310 lines
14 KiB
Markdown
310 lines
14 KiB
Markdown
---
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id: performance
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title: Performance
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layout: docs
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category: Guides
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permalink: docs/performance.html
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next: upgrading
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---
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A compelling reason for using React Native instead of WebView-based
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tools is to achieve 60 FPS and a native look & feel to your apps. Where
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possible, we would like for React Native to do the right thing and help
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you to focus on your app instead of performance optimization, but there
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are areas where we're not quite there yet, and others where React Native
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(similar to writing native code directly) cannot possibly determine the
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best way to optimize for you and so manual intervention will be
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necessary.
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This guide is intended to teach you some basics to help you
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to troubleshoot performance issues, as well as discuss common sources of
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problems and their suggested solutions.
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### What you need to know about frames
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Your grandparents' generation called movies ["moving
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pictures"](https://www.youtube.com/watch?v=F1i40rnpOsA) for a reason:
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realistic motion in video is an illusion created by quickly changing
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static images at a consistent speed. We refer to each of these images as
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frames. The number of frames that is displayed each second has a direct
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impact on how smooth and ultimately life-like a video (or user
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interface) seems to be. iOS devices display 60 frames per second, which
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gives you and the UI system about 16.67ms to do all of the work needed to
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generate the static image (frame) that the user will see on the screen
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for that interval. If you are unable to do the work necessary to
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generate that frame within the allotted 16.67ms, then you will "drop a
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frame" and the UI will appear unresponsive.
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Now to confuse the matter a little bit, open up the developer menu in
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your app and toggle `Show FPS Monitor`. You will notice that there are
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two different frame rates.
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#### JavaScript frame rate
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For most React Native applications, your business logic will run on the
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JavaScript thread. This is where your React application lives, API calls
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are made, touch events are processed, etc... Updates to native-backed
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views are batched and sent over to the native side at the end of each iteration of the event loop, before the frame deadline (if
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all goes well). If the JavaScript thread is unresponsive for a frame, it
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will be considered a dropped frame. For example, if you were to call
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`this.setState` on the root component of a complex application and it
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resulted in re-rendering computationally expensive component subtrees,
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it's conceivable that this might take 200ms and result in 12 frames
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being dropped. Any animations controlled by JavaScript would appear to freeze during that time. If anything takes longer than 100ms, the user will feel it.
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This often happens during Navigator transitions: when you push a new
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route, the JavaScript thread needs to render all of the components
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necessary for the scene in order to send over the proper commands to the
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native side to create the backing views. It's common for the work being
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done here to take a few frames and cause jank because the transition is
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controlled by the JavaScript thread. Sometimes components will do
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additional work on `componentDidMount`, which might result in a second
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stutter in the transition.
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Another example is responding to touches: if you are doing work across
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multiple frames on the JavaScript thread, you might notice a delay in
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responding to TouchableOpacity, for example. This is because the JavaScript thread is busy and cannot process the raw touch events sent over from the main thread. As a result, TouchableOpacity cannot react to the touch events and command the native view to adjust its opacity.
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#### Main thread (aka UI thread) frame rate
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Many people have noticed that performance of `NavigatorIOS` is better
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out of the box than `Navigator`. The reason for this is that the
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animations for the transitions are done entirely on the main thread, and
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so they are not interrupted by frame drops on the JavaScript thread.
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([Read about why you should probably use Navigator
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anyways.](/react-native/docs/navigator-comparison.html))
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Similarly, you can happily scroll up and down through a ScrollView when
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the JavaScript thread is locked up because the ScrollView lives on the
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main thread (the scroll events are dispatched to the JS thread though,
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but their receipt is not necessary for the scroll to occur).
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### Common sources of performance problems
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#### Development mode (dev=true)
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JavaScript thread performance suffers greatly when running in dev mode.
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This is unavoidable: a lot more work needs to be done at runtime to
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provide you with good warnings and error messages, such as validating
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propTypes and various other assertions.
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#### Slow navigator transitions
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As mentioned above, `Navigator` animations are controlled by the
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JavaScript thread. Imagine the "push from right" scene transition: each
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frame, the new scene is moved from the right to left, starting offscreen
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(let's say at an x-offset of 320) and ultimately settling when the scene sits
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at an x-offset of 0. Each frame during this transition, the
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JavaScript thread needs to send a new x-offset to the main thread.
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If the JavaScript thread is locked up, it cannot do this and so no
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update occurs on that frame and the animation stutters.
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Part of the long-term solution to this is to allow for JavaScript-based
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animations to be offloaded to the main thread. If we were to do the same
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thing as in the above example with this approach, we might calculate a
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list of all x-offsets for the new scene when we are starting the
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transition and send them to the main thread to execute in an
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optimized way. Now that the JavaScript thread is freed of this
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responsibility, it's not a big deal if it drops a few frames while
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rendering the scene -- you probably won't even notice because you will be
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too distracted by the pretty transition.
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Unfortunately this solution is not yet implemented, and so in the
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meantime we should use the InteractionManager to selectively render the
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minimal amount of content necessary for the new scene as long as the
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animation is in progress. `InteractionManager.runAfterInteractions` takes
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a callback as its only argument, and that callback is fired when the
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navigator transition is complete (each animation from the `Animated` API
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also notifies the InteractionManager, but that's beyond the scope of
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this discussion).
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Your scene component might look something like this:
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```js
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class ExpensiveScene extends React.Component {
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constructor(props, context) {
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super(props, context);
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this.state = {renderPlaceholderOnly: true};
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}
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componentDidMount() {
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InteractionManager.runAfterInteractions(() => {
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this.setState({renderPlaceholderOnly: false});
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});
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}
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render() {
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if (this.state.renderPlaceholderOnly) {
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return this._renderPlaceholderView();
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}
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return (
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<View>
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<Text>Your full view goes here</Text>
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</View>
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);
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}
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_renderPlaceholderView() {
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return (
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<View>
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<Text>Loading...</Text>
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</View>
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);
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}
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};
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```
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You don't need to be limited to rendering some loading indicator, you
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could alternatively render part of your content -- for example, when you
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load the Facebook app you see a placeholder news feed item with grey
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rectangles where text will be. If you are rendering a Map in your new
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scene, you might want to display a grey placeholder view or a spinner
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until the transition is complete as this can actually cause frames to be
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dropped on the main thread.
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#### ListView initial rendering is too slow or scroll performance is bad for large lists
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This is an issue that comes up frequently because iOS ships with
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UITableView which gives you very good performance by re-using underlying
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UIViews. Work is in progress to do something similar with React Native,
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but until then we have some tools at our disposal to help us tweak the
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performance to suit our needs. It may not be possible to get all the way
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there, but a little bit of creativity and experimentation with these
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options can go a long way.
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##### initialListSize
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This prop specifies how many rows we want to render on our first render
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pass. If we are concerned with getting *something* on screen as quickly
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as possible, we could set the `initialListSize` to 1, and we'll quickly
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see other rows fill in on subsequent frames. The number of rows per
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frame is determined by the `pageSize`.
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##### pageSize
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After the initial render where `initialListSize` is used, ListView looks
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at the `pageSize` to determine how many rows to render per frame. The
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default here is 1 -- but if your views are very small and inexpensive to
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render, you might want to bump this up. Tweak it and find what works for
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your use case.
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##### scrollRenderAheadDistance
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"How early to start rendering rows before they come on screen, in pixels."
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If we had a list with 2000 items and rendered them all immediately that
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would be a poor use of both memory and computational resources. It would
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also probably cause some pretty awful jank. So the scrollRenderAhead
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distance allows us to specify for far beyond the current viewport we
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should continue to render rows.
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##### removeClippedSubviews
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"When true, offscreen child views (whose `overflow` value is `hidden`)
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are removed from their native backing superview when offscreen. This
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can improve scrolling performance on long lists. The default value is
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`true`."(The default value is `false` before version 0.14-rc).
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This is an extremely important optimization to apply on large ListViews.
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On Android the `overflow` value is always `hidden` so you don't need to
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worry about setting it, but on iOS you need to be sure to set `overflow:
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hidden` on row containers.
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#### My component renders too slowly and I don't need it all immediately
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It's common at first to overlook ListView, but using it properly is
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often key to achieving solid performance. As discussed above, it
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provides you with a set of tools that lets you split rendering of your
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view across various frames and tweak that behavior to fit your specific
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needs. Remember that ListView can be horizontal too.
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#### JS FPS plunges when re-rendering a view that hardly changes
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If you are using a ListView, you must provide a `rowHasChanged` function
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that can reduce a lot of work by quickly determining whether or not a
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row needs to be re-rendered. If you are using immutable data structures,
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this would be as simple as a reference equality check.
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Similarly, you can implement `shouldComponentUpdate` and indicate the
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exact conditions under which you would like the component to re-render.
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If you write pure components (where the return value of the render
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function is entirely dependent on props and state), you can leverage
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PureRenderMixin to do this for you. Once again, immutable data
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structures are useful to keep this fast -- if you have to do a deep
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comparison of a large list of objects, it may be that re-rendering your
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entire component would be quicker, and it would certainly require less
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code.
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#### Dropping JS thread FPS because of doing a lot of work on the JavaScript thread at the same time
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"Slow Navigator transitions" is the most common manifestation of this,
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but there are other times this can happen. Using InteractionManager can
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be a good approach, but if the user experience cost is too high to delay
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work during an animation, then you might want to consider
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LayoutAnimation.
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The Animated api currently calculates each keyframe on-demand on the
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JavaScript thread, while LayoutAnimation leverages Core Animation and is
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unaffected by JS thread and main thread frame drops.
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One case where I have used this is for animating in a modal (sliding
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down from top and fading in a translucent overlay) while
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initializing and perhaps receiving responses for several network
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requests, rendering the contents of the modal, and updating the view
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where the modal was opened from. See the Animations guide for more
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information about how to use LayoutAnimation.
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Caveats:
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- LayoutAnimation only exists on iOS.
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- LayoutAnimation only works for fire-and-forget animations ("static"
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animations) -- if it must be be interruptible, you will need to use
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Animated.
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#### Moving a view on the screen (scrolling, translating, rotating) drops UI thread FPS
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This is especially true when you have text with a transparent background
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positioned on top of an image, or any other situation where alpha
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compositing would be required to re-draw the view on each frame. You
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will find that enabling `shouldRasterizeIOS` or `renderToHardwareTextureAndroid`
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can help with this significantly.
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Be careful not to overuse this or your memory usage could go through the
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roof. Profile your performance and memory usage when using these props. If you don't plan to move a view anymore, turn this property off.
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#### Animating the size of an image drops UI thread FPS
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On iOS, each time you adjust the width or height of an Image component
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it is re-cropped and scaled from the original image. This can be very expensive,
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especially for large images. Instead, use the `transform: [{scale}]`
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style property to animate the size. An example of when you might do this is
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when you tap an image and zoom it in to full screen.
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#### My TouchableX view isn't very responsive
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Sometimes, if we do an action in the same frame that we are adjusting
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the opacity or highlight of a component that is responding to a touch,
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we won't see that effect until after the `onPress` function has returned.
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If `onPress` does a `setState` that results in a lot of work and a few
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frames dropped, this may occur. A solution to this is to wrap any action
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inside of your `onPress` handler in `requestAnimationFrame`:
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```js
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handleOnPress() {
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// Always use TimerMixin with requestAnimationFrame, setTimeout and
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// setInterval
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this.requestAnimationFrame(() => {
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this.doExpensiveAction();
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});
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}
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```
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### Profiling
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Use the built-in Profiler to get detailed information about work done in
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the JavaScript thread and main thread side-by-side.
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For iOS, Instruments are an invaluable tool, and on Android you should
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learn to use systrace.
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