494 lines
20 KiB
Markdown
494 lines
20 KiB
Markdown
---
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id: animations
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title: Animations
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layout: docs
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category: Guides
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permalink: docs/animations.html
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next: accessibility
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previous: images
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---
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Animations are very important to create a great user experience.
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Stationary objects must overcome inertia as they start moving.
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Objects in motion have momentum and rarely come to a stop immediately.
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Animations allow you to convey physically believable motion in your interface.
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React Native provides two complementary animation systems:
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[`Animated`](docs/animations.html#animated-api) for granular and interactive control of specific values, and
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[`LayoutAnimation`](docs/animations.html#layoutanimation) for animated global layout transactions.
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## `Animated` API
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The [`Animated`](docs/animated.html) API is designed to make it very easy to concisely express a wide variety of interesting animation and interaction patterns in a very performant way.
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`Animated` focuses on declarative relationships between inputs and outputs, with configurable transforms in between, and simple `start`/`stop` methods to control time-based animation execution.
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`Animated` exports four animatable component types: `View`, `Text`, `Image`, and `ScrollView`, but you can also create your own using `Animated.createAnimatedComponent()`.
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For example, a container view that fades in when it is mounted may look like this:
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```SnackPlayer
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import React from 'react';
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import { Animated, Text, View } from 'react-native';
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class FadeInView extends React.Component {
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state = {
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fadeAnim: new Animated.Value(0), // Initial value for opacity: 0
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}
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componentDidMount() {
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Animated.timing( // Animate over time
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this.state.fadeAnim, // The animated value to drive
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{
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toValue: 1, // Animate to opacity: 1 (opaque)
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duration: 10000, // Make it take a while
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}
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).start(); // Starts the animation
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}
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render() {
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let { fadeAnim } = this.state;
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return (
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<Animated.View // Special animatable View
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style={{
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...this.props.style,
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opacity: fadeAnim, // Bind opacity to animated value
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}}
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>
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{this.props.children}
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</Animated.View>
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);
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}
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}
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// You can then use your `FadeInView` in place of a `View` in your components:
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export default class App extends React.Component {
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render() {
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return (
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<View style={{flex: 1, alignItems: 'center', justifyContent: 'center'}}>
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<FadeInView style={{width: 250, height: 50, backgroundColor: 'powderblue'}}>
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<Text style={{fontSize: 28, textAlign: 'center', margin: 10}}>Fading in</Text>
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</FadeInView>
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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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Let's break down what's happening here.
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In the `FadeInView` constructor, a new `Animated.Value` called `fadeAnim` is initialized as part of `state`.
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The opacity property on the `View` is mapped to this animated value.
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Behind the scenes, the numeric value is extracted and used to set opacity.
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When the component mounts, the opacity is set to 0.
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Then, an easing animation is started on the `fadeAnim` animated value,
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which will update all of its dependent mappings (in this case, just the opacity) on each frame as the value animates to the final value of 1.
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This is done in an optimized way that is faster than calling `setState` and re-rendering.
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Because the entire configuration is declarative, we will be able to implement further optimizations that serialize the configuration and runs the animation on a high-priority thread.
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### Configuring animations
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Animations are heavily configurable. Custom and predefined easing functions, delays, durations, decay factors, spring constants, and more can all be tweaked depending on the type of animation.
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`Animated` provides several animation types, the most commonly used one being [`Animated.timing()`](docs/animated.html#timing).
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It supports animating a value over time using one of various predefined easing functions, or you can use your own.
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Easing functions are typically used in animation to convey gradual acceleration and deceleration of objects.
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By default, `timing` will use a easeInOut curve that conveys gradual acceleration to full speed and concludes by gradually decelerating to a stop.
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You can specify a different easing function by passing a `easing` parameter.
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Custom `duration` or even a `delay` before the animation starts is also supported.
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For example, if we want to create a 2-second long animation of an object that slightly backs up before moving to its final position:
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```javascript
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Animated.timing(
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this.state.xPosition,
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{
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toValue: 100,
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easing: Easing.back,
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duration: 2000,
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}
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).start();
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```
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Take a look at the [Configuring animations](docs/animated.html#configuring-animations) section of the `Animated` API reference to learn more about all the config parameters supported by the built-in animations.
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### Composing animations
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Animations can be combined and played in sequence or in parallel.
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Sequential animations can play immediately after the previous animation has finished,
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or they can start after a specified delay.
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The `Animated` API provides several methods, such as `sequence()` and `delay()`,
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each of which simply take an array of animations to execute and automatically calls `start()`/`stop()` as needed.
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For example, the following animation coasts to a stop, then it springs back while twirling in parallel:
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```javascript
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Animated.sequence([ // decay, then spring to start and twirl
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Animated.decay(position, { // coast to a stop
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velocity: {x: gestureState.vx, y: gestureState.vy}, // velocity from gesture release
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deceleration: 0.997,
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}),
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Animated.parallel([ // after decay, in parallel:
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Animated.spring(position, {
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toValue: {x: 0, y: 0} // return to start
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}),
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Animated.timing(twirl, { // and twirl
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toValue: 360,
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}),
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]),
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]).start(); // start the sequence group
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```
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If one animation is stopped or interrupted, then all other animations in the group are also stopped.
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`Animated.parallel` has a `stopTogether` option that can be set to `false` to disable this.
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You can find a full list of composition methods in the [Composing animations](docs/animated.html#composing-animations) section of the `Animated` API reference.
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### Combining animated values
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You can [combine two animated values](docs/animated.html#combining-animated-values) via addition, multiplication, division, or modulo to make a new animated value.
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There are some cases where an animated value needs to invert another animated value for calculation.
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An example is inverting a scale (2x --> 0.5x):
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```javascript
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const a = Animated.Value(1);
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const b = Animated.divide(1, a);
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Animated.spring(a, {
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toValue: 2,
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}).start();
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```
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### Interpolation
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Each property can be run through an interpolation first.
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An interpolation maps input ranges to output ranges,
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typically using a linear interpolation but also supports easing functions.
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By default, it will extrapolate the curve beyond the ranges given, but you can also have it clamp the output value.
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A simple mapping to convert a 0-1 range to a 0-100 range would be:
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```javascript
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value.interpolate({
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inputRange: [0, 1],
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outputRange: [0, 100],
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});
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```
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For example, you may want to think about your `Animated.Value` as going from 0 to 1,
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but animate the position from 150px to 0px and the opacity from 0 to 1.
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This can easily be done by modifying `style` from the example above like so:
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```javascript
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style={{
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opacity: this.state.fadeAnim, // Binds directly
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transform: [{
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translateY: this.state.fadeAnim.interpolate({
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inputRange: [0, 1],
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outputRange: [150, 0] // 0 : 150, 0.5 : 75, 1 : 0
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}),
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}],
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}}
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```
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[`interpolate()`](docs/animated.html#interpolate) supports multiple range segments as well, which is handy for defining dead zones and other handy tricks.
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For example, to get an negation relationship at -300 that goes to 0 at -100, then back up to 1 at 0, and then back down to zero at 100 followed by a dead-zone that remains at 0 for everything beyond that, you could do:
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```javascript
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value.interpolate({
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inputRange: [-300, -100, 0, 100, 101],
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outputRange: [300, 0, 1, 0, 0],
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});
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```
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Which would map like so:
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```
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Input | Output
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------|-------
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-400| 450
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-300| 300
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-200| 150
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-100| 0
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-50| 0.5
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0| 1
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50| 0.5
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100| 0
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101| 0
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200| 0
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```
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`interpolate()` also supports mapping to strings, allowing you to animate colors as well as values with units. For example, if you wanted to animate a rotation you could do:
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```javascript
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value.interpolate({
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inputRange: [0, 360],
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outputRange: ['0deg', '360deg']
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})
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```
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`interpolate()` also supports arbitrary easing functions, many of which are already implemented in the
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[`Easing`](docs/easing.html) module.
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`interpolate()` also has configurable behavior for extrapolating the `outputRange`.
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You can set the extrapolation by setting the `extrapolate`, `extrapolateLeft`, or `extrapolateRight` options.
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The default value is `extend` but you can use `clamp` to prevent the output value from exceeding `outputRange`.
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### Tracking dynamic values
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Animated values can also track other values.
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Just set the `toValue` of an animation to another animated value instead of a plain number.
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For example, a "Chat Heads" animation like the one used by Messenger on Android could be implemented with a `spring()` pinned on another animated value, or with `timing()` and a `duration` of 0 for rigid tracking.
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They can also be composed with interpolations:
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```javascript
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Animated.spring(follower, {toValue: leader}).start();
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Animated.timing(opacity, {
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toValue: pan.x.interpolate({
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inputRange: [0, 300],
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outputRange: [1, 0],
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}),
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}).start();
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```
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The `leader` and `follower` animated values would be implemented using `Animated.ValueXY()`.
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`ValueXY` is a handy way to deal with 2D interactions, such as panning or dragging.
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It is a simple wrapper that basically contains two `Animated.Value` instances and some helper functions that call through to them,
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making `ValueXY` a drop-in replacement for `Value` in many cases.
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It allows us to track both x and y values in the example above.
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### Tracking gestures
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Gestures, like panning or scrolling, and other events can map directly to animated values using [`Animated.event`](docs/animated.html#event).
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This is done with a structured map syntax so that values can be extracted from complex event objects.
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The first level is an array to allow mapping across multiple args, and that array contains nested objects.
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For example, when working with horizontal scrolling gestures,
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you would do the following in order to map `event.nativeEvent.contentOffset.x` to `scrollX` (an `Animated.Value`):
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```javascript
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onScroll={Animated.event(
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// scrollX = e.nativeEvent.contentOffset.x
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[{ nativeEvent: {
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contentOffset: {
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x: scrollX
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}
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}
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}]
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)}
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```
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When using `PanResponder`, you could use the following code to extract the x and y positions from `gestureState.dx` and `gestureState.dy`.
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We use a `null` in the first position of the array, as we are only interested in the second argument passed to the `PanResponder` handler,
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which is the `gestureState`.
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```javascript
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onPanResponderMove={Animated.event(
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[null, // ignore the native event
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// extract dx and dy from gestureState
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// like 'pan.x = gestureState.dx, pan.y = gestureState.dy'
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{dx: pan.x, dy: pan.y}
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])}
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```
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### Responding to the current animation value
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You may notice that there is no obvious way to read the current value while animating.
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This is because the value may only be known in the native runtime due to optimizations.
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If you need to run JavaScript in response to the current value, there are two approaches:
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- `spring.stopAnimation(callback)` will stop the animation and invoke `callback` with the final value. This is useful when making gesture transitions.
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- `spring.addListener(callback)` will invoke `callback` asynchronously while the animation is running, providing a recent value.
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This is useful for triggering state changes,
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for example snapping a bobble to a new option as the user drags it closer,
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because these larger state changes are less sensitive to a few frames of lag compared to continuous gestures like panning which need to run at 60 fps.
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`Animated` is designed to be fully serializable so that animations can be run in a high performance way, independent of the normal JavaScript event loop.
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This does influence the API, so keep that in mind when it seems a little trickier to do something compared to a fully synchronous system.
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Check out `Animated.Value.addListener` as a way to work around some of these limitations,
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but use it sparingly since it might have performance implications in the future.
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### Using the native driver
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The `Animated` API is designed to be serializable.
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By using the [native driver](http://facebook.github.io/react-native/blog/2017/02/14/using-native-driver-for-animated.html),
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we send everything about the animation to native before starting the animation,
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allowing native code to perform the animation on the UI thread without having to go through the bridge on every frame.
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Once the animation has started, the JS thread can be blocked without affecting the animation.
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Using the native driver for normal animations is quite simple.
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Just add `useNativeDriver: true` to the animation config when starting it.
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```javascript
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Animated.timing(this.state.animatedValue, {
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toValue: 1,
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duration: 500,
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useNativeDriver: true, // <-- Add this
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}).start();
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```
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Animated values are only compatible with one driver so if you use native driver when starting an animation on a value,
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make sure every animation on that value also uses the native driver.
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The native driver also works with `Animated.event`.
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This is specially useful for animations that follow the scroll position as without the native driver,
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the animation will always run a frame behind the gesture due to the async nature of React Native.
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```javascript
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<Animated.ScrollView // <-- Use the Animated ScrollView wrapper
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scrollEventThrottle={1} // <-- Use 1 here to make sure no events are ever missed
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onScroll={Animated.event(
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[{ nativeEvent: { contentOffset: { y: this.state.animatedValue } } }],
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{ useNativeDriver: true } // <-- Add this
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)}
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>
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{content}
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</Animated.ScrollView>
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```
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You can see the native driver in action by running the [RNTester app](https://github.com/facebook/react-native/blob/master/RNTester/),
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then loading the Native Animated Example.
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You can also take a look at the [source code](https://github.com/facebook/react-native/blob/master/RNTester/js/NativeAnimationsExample.js) to learn how these examples were produced.
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#### Caveats
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Not everything you can do with `Animated` is currently supported by the native driver.
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The main limitation is that you can only animate non-layout properties:
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things like `transform` and `opacity` will work, but flexbox and position properties will not.
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When using `Animated.event`, it will only work with direct events and not bubbling events.
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This means it does not work with `PanResponder` but does work with things like `ScrollView#onScroll`.
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### Additional examples
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The RNTester app has various examples of `Animated` in use:
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- [AnimatedGratuitousApp](https://github.com/facebook/react-native/tree/master/RNTester/js/AnimatedGratuitousApp)
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- [NativeAnimationsExample](https://github.com/facebook/react-native/blob/master/RNTester/js/NativeAnimationsExample.js)
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## `LayoutAnimation` API
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`LayoutAnimation` allows you to globally configure `create` and `update`
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animations that will be used for all views in the next render/layout cycle.
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This is useful for doing flexbox layout updates without bothering to measure or
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calculate specific properties in order to animate them directly, and is
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especially useful when layout changes may affect ancestors, for example a "see
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more" expansion that also increases the size of the parent and pushes down the
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row below which would otherwise require explicit coordination between the
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components in order to animate them all in sync.
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Note that although `LayoutAnimation` is very powerful and can be quite useful,
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it provides much less control than `Animated` and other animation libraries, so
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you may need to use another approach if you can't get `LayoutAnimation` to do
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what you want.
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Note that in order to get this to work on **Android** you need to set the following flags via `UIManager`:
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```javascript
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UIManager.setLayoutAnimationEnabledExperimental && UIManager.setLayoutAnimationEnabledExperimental(true);
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```
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```SnackPlayer
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import React from 'react';
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import {
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NativeModules,
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LayoutAnimation,
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Text,
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TouchableOpacity,
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StyleSheet,
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View,
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} from 'react-native';
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const { UIManager } = NativeModules;
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UIManager.setLayoutAnimationEnabledExperimental &&
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UIManager.setLayoutAnimationEnabledExperimental(true);
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export default class App extends React.Component {
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state = {
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w: 100,
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h: 100,
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};
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_onPress = () => {
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// Animate the update
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LayoutAnimation.spring();
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this.setState({w: this.state.w + 15, h: this.state.h + 15})
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}
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render() {
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return (
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<View style={styles.container}>
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<View style={[styles.box, {width: this.state.w, height: this.state.h}]} />
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<TouchableOpacity onPress={this._onPress}>
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<View style={styles.button}>
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<Text style={styles.buttonText}>Press me!</Text>
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</View>
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</TouchableOpacity>
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</View>
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);
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}
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}
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const styles = StyleSheet.create({
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container: {
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flex: 1,
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alignItems: 'center',
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justifyContent: 'center',
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},
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box: {
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width: 200,
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height: 200,
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backgroundColor: 'red',
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},
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button: {
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backgroundColor: 'black',
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paddingHorizontal: 20,
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paddingVertical: 15,
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marginTop: 15,
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},
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buttonText: {
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color: '#fff',
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fontWeight: 'bold',
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},
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});
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```
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This example uses a preset value, you can customize the animations as
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you need, see [LayoutAnimation.js](https://github.com/facebook/react-native/blob/master/Libraries/LayoutAnimation/LayoutAnimation.js)
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for more information.
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## Additional notes
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### `requestAnimationFrame`
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`requestAnimationFrame` is a polyfill from the browser that you might be
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familiar with. It accepts a function as its only argument and calls that
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function before the next repaint. It is an essential building block for
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animations that underlies all of the JavaScript-based animation APIs. In
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general, you shouldn't need to call this yourself - the animation APIs will
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manage frame updates for you.
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### `setNativeProps`
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As mentioned [in the Direction Manipulation section](docs/direct-manipulation.html),
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`setNativeProps` allows us to modify properties of native-backed
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components (components that are actually backed by native views, unlike
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composite components) directly, without having to `setState` and
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re-render the component hierarchy.
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We could use this in the Rebound example to update the scale - this
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might be helpful if the component that we are updating is deeply nested
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and hasn't been optimized with `shouldComponentUpdate`.
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If you find your animations with dropping frames (performing below 60 frames
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per second), look into using `setNativeProps` or `shouldComponentUpdate` to
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optimize them. Or you could run the animations on the UI thread rather than
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the JavaScript thread [with the useNativeDriver
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option](http://facebook.github.io/react-native/blog/2017/02/14/using-native-driver-for-animated.html).
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You may also want to defer any computationally intensive work until after
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animations are complete, using the
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[InteractionManager](docs/interactionmanager.html). You can monitor the
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frame rate by using the In-App Developer Menu "FPS Monitor" tool.
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