As we've seen in the previous blog post, rendering is React's way of knowing if it needs to make changes in the DOM, but there are certain cases where work and calculations performed during the render phase can be a wasted effort. After all, if a component's render output is identical, there will be no DOM updates, thus the work wasn't necessary.
Render output should always be based on the current combination of
state, so it is possible to know ahead of time if a component's render output will be the same so long as its
state remain unchanged. This is the key observation on top of which optimizing React rendering is based, as it hinges on our code doing less work and skipping component rendering when possible.
React offers a handful of APIs that allow us to optimize the rendering process:
shouldComponentUpdate(class components): Lifecycle method, called before rendering, returning a boolean (
falseto skip rendering,
trueto proceed as usual). Logic can vary as necessary, but the most common case is checking if the component's
React.PureComponent(class components): Base class that implements the previously described
statechange check in its
React.memo()(any component): Higher-order component (HOC) that wraps any given component. It implements the same kind of functionality as
React.PureComponent, but can also wrap function components.
All of these techniques use shallow equality for comparisons. Skipping rendering a component means skipping the default recursive behavior of rendering children, effectively skipping the whole subtree of components.
Passing new references as
props to a child component doesn't usually matter, as it will re-render regardless when the parent changes. However, if you are trying to optimize a child component's rendering by checking if its
props have changed, passing new references will cause a render. This behavior is ok if the new references are updated data, but if it's a new reference to the same callback function passed down by the parent, it's rather problematic.
This is less of an issue in class components, as they have instance methods whose references don't change, although any sort of generated callbacks passed down to a component's children can result in new references. As far as function components are concerned, React provides the
useMemo hook for memoizing values, and the
useCallback hook specifically for memoizing callbacks.
useCallback can provide performance benefits but, as with any other memoization usage, it's important to think about their necessity and the net benefit they provide in the long run. A good rule of thumb is to consider using them for pure functional components that re-render often with the same
props and/or might do heavy calculations and avoid them elsewhere.
React Developer Tools provide a handy Profiler tab that allows you to visualize and explore the rendering process of your React applications. Under this tab, you will find a settings icon which will allow you to Highlight updates when components render, as well as Record why each component rendered while profiling - I highly suggest ticking both of them. Recording the initial render and re-renders of the website can provide invaluable insights about the application's bottlenecks and issues and also highlight optimization opportunities (often using one of the techniques described above).
Finally, remember that React's development builds are significantly slower than production builds, so take all the measurements you see with a grain of salt as absolute times in development are not a valuable metric. Identifying unnecessary renders, memoization and optimization opportunities, as well as potential bottlenecks is where you should focus.
Understand the fundamentals of React's rendering process as well as more advanced techniques with this series of articles.
Take a deeper dive into React's rendering process and understand the role of the Context API and Redux in it.
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