabilities. Newly released CSS3 and JavaScript frameworks allowed new design patterns such as the box model followed by grids and flex, accompanied by translations, transformations, animations.
Maps Progressive web app
Characteristics
In 2015, designer Frances Berriman and Google Chrome engineer Alex Russell coined the term "progressive web apps" to describe apps taking advantage of new features supported by modern browsers, including service workers and web app manifests, that let users upgrade web apps to progressive web applications in their native operating system (OS). According to Google Developers, these characteristics are:
- Progressive - Work for every user, regardless of browser choice because they're built with progressive enhancement as a core tenet.
- Responsive - Fit any form factor: desktop, mobile, tablet, or forms yet to emerge.
- Connectivity independent - Service workers allow work offline, or on low quality networks.
- App-like - Feel like an app to the user with app-style interactions and navigation.
- Fresh - Always up-to-date thanks to the service worker update process.
- Safe - Served via HTTPS to prevent snooping and ensure content hasn't been tampered with.
- Discoverable - Are identifiable as "applications" thanks to W3C manifests and service worker registration scope allowing search engines to find them.
- Re-engageable - Make re-engagement easy through features like push notifications.
- Installable - Allow users to "keep" apps they find most useful on their home screen without the hassle of an app store.
- Linkable - Easily shared via a URL and do not require complex installation.
Progressive web apps described by Shoaib in a follow-up post: are an enhancement of existing web technology. As such, they do not require separate bundling or distribution. Publication of a progressive web app is as it would be for any other web page. As of 2017, progressive web apps are supported by the Chrome browser, but more browsers may support the features needed in the future.
The technical baseline criteria for a site to be considered a progressive web app by browsers were described by Russell in a follow-up post:
- Originate from a secure origin. Served over TLS and green padlock displays (no active mixed content).
- Load while offline (even if only a custom offline page). By implication, this means that progressive web apps require service workers.
- Reference a web app manifest with at least the four key properties: name, short_name, start_url, and display (with a value of standalone or fullscreen)
- An icon at least 144×144 large in png format. E.g.: "icons": [ { "src": "/images/icon-144.png", "sizes": "144x144", "type": "image/png" } ]
Technologies
Commonly used technologies used to create progressive web apps are the following:
Manifest
The web app manifest is a W3C specification defining a JSON-based manifest to provide developers a centralized place to put metadata associated with a web application including:
- The name of the web application
- Links to the web app icons or image objects
- The preferred URL to launch or open the web app
- The web app configuration data for a number of characteristics
- Declaration for default orientation of the web app
- Enables to set the display mode e.g. full screen
By setting and manipulating the metadata for the web manifest file, developers enable user agents to create seamless native-like mobile experiences through the progressive web app.
Service workers
Native mobile apps deliver rich experiences and high performance, purchased at the expense of storage space, lack of real-time updates, and low search engine visibility. Traditional web apps suffer from the inverse set of factors: lack of a native compiled executable, along with dependence on unreliable and potentially slow web connectivity. Service workers are used in an attempt to give progressive web apps the best of both these worlds.
Technically, service workers provide a scriptable network proxy in the web browser to manage the web/HTTP requests programmatically. The service workers lie between the network and device to supply the content. They are capable of using the cache mechanisms efficiently and allow error-free behavior during offline periods.
Properties of service workers
- Trigger and keep alive by the relationship to the events, not by the documents
- Generic in nature
- Event-driven with time limit scripting contexts and running at the origin
- With natural endpoints for a wide range of runtime services
- Have a state
- With a script URL
- Containing registration
- Allocated ID or UUID
- With lifecycle events
- Have script resource map
- Can skip waiting for the flags
Benefits of service workers
- Capable of handling the push notification easily
- Synchronise data in the background
- Capable of responding to the resource requests originate elsewhere
- Receive centralized updates
Application shell architecture
Some progressive web apps use an architectural approach called the App Shell Model. For rapid loading, service workers store the Basic User Interface or "shell" of the responsive web design web application. This shell provides an initial static frame, a layout or architecture into which content can be loaded progressively as well as dynamically, allowing users to engage with the app despite varying degrees of web connectivity. Technically, the shell is a code bundle stored locally in the browser cache of the mobile device.
Cost of a progressive web app
For an app publisher, the biggest advantage is the cost saving in terms of app development and maintenance. Average customer acquisition costs may be up to ten times smaller compared to those of native applications.
Examples
This list includes progressive web apps together with their scores from Google Chromes' PWA audit powered by Lighthouse. The audit validates the aspects of a PWA, as specified by Google's baseline PWA Checklist and ranges from 0 (worst) to 100 (best). The PWAs listed in the pwa.rocks project are marked with a blue-green background.
The following apps are or were claimed to be PWAs but fail to register an obligatory service worker:
References
Source of the article : Wikipedia