- The Vue Instance
- Template Syntax
- Computed Properties and Watchers
- Class and Style Bindings
- Conditional Rendering
- List Rendering
- Event Handling
- Form Input Bindings
- Components Basics
- Component Registration
- Custom Events
- Dynamic & Async Components
- Handling Edge Cases
Transitions & Animation
- Enter/Leave & List Transitions
- State Transitions
Reusability & Composition
- Custom Directives
- Render Functions & JSX
- Single File Components
- TypeScript Support
- Production Deployment
- State Management
- Server-Side Rendering
- Reactivity in Depth
- Migration from Vue 1.x
- Migration from Vue Router 0.7.x
- Migration from Vuex 0.6.x to 1.0
- Comparison with Other Frameworks
- Join the Vue.js Community!
- Meet the Team
You’re browsing the documentation for v2.x and earlier. For v3.x, click here.
Comparison with Other Frameworks
This is definitely the most difficult page in the guide to write, but we do feel it’s important. Odds are, you’ve had problems you tried to solve and you’ve used another library to solve them. You’re here because you want to know if Vue can solve your specific problems better. That’s what we hope to answer for you.
We also try very hard to avoid bias. As the core team, we obviously like Vue a lot. There are some problems we think it solves better than anything else out there. If we didn’t believe that, we wouldn’t be working on it. We do want to be fair and accurate though. Where other libraries offer significant advantages, such as React’s vast ecosystem of alternative renderers or Knockout’s browser support back to IE6, we try to list these as well.
React and Vue share many similarities. They both:
- utilize a virtual DOM
- provide reactive and composable view components
- maintain focus in the core library, with concerns such as routing and global state management handled by companion libraries
Being so similar in scope, we’ve put more time into fine-tuning this comparison than any other. We want to ensure not only technical accuracy, but also balance. We point out where React outshines Vue, for example in the richness of their ecosystem and abundance of their custom renderers.
With that said, it’s inevitable that the comparison would appear biased towards Vue to some React users, as many of the subjects explored are to some extent subjective. We acknowledge the existence of varying technical taste, and this comparison primarily aims to outline the reasons why Vue could potentially be a better fit if your preferences happen to coincide with ours.
Some of the sections below may also be slightly outdated due to recent updates in React 16+, and we are planning to work with the React community to revamp this section in the near future.
Both React and Vue are exceptionally and similarly fast, so speed is unlikely to be a deciding factor in choosing between them. For specific metrics though, check out this 3rd party benchmark, which focuses on raw render/update performance with very simple component trees.
In React, when a component’s state changes, it triggers the re-render of the entire component sub-tree, starting at that component as root. To avoid unnecessary re-renders of child components, you need to either use
PureComponent or implement
shouldComponentUpdate whenever you can. You may also need to use immutable data structures to make your state changes more optimization-friendly. However, in certain cases you may not be able to rely on such optimizations because
PureComponent/shouldComponentUpdate assumes the entire sub tree’s render output is determined by the props of the current component. If that is not the case, then such optimizations may lead to inconsistent DOM state.
In Vue, a component’s dependencies are automatically tracked during its render, so the system knows precisely which components actually need to re-render when state changes. Each component can be considered to have
shouldComponentUpdate automatically implemented for you, without the nested component caveats.
Overall this removes the need for a whole class of performance optimizations from the developer’s plate, and allows them to focus more on building the app itself as it scales.
Vue embraces classic web technologies and builds on top of them. To show you what that means, we’ll dive into some examples.
Render functions with JSX have a few advantages:
The tooling support (e.g. linting, type checking, editor autocompletion) for JSX is in some ways more advanced than what’s currently available for Vue templates.
In Vue, we also have render functions and even support JSX, because sometimes you do need that power. However, as the default experience we offer templates as a simpler alternative. Any valid HTML is also a valid Vue template, and this leads to a few advantages of its own:
For many developers who have been working with HTML, templates feel more natural to read and write. The preference itself can be somewhat subjective, but if it makes the developer more productive then the benefit is objective.
HTML-based templates make it much easier to progressively migrate existing applications to take advantage of Vue’s reactivity features.
It also makes it much easier for designers and less experienced developers to parse and contribute to the codebase.
You can even use pre-processors such as Pug (formerly known as Jade) to author your Vue templates.
v-on modifiers). The same task can involve a lot more code when using plain JSX or render functions.
On a higher level, we can divide components into two categories: presentational ones and logical ones. We recommend using templates for presentational components and render function / JSX for logical ones. The percentage of these components depends on the type of app you are building, but in general we find presentational ones to be much more common.
If you are a fan of CSS-in-JS, many of the popular CSS-in-JS libraries support Vue (e.g. styled-components-vue and vue-emotion). The main difference between React and Vue here is that the default method of styling in Vue is through more familiar
style tags in single-file components.
Single-file components give you full access to CSS in the same file as the rest of your component code.
scoped attribute automatically scopes this CSS to your component by adding a unique attribute (such as
data-v-21e5b78) to elements and compiling
.list-container:hover to something like
Lastly, the styling in Vue’s single-file components is very flexible. Through vue-loader, you can use any preprocessor, post-processor, and even deep integration with CSS Modules – all within the
For large applications, both Vue and React offer robust routing solutions. The React community has also been very innovative in terms of state management solutions (e.g. Flux/Redux). These state management patterns and even Redux itself can be easily integrated into Vue applications. In fact, Vue has even taken this model a step further with Vuex, an Elm-inspired state management solution that integrates deeply into Vue that we think offers a superior development experience.
Another important difference between these offerings is that Vue’s companion libraries for state management and routing (among other concerns) are all officially supported and kept up-to-date with the core library. React instead chooses to leave these concerns to the community, creating a more fragmented ecosystem. Being more popular though, React’s ecosystem is considerably richer than Vue’s.
Finally, Vue offers a CLI project generator that makes it trivially easy to start a new project by featuring an interactive project scaffolding wizard. You can even use it for instantly prototyping a component. React is also making strides in this area with create-react-app, but it currently has a few limitations:
- It does not allow any configuration during project generation, while Vue CLI runs on top of an upgradeable runtime dependency that can be extended via plugins.
- It only offers a single template that assumes you’re building a single-page application, while Vue offers a wide variety of default options for various purposes and build systems.
- It cannot generate projects from user-built presets, which can be especially useful for enterprise environments with pre-established conventions.
It’s important to note that many of these limitations are intentional design decisions made by the create-react-app team and they do have their advantages. For example, as long as your project’s needs are very simple and you never need to “eject” to customize your build process, you’ll be able to update it as a dependency. You can read more about the differing philosophy here.
React is renowned for its steep learning curve. Before you can really get started, you need to know about JSX and probably ES2015+, since many examples use React’s class syntax. You also have to learn about build systems, because although you could technically use Babel Standalone to live-compile your code in the browser, it’s absolutely not suitable for production.
While Vue scales up just as well as React, it also scales down just as well as jQuery. That’s right - to get started, all you have to do is drop a single script tag into the page:
Then you can start writing Vue code and even ship the minified version to production without feeling guilty or having to worry about performance problems.
Since you don’t need to know about JSX, ES2015, or build systems to get started with Vue, it also typically takes developers less than a day reading the guide to learn enough to build non-trivial applications.
React Native enables you to write native-rendered apps for iOS and Android using the same React component model. This is great in that as a developer, you can apply your knowledge of a framework across multiple platforms. On this front, Vue has an official collaboration with Weex, a cross-platform UI framework created by Alibaba Group and being incubated by the Apache Software Foundation (ASF). Weex allows you to use the same Vue component syntax to author components that can not only be rendered in the browser, but also natively on iOS and Android!
At this moment, Weex is still in active development and is not as mature and battle-tested as React Native, but its development is driven by the production needs of the largest e-commerce business in the world, and the Vue team will also actively collaborate with the Weex team to ensure a smooth experience for Vue developers.
MobX has become quite popular in the React community and it actually uses a nearly identical reactivity system to Vue. To a limited extent, the React + MobX workflow can be thought of as a more verbose Vue, so if you’re using that combination and are enjoying it, jumping into Vue is probably the next logical step.
React-like libraries usually try to share as much of their API and ecosystem with React as is feasible. For that reason, the vast majority of comparisons above will also apply to them. The main difference will typically be a reduced ecosystem, often significantly, compared to React. Since these libraries cannot be 100% compatible with everything in the React ecosystem, some tooling and companion libraries may not be usable. Or, even if they appear to work, they could break at any time unless your specific React-like library is officially supported on par with React.
Some of Vue’s syntax will look very similar to AngularJS (e.g.
ng-if). This is because there were a lot of things that AngularJS got right and these were an inspiration for Vue very early in its development. There are also many pains that come with AngularJS however, where Vue has attempted to offer a significant improvement.
Vue is much simpler than AngularJS, both in terms of API and design. Learning enough to build non-trivial applications typically takes less than a day, which is not true for AngularJS.
AngularJS has strong opinions about how your applications should be structured, while Vue is a more flexible, modular solution. While this makes Vue more adaptable to a wide variety of projects, we also recognize that sometimes it’s useful to have some decisions made for you, so that you can just start coding.
That’s why we offer a full system for rapid Vue.js development. Vue CLI aims to be the standard tooling baseline for the Vue ecosystem. It ensures the various build tools work smoothly together with sensible defaults so you can focus on writing your app instead of spending hours wrangling with configurations. At the same time, it still offers the flexibility to tweak the configuration of each tool to specific needs.
AngularJS uses two-way binding between scopes, while Vue enforces a one-way data flow between components. This makes the flow of data easier to reason about in non-trivial applications.
Vue has a clearer separation between directives and components. Directives are meant to encapsulate DOM manipulations only, while components are self-contained units that have their own view and data logic. In AngularJS, directives do everything and components are just a specific kind of directive.
Vue has better performance and is much, much easier to optimize because it doesn’t use dirty checking. AngularJS becomes 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. AngularJS users often have to resort to esoteric techniques to get around the digest cycle, and in some situations, there’s no way to optimize a scope with many watchers.
Vue doesn’t suffer from this at all because it uses a transparent dependency-tracking observation system with async queueing - all changes trigger independently unless they have explicit dependency relationships.
Interestingly, there are quite a few similarities in how Angular and Vue are addressing these AngularJS issues.
We have a separate section for the new Angular because it really is a completely different framework from AngularJS. For example, it features a first-class component system, many implementation details have been completely rewritten, and the API has also changed quite drastically.
Angular essentially requires using TypeScript, given that almost all its documentation and learning resources are TypeScript-based. TypeScript has its benefits - static type checking can be very useful for large-scale applications, and can be a big productivity boost for developers with backgrounds in Java and C#.
However, not everyone wants to use TypeScript. In many smaller-scale use cases, introducing a type system may result in more overhead than productivity gain. In those cases you’d be better off going with Vue instead, since using Angular without TypeScript can be challenging.
Finally, although not as deeply integrated with TypeScript as Angular is, Vue also offers official typings and official decorator for those who wish to use TypeScript with Vue. We are also actively collaborating with the TypeScript and VSCode teams at Microsoft to improve the TS/IDE experience for Vue + TS users.
Both frameworks are exceptionally fast, with very similar metrics on benchmarks. You can browse specific metrics for a more granular comparison, but speed is unlikely to be a deciding factor.
Recent versions of Angular, with AOT compilation and tree-shaking, have been able to get its size down considerably. However, a full-featured Vue 2 project with Vuex + Vue Router included (~30KB gzipped) is still significantly lighter than an out-of-the-box, AOT-compiled application generated by
angular-cli (~65KB gzipped).
Vue is much less opinionated than Angular, offering official support for a variety of build systems, with no restrictions on how you structure your application. Many developers enjoy this freedom, while some prefer having only one Right Way to build any application.
Angular’s learning curve is much steeper. The API surface of the framework is huge and as a user you will need to familiarize yourself with a lot more concepts before getting productive. The complexity of Angular is largely due to its design goal of targeting only large, complex applications - but that does make the framework a lot more difficult for less-experienced developers to pick up.
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 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.
Performance-wise, Vue outperforms Ember by a fair margin, even after the latest Glimmer engine update in Ember 3.x. Vue automatically batches updates, while in Ember you need to manually manage run loops in performance-critical situations.
Knockout was a pioneer in the MVVM and dependency tracking spaces and its reactivity system is very similar to Vue’s. Its browser support is also very impressive considering everything it does, with support back to IE6! Vue on the other hand only supports IE9+.
Over time though, Knockout development has slowed and it’s begun to show its age a little. For example, its component system lacks a full set of lifecycle hooks and although it’s a very common use case, the interface for passing children to a component feels a little clunky compared to Vue’s.
There also seem to be philosophical differences in the API design which if you’re curious, can be demonstrated by how each handles the creation of a simple todo list. It’s definitely somewhat subjective, but many consider Vue’s API to be less complex and better structured.
Polymer is another Google-sponsored project and in fact was a source of inspiration for Vue as well. Vue’s 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 works without any dependencies or polyfills down to IE9.
In Polymer, the team has also made its data-binding system very limited in order to compensate for the performance. For example, the only expressions supported in Polymer templates are boolean negation and single method calls. Its computed property implementation is also not very flexible.
Riot 3.0 provides a similar component-based development model (which is called a “tag” in Riot), with a minimal and beautifully designed API. Riot and Vue probably share a lot in design philosophies. However, despite being a bit heavier than Riot, Vue does offer some significant advantages: