There are a few reasons to use Vue over Angular, although they might not apply for everyone:
Vue.js is much simpler than Angular, both in terms of API and design. You can learn nearly everything about it quickly and become productive.
Vue.js is a more flexible, less opinionated solution. That allows you to structure your app the way you want it to be, instead of being forced to do everything the Angular way. It’s only an interface layer so you can use it as a light feature in pages instead of a full blown SPA. It gives you bigger room to mix and match with other libraries, but you are also responsible for making more architectural decisions. For example, Vue.js’ core doesn’t come with routing or ajax functionalities by default, and usually assumes you are building the application using an external module bundler. This is probably the most important distinction.
Angular uses two-way binding between scopes. While Vue also supports explicit two-way bindings, it defaults to a one-way, parent-to-child data flow between components. Using one-way binding makes the flow of data easier to reason about in large apps.
Vue.js has a clearer separation between directives and components. Directives are meant to encapsulate DOM manipulations only, while Components stand for a self-contained unit that has its own view and data logic. In Angular there’s a lot of confusion between the two.
Vue.js has better performance and is much, much easier to optimize, because it doesn’t use dirty checking. Angular gets slow when there are a lot of watchers, because every time anything in the scope changes, all these watchers need to be re-evaluated again. Also, the digest cycle may have to run multiple times to “stabilize” if some watcher triggers another update. Angular users often have to resort to esoteric techniques to get around the digest cycle, and in some situations there’s simply no way to optimize a scope with a large amount of watchers. Vue.js doesn’t suffer from this at all because it uses a transparent dependency-tracking observing system with async queueing - all changes trigger independently unless they have explicit dependency relationships. The only optimization hint you’ll ever need is the
track-by param on
Interestingly, there are quite some similarities in how Angular 2 and Vue are addressing these Angular 1 issues.
React and Vue.js do share a similarity in that they both provide reactive & composable View components. There are, of course, many differences as well.
First, the internal implementation is fundamentally different. React’s rendering leverages the Virtual DOM - an in-memory representation of what the actual DOM should look like. When the state changes, React does a full re-render of the Virtual DOM, diffs it, and then patches the real DOM.
Instead of a Virtual DOM, Vue.js uses the actual DOM as the template and keeps references to actual nodes for data bindings. This limits Vue.js to environments where DOM is present. However, contrary to the common misconception that Virtual-DOM makes React faster than anything else, Vue.js actually out-performs React when it comes to hot updates, and requires almost no hand-tuned optimization. With React, you need to implement
shouldComponentUpdate everywhere and use immutable data structures to achieve fully optimized re-renders.
Another issue with React is that because DOM updates are completely delegated to the Virtual DOM, it’s a bit tricky when you actually want to control the DOM yourself (although theoretically you can, you’d be essentially working against the library when you do that). For applications that need ad-hoc custom DOM manipulations, especially animations with complex timing requirements, this can become a pretty annoying restriction. On this front, Vue.js allows for more flexibility and there are multiple FWA/Awwwards winning sites built with Vue.js.
Some additional notes:
The React team has very ambitious goals in making React a platform-agnostic UI development paradigm, while Vue is focused on providing a pragmatic solution for the web.
React, due to its functional nature, plays very well with functional programming patterns. However it also introduces a higher learning barrier for junior developers and beginners. Vue is much easier to pick up and get productive with in this regard.
For large applications, the React community has been doing a lot of innovation in terms of state management solutions, e.g. Flux/Redux. Vue itself doesn’t really address that problem (same for React core), but the state management patterns can be easily adopted for a similar architecture. Vue has its own state management solution called Vuex, and it’s also possible to use Redux with Vue.
Ember is a full-featured framework that is designed to be highly opinionated. It provides a lot of established conventions, and once you are familiar enough with them, it can make you very productive. However, it also means the learning curve is high and the flexibility suffers. It’s a trade-off when you try to pick between an opinionated framework and a library with a loosely coupled set of tools that work together. The latter gives you more freedom but also requires you to make more architectural decisions.
That said, it would probably make a better comparison between Vue.js core and Ember’s templating and object model layer:
Performance wise, Vue outperforms Ember by a fair margin, even after the latest Glimmer engine update in Ember 2.0. Vue automatically batches updates, while in Ember you need to manually manage run loops in performance-critical situations.
Polymer is yet another Google-sponsored project and in fact was a source of inspiration for Vue.js as well. Vue.js’ components can be loosely compared to Polymer’s custom elements, and both provide a very similar development style. The biggest difference is that Polymer is built upon the latest Web Components features, and requires non-trivial polyfills to work (with degraded performance) in browsers that don’t support those features natively. In contrast, Vue.js works without any dependencies down to IE9.
Also, in Polymer 1.0 the team has really made its data-binding system very limited in order to compensate for the performance. For example, the only expressions supported in Polymer templates are the boolean negation and single method calls. Its computed property implementation is also not very flexible.
Finally, when deploying to production, Polymer elements need to be bundled via a Polymer-specific tool called vulcanizer. In comparison, single file Vue components can leverage everything the Webpack ecosystem has to offer, and thus you can easily use ES6 and any CSS pre-processors you want in your Vue components.
Riot 2.0 provides a similar component-based development model (which is called a “tag” in Riot), with a minimal and beautifully designed API. I think Riot and Vue share a lot in design philosophies. However, despite being a bit heavier than Riot, Vue does offer some significant advantages over Riot:
© 2013–2017 Evan You, Vue.js contributors
Licensed under the MIT License.